[From the U.S. Government Printing Office, www.gpo.gov]
The Pawcatuck River Estuary and
Little Narragansett Bay:
An Interstate Management Plan
4"
Rhode Island Coastal Resources Management Council
QH Connecticut Department of Environmental Protection
541 .5 Stonington, Connecticut
.E8 Westerly, Rhode Island
P39
1992
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The Pawcatuck River Estuary and
Little Narragansett Bay:
An Interstate Management Plan
Adopted July 14, 1992
This document was prepared for the
Rhode Island Coastal Resources Management Council and
the Connecticut Department of Environmental Protection,
Office of Long Island Sound Programs by
Timothy P. Dillingham
Rush Abrams
Alan Desbonnet
Jeffrey M. Willis
Project Coordinators: Timothy P. Dillingham
Marybeth G. Hart
Published July 1993
The preparation of this publication was financed by a grant from the National
Oceanic and Atmospheric Administration, under the provisions of the Coastal Zone
Management Act of 1972 (Public Law 92-583).
US Department of commerce
NOAA Coastal Services C-EnEer 10110X=7
cm 2234 South Hobson Avenue
Charleston, SC 29405-2413
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DEDICATION
This Interstate Management Plan is dedicated in memory to
Clement Griscom, Ph.D. His love of the estuary and his foresight
toward its protection led to this plan, and shaped many of its
goals. His contributions were greatly appreciated and his
participation will be missed.
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EXECUTIVE SUMMARY
INTRODUCTION
The Pawcatuck River estuary and Little Narragansett Bay: An Interstate
Management Plan describes the current status of the resources within the estuary,
characterizes its watershed, identifies estuary resources of concern, and recommends
management strategies and other initiatives concerning the use and protection of this
highly regarded estuary. Accomplishing this involved the enlistment of a citizen's
advisory committee to assist in developing an issues list which reflected public
concerns about the estuary. Development and research of these issues involved the
collection of data regarding past and current land use and development trends, water
quality status, critical wildlife habitats, recreational patterns of use, and the
development of new investigations conducted by the project's staff. This information
is presented in this interstate management plan as "Findings of Fact" sections in the
various chapters. Each chapter concludes with recommended management regulations
and initiatives aimed at addressing the issues raised within each chapter. (More de-
tailed information and discussions of the Findings are contained in a series of Technical
Reports, which are supporting documents for this Interstate Management Plan.)
The management of coastal areas and resources is a concept well established
in New England. However, management programs are based upon and segregated
among political jurisdictions. These artifices of government often do not recognize the
ecological inter-relationships between resources, geographic areas and uses of coastal
systems. The problem is particularly acute when the ecosystem in question forms the
boundary between two states, as do the Pawcatuck River estuary and Little
Narragansett Bay. Thus, the Interstate Management Plan has put forth management
regulations and initiatives, programs, and strategies which are focused on coordination
of government agencies and bodies, identification and restoration of sources of
pollution, identification and protection of critical wildlife habitats, guidance and
management measures for various uses of the estuary, and to provide a consistent,
ecologically-based policy framework for decisions involving the use of the estuary's
resources.
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FRAMEWORK OF MANAGEMENT
The Pawcatuck River estuary, Little Narragansett Bay and their associated
watersheds lie within the political jurisdictions of two states, three towns and a
multitude of local, state and federal agencies. The Pawcatuck River estuary and Little
Narragansett Bay also serve as the interstate boundary between Connecticut and
Rhode Island. There is currently no interstate authority with jurisdiction over the area.
The Interstate Management Plan provides several mechanisms to coordinate
these separate governmental bodies, including the following:
An Interstate Notice Procedure is recommended to allow all
governmental authorities to receive public notices concerning proposals
and reviews under their respective jurisdictions;
Interstate Memorandums of Agreement are recommended to be
developed between all authorities to coordinate issues of concern such
as boating safety enforcement, sewage treatment management
notification, and dredging operations;
Coordinated Reviews for Large-Scale Projects are recommended to be
developed to facilitate the reviews of proposals on the basis of shared
expertise from all affected agencies;
A Pawcatuck River Bi-State Commission is proposed to be instituted in
Rhode Island to compliment and effectuate legislation establishing such
a commission by the Connecticut legislature.
THE WATERSHED ENVIRONMENT AND IMPACTS TO WATER QUALITY
Water quality conditions of the Pawcatuck River estuary and Little Narragansett
Bay have improved recently. Currently, water quality in the estuary can be considered
consistent with state and federal standards, showing no pollutant concentrations
considered harmful to aquatic life. However, concentrations of fecal coliform bacteria,
an indicator of potential human health hazard, exceed criteria acceptable for shellfish
harvesting in the upper and lower Pawcatuck River estuary and Little Narragansett Bay,
thereby prohibiting shellfishing for direct human consumption. Sources of fecal
coliform and other pollutants include the Pawcatuck River basin, the municipal sewage
treatment plants, shoreline septic systems, runoff and recreational boats. Also, the
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estuary's relationship to the freshwater portion of the Pawcatuck River drives the
functioning of the estuary, greatly influences flushing dynamics, range of saltwater
encroachment up estuary, and overall loading and behavior of pollutants within the
estuary. Urban runoff is also a major contributor to the total load of pollutants entering
the estuary.
The water quality management programs of the States of Rhode Island and
Connecticut are generally consistent in their assessment of the condition of the
estuary, and management strategies for controlling direct discharges. The programs
are not, however, closely coordinated, or undertaken cognizant of the bi-state nature
of the estuary. Additionally, adequate programs for controlling nonpoint sources of
pollution do not generally exist.
Management Regulations and Initiatives include:
Watershed Controls for Surface Water Runoff centering around
stormwater management measures and plans;
Regional Wastewater Management Initiatives that aim to correct and
maintain failed on-site disposal systems, avoid the extension of sewers
to areas capable of supporting on-site disposal systems, and septage
management and disposal;
A Pilot Marina Nonpoint Source Pollution Management Program which
encourages the use of best management practices in marina operations;
Controls on Freshwater Withdrawals; and,
Interstate Coordination on Discharge Regulation and Water Quality
Management that calls for a formal process for the exchange of
information pertaining to discharges to the estuary on an interstate level.
HABITAT PROTECTION AND RESTORATION
The Pawcatuck River estuary and Little Narragansett Bay contain a wide
diversity of natural habitats critical to the survival of many different species. Many of
these areas are of outstanding quality on a national, regional and statewide basis.
These habitats support commercially important fisheries, rare and endangered species,
as well as provide the foundation for the estuarine ecosystem.
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A complex series of interrelationships within the estuary exists among the
various habitat types and components, creating unique conditions and characteristics
which define their quality. These habitats include the open water and aquatic habitats,
wetland systems and the upland areas adjacent to the estuary. Each is linked and
interdependent, forming the basis for a highly productive and diverse wildlife
population, and a unique natural resource. Additionally, the estuary serves as the
gateway to the freshwater portion of the Pawcatuck River watershed, a regional
resource in itself.
Each of the various critical habitat areas has experienced degradation and
impacts from manmade alterations and uses, however, these areas remain ones of
outstanding quality.
Management Regulations and Initiatives include:
Protection of Critical Habitat Areas;
Development of Habitat Restoration Programs aimed at re-establishing
and revitalizing functional habitat characteristics and processes which
have been diminished or lost as a result of past alterations, activities, or
catastrophic events;
Land Use Management Controls for Habitat Protection which outline
methods to protect wildlife habitat and environmental quality; and,
Dredging Management initiatives that impose dredge windows,
operations scheduling, and interstate notification.
RECREATIONAL USES
The number of users within the estuary has significantly increased, reflecting
the growth and changes in the populations of the towns, and the accessibility and
desirability of coastal recreation. The open waters of the bay and the recreational
boating facilities of the estuary all play an increasing role in the quality of life within
the area, building upon an extensive historical relationship between the people of
Stonington and Westerly and the estuary.
The numbers of boats within the estuary itself have grown by approximately
70% over the last ten years, providing access to the waters for approximately 59,000
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individuals in a single season. The waters off Napatree Point are crowded with local
and transient boaters throughout much of the summer, as is the barrier island of Sandy
Point. The anchorage at Watch Hill harbor has expanded to capacity in recent years,
to the exclusion of many transient boats and necessitating the establishment of a
waiting list for space. The public boat launching ramp at Barn Island Wildlife
Management Area is the fourth most-popular in the entire state of Connecticut, and
averages 200 launches per weekend day. Additionally, the improvements in water
quality have renewed an interest in recreation centered within the Pawcatuck River
estuary itself; expanding canoe use of the upper Pawcatuck system is spilling over into
the estuary, bringing new, low-intensity users seeking access and open waters.
This growing amount of recreational use within the estuary has raised concerns
among the public, municipal officials and state management agencies about the need
for increasing levels of active management. The large numbers and diversity of
recreational users within the estuary inevitably result in some incompatibility and
conflict among them, and with the basic, shared objective of environmental protection.
Management Regulations and Initiatives include-
Increasing Low Impact and Local Access to the estuary through the
development and improvement of small boat ramps,- improvements to
commercial and public facilities, and the development of new ramps
where appropriate;
Instituting an Estuary-wide Mooring Program that requires the permitting
of all moorings, siting mooring fields in appropriate areas and managing
levels of use, and providing adequate access to these mooring fields;
Establishing and coordinating the roles of Harbor Management
Commissions and Harbormaster and Police Patrols to ensure
enforcement actions and coordination and develop estuary-wide policies
on harbor management; and,
The establishment of Interstate Estuary Policies for the Management of
Recreational Boating Facilities and the protection of open water areas
through structures management and regulation.
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PUBLIC ACCESS, OPEN SPACE, AND PROTECTION OF SCENIC VALUES
Public access to the Pawcatuck River estuary and Little Narragansett Bay
occurs in many different forms. The beaches of Sandy Point and Napatree Point
provide access for beachgoers, birdwatchers and bathers. Boaters gain access to the
estuary through the boat ramps at the Barn Island Wildlife Management Area and the
commercial marinas, as well as transients coming from other areas and canoeists f ron-1
access sites upriver. The Wildlife Management area provides almost 600 acres of open
space for the public, much of it available through trails and walking paths. The
Pawcatuck River Park, the Riverbend Cemetery and various bridges provide scenic
views and fishing and shoreline access to the river in the urban areas of the estuary.
Roads ending at the shoreline are often traditional rights of way, providing for low
impact access to the water for fishermen and others. Additionally, undeveloped open
space and vistas from shoreline highways and roads provide visual access to the
estuary for many residents as well as tourists.
However, there are several more potential access and scenic sites in the
estuary, but no local programs to identify, maintain or develop these areas. Many of
the Rhode Island potential Right of Ways (ROWs) have not been designated by the
RICRIVIC under its program, and therefore, are not protected from possible blocking or
infringement. Also, neither the towns nor the state governments require the
development or dedication of public access as an established condition of permit
approvals, even where the applicant proposes to utilize public waters. However, the
CTIDEP-OLISP does often require the provision of access as a condition of meeting its
water dependency requirements, and the RICRIVIC in the past has required public
access at marina developments.
Presently, there are no comprehensive policies or guidelines within the estuary
for public access development, or standards to guide projects proposing access.
Additionally, there is no comprehensive plan for access within the estuary to provide
a context for individual permit decisions.
Management Regulations and Initiatives include:
Protecting and Increasing Access through the development of general
public access policies, improvement and development of municipally-
owned sites, expansion of access to the urban section of the estuary,
and the formal designation, development and management of public
rights-of-way; and,
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Protecting Scenic Qualities of Open Water Areas by guiding
management decisions about siting of facilities, use of the water
surface, and environmental protection actions.
PLAN OF USE
A Plan of Use has been established as a mechanism for coordinating the
ongoing regulatory programs of either state, and to account for and properly manage
cumulative changes in the estuary. The Plan of Use recommends that each state CZM
program adopt a comprehensive Plan of Use for the planning area which provides clear
delimitations between areas where specific activities may take place; such a plan
should establish marine commercial development zones, conservation areas and
low-intensity use areas. Such a plan will provide a basis for consistent application of
policies between states, and provide a mechanism for interstate reviews and federal
consistency. Within each management zone, specific objectives and initiatives should
be established according to the issues occurring there.
The Plan of Use is intended to provide an overall context for the application of existing
programs; it builds upon existing authorities, requirements and policies. All
recommendations contained within it are subject to site specific application and
regulatory requirements.
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TABLE OF CONTENTS
Executive Summary ................................................................................ i
Table of Contents ................................................................................... ix
Acknowledgments .................................................................................. xiii
Participating Committee Members ............................................................. xv
List of Figures ........................................................................................ xvii
List of Tables ......................................................................................... xix
CHAPTER 1: Introduction
Section 100 Findings of Fact .................................................................... 3
110. An Interstate Management Plan ................................................ 3
120. Issue Area Goals ..................................................................... 4
CHAPTER 11: Framework of Management
Section 210 Findings of Fact .................................................................... 9
210.1 Management Authorities ........................................................ 9
Section 220 Management Policies and Recommendations ............................. 11
220.1 Interstate Notice Procedures ................................................... 11
220.2 Interstate Memorandums of Agreements .................................. 12
220.3 Coordinated Review for Large Scale Projects ............................ 12
220.4 Pawcatuck River Bi-State Commission ..................................... 13
CHAPTER III: The Watershed Environment and Impacts to Water Quality
Section 310 Findings of Fact .................................................................... 17
310.1 Introduction .......................................................................... 17
310.2 Natural Features Affecting Water Quality ................................. 18
310.3 Land Use Along the Estuary .................................................... 20
310.4 Water Quality Status ............................................................. 24
310.5 Other Management Issues ...................................................... 41
Section 320 Management Regulations and Initiatives .................................... 47
320.1 Watershed Controls for Surface Water Runoff ........................... 47
320.2 Regional Wastewater Management ...................................... 51
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320.3 Controls for Managing Recreational Boat Sewage ...................... 55
320.4 Pilot Marina Non-Point Source Pollution
Management Program ........................................................ 58
320.5 Interstate Coordination on Discharge
Regulation and Water Ouality Management ........................... 60
320.6 Controls on Freshwater Withdrawals ....................................... 6 2
320.7 Future Initiatives .................................................................... 6 3
CHAPTER IV: Habitat Protection and Restoration
Section 410 Findings of Fact ..................................................................... 67
410.1 Introduction .......................................................................... 67
410.2 The Open Water and Aquatic Habitat ....................................... 67
410.3 The Wetlands Habitat ............................................................ 81
410.4 Upland Habitat ...................................................................... 88
410.5 Coastal Barrier Habitats ..................................................... 88
410.6 Buffer Zones ......................................................................... 91
410.7 Areas of Significance to Endangered,
Threatened, or Species of Special Concern ........................... 92
Section 420 Management Regulations and Initiatives .................................... 96
420.1 Protection of Critical Habitat Areas .......................................... 96
420.2 Acquisition and Protection of Wetland Complexes ...................... 98
420.3 Restoring Impaired Wildlife Habitat .......................................... 101
420.4 Land Use Management and Wildlife Habitat Protection ................ 108
420.5 Dredging Management ........................................................... 111
420.6 Future Research Needs ........................................................... 115
CHAPTER V: Recreational Uses
Section 5 10 Findings of Fact ..................................................................... 121
510.1 Introduction .......................................................................... 121
510.2 The Estuary as a Regional Recreational Resource ....................... 122
510.3 Low Intensity Recreational Uses .............................................. 122
510.4 Marina Development and In-Water Structures ............................ 1:24
510.5 Alternative Access to the Estuary ............................................ 141
510.6 Boating Safety, Enforcement, and.
Harbormaster Coordination ................................................. 147
510.7 Harbor Management Commissions ........................................... 150
510.8 Dredging .............................................................................. 153
510.9 Protecting Water Dependent Uses ........................................... 156
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Section 520 Management Regulations and Initiatives .................................... 157
520.1 Boat Launching Ramps ........................................................... 157
520.2 Moorings .............................................................................. 160
520.3 Harbor Management Commissions ........................................... 164
520.4 Harbormasters ...................................................................... 166
520.5 Protecting Water Dependent Uses ........................................... 170
520.6 Coordination of State Authorities ............................................. 172
520.7 Dredging .............................................................................. 176
520.8 Protection of Open Water Areas and Structures
Regulations ....................................................................... 178
CHAPTER VI: Public Access, Open Space and Protection of Scenic Value
Section 610 Findings of Fact ..................................................................... 181
610.1 Introduction .......................................................................... 181
610.2 Scenic Qualities ..................................................................... 182
Section 620 Management Regulations and Initiatives .................................... 182
620.1 Protecting and Increasing Access .......................................... 183
620.2 Utilizing the Shoreline Access Inventory ................................. 187
620.3 Protecting the Scenic Qualities of the Open Water ................... 187
CHAPTER VII: Plan of Use
Section 710 Findings of Fact ..................................................................... 191
710.1 Introduction .......................................................................... 191
720.1 Estuary Sectors, Objectives and Policies ................................... 191
REFERENCES ............................................................................................ 211
APPENDIX A: ........................................................................................... 219
APPENDIX B: ........................................................................................... 227
APPENDIX C: ........................................................................................... 231
APPENDIX D: ........................................................................................... 235
APPENDIX E: ............................................................................................ 241
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ACKNOWLEDGMENTS
This plan is the culmination of the efforts of many individuals who's concern
for the Pawcatuck River estuary and Little Narragansett Bay has persevered throughout
the Project's four year history. Without all of them, the Project would not have been
a success.
We would like to thank the members of the Project's Citizens Advisory
Committee, who gave generously of their time, energy, and thought in developing this
plan during their three year involvement in the Project. They demanded special
attention be given to the valuable resources of the estuary and backed up their
concerns with ideas and suggestions on how to successfully complete the Project.
Their participation throughout the Project's numerous meetings and planning process
contributed significantly to the final form of the plan.
Members of the Planning and Procedures Subcommittee of the Rhode Island
Coastal Resources Management Council also attended meetings, providing their
expertise in dealing with coastal resources management issues.
The staff of the Connecticut Department of Environmental Protection
particularly the staff at the Office of Long Island Sound Programs (formerly the Coastal
Resources Management Division) deserve considerable thanks for their expertise in
their review and comment on the various technical reports and drafts of this plan.
Particularly, our thanks to James Citak, Linda Gunn, Art Maguer, Peter Minta, Dan
Rothenberg, and Ron Rozsa.
Special thanks are also extended to the entire staff of the Rhode Island Coastal
Resources Management Council for their insights and comments to the technical
reports and drafts of the plan.
Also, thanks to the staff of the Rhode Island Department of Environmental
Management, particularly Jim Boyd, Lynn Carlson, Chris Deacutis, Art Ganz, Mark
Gibson, Joe Migliore, Elizabeth Scott and Dick Sisson for their continued review and
comments to the technical reports and draft of the plan. Thanks are also given to
Scott Millar of the Division of Planning for his comments.
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The planning staffs of Stonington and Westerly, both past and present,
provided invaluable assistance, guidance, expertise, and comment during the course
of the Project. Special thanks is given to Bob Birmingham and Pat Nickles of the Town
of Stonington, and James Walsh and Nancy Hess of the Town of Westerly for all their
help.
Also, Barry Cole, Councilmember of the Town of Westerly, is given considerable
thanks for his insight and dedication to the Project.
'Special consideration and appreciation is given to Joanne Moore of the Rhode
Island Coastal Resources Management Council for her diligence and dedication to
typing and retyping the drafts of the plan. Thank you very much for your patience.
Neil Christerson, graduate student at the University of Rhode Island provided
the Project with base maps of the estuary.
PHOTO CREDITS
Cover photo, RI CRMC; Chapters 1 and 7 Title pages, Jason Parker; Chapter 4 Title
page, Kay Howard-Strobel; All other Chapter Title pages, Alan Desbonnet.
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PARTICIPATING COMMITTEE MEMBERS
Pawcatuck Proaect Citizen's Advisory Committee
Robert Birmingham, Stonington Town Planner
Ben Carpenter, Stonington
Elizabeth Chapman, Westerly
Barry Cole, Westerly Town Council
Joseph Dawson, Jr., Westerly
Ellen Dodge. Wood-Pawcatuck Watershed Association
Mary Farmer, Stonington
Edward Field, Westerly
Samuel Grimes, Stonington
Bruce Guarino, Stonington
John Hall, Westerly
Nancy Hess, Westerly Town Planner
Dr. Arthur Hotchkiss, Westerly
Susan Moffett, Westerly
Edward Morenzoni, Westerly
Pat Nickles, Stonington Planning Department
Peter Orr, Stonington
Penny Parsekian, Stonington
John Swenarton, Stonington
Jay Trebisacci, Westerly
Fred Wagner, Stonington
Jim Walsh, Former Westerly Town Planner
William White, Westerly
William Wholean, Westerly
CRMC Planninq & Procedures Subcommittee
John Lyons, Chairman
Charles Ted Wright, Vice Chairman
George Sisson
Paul Hicks
Kathryn Owen
Michael Bernstein
Roger Medbury
Patrick Kirby
David Abedon
Grover J. Fugate, Executive Director
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LIST OF FIGURES
Figure Page
2-1 The Pawcatuck River Estuary and Little Narragansett Bay 10
3-1 The Pawcatuck River Watershed 19
3-2 The Wequetequock and Pawcatuck Estuarine Watershed Areas 21
3-3 Average Annual Daily Riverflow in the Pawcatuck River,
and Rainfall in the Watershed 1978 - 1989 22
3-4 Water Quality Classifications 27
3-5 Water Quality Classifications for each State According to
Actual Water Quality Conditions in the Estuary 29
3-6 Distribution of Dissolved Oxygen in the Pawcatuck
River Estuary during October 1989(a) and August 1 990(b) 30
3-7 Distribution of Nitrogen (a,b) phosphorus (c), and
chlorophyll a in Surface and Bottom Waters of the Pawcatuck
River Estuary and Little Narragansett Bay during August 1990 31
3-8 Distribution of Total Coliform Bacteria in Wequetequock Cove
during 1989(a). Distribution of Fecal Coliform Bacteria
in the Pawcatuck River Estuary and Little Narragansett Bay
during 1989(b) 34
3-9 Proportion of Nitrate, Nitrate and Nitrite, and
Ammonium Contributed to the Total Yearly Load Imposed
upon the Pawcatuck River Estuary and
Little Narragansett Bay during 1989 according to source 37
3-10 Proportion of Total Phosphorus and Phosphate Contributed to
the Total Yearly Load Imposed upon the Pawcatuck River Estuary
and Little Narragansett Bay during 1989 according to source 38
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3-11 Proportion of BOD Contributed to the Pawcautuck River
Estuary and Little Narragansett Bay during 1989
according to source 40
4-1 Environmental Subsystems of an Estuary 68
4-2 Cross Section of the Bay Ecosystem at Mid-bay 70
4-3 Pawcatuck Estuary Shellfish 77
4-4 Major Tidal, Fresh, and Brackish Wetland Complexes of the
Pawcatuck River Estuary and Little Narragansett Bay 82
4-5 The Pawcatuck Estuary: Roads Crossing Tributaries 87
4-6 Pawcatuck Estuary Rare Species 93
4-7 Pawcatuck River and Little Narragansett Bay
Boundary Demarcation for Dredge Windows 112
4-8 Migration and Spawning Times for Shellfish and
Finfish Species in the Pawcatuck Estuary 114
5-1 Recreational Boating Facilities 125
5-2 Growth in the Availability of Commercial Slips and Moorings 127
5-3 Existing and Potential Boat Launching Ramp Sites 159
5-4 Potential Mooring Field Locations 163
5-5 Recommended Speed Zones and No Wake Areas 169
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LIST OF TABLES
Table Page
3-1 Water Quality Classification in the Pawcatuck
River Estuary and Little Narragansett Bay:
Goals and Criteria 25
3-2 Water Quality Classification in the Pawcatuck River
Estuary and Little Narragansett Bay: Conditions
and Criteria 26
3-3 Average Annual Loading and Volume of Discharge (Point
Sources Only) for Pollution Sources with Input to the
Pawcatuck River Estuary and Little Narragansett Bay
during 1989 43
3-4 Percent of Total Loading for Each Source of Given
Pollutant 44
4-1 Finfish of the Pawcatuck River Estuary and Little
Narragansett Bay 73
4-2 Waterfowl Common to the Pawcatuck River and
Little Narragansett Bay 84
4-3 Upland Animals of the Pawcatuck Estuary 89
4-4 Rare Species of the Barn Island Wildlife Management
Area and Continental Marshes 95
5-1 Berthing Space in the Estuary 126
5-2 Growth of New Marina Facilities 128
5-3 Growth in Capacities of Recreation Boating
Facilities 1979 to 1989 129
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5-4 Inventory of Berthing Space Types by Area 131
5-5 Expansion Possibilities of Existing In-Water
Structures at Recreational Boating Facilities 134
5-6 Ratio of Parking Spaces to Total Berths at Marina
Facilities 136
5-7 Available Shorefront Footage Suitable for Future
Use at Marina Facilities 137
5-8 Buildout Analysis of Residential Docking Facilities 137
5-9 Distances of Structures from the Federal Channel 139
5-10 Average Daily Use of Boat Launching Ramps 143
5-11 Local Harbor Management Budgets: Stonington and
Westerly 151
5-12 Federal Navigation Channel Survey Conditions:
Pawcatuck River: 1971 - 1983 154
5-13 Estuary Policies for the Management of Recreational
Boating Facilities 174
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CHAPTERI:
INTRODUCTION
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100 INTRODUCTION
110. An Interstate Management Plan
A. The management of coastal areas and resources is a concept well established in
New England. The traditional stewardship of the citizenry has evolved into
comprehensive and sophisticated government programs on all levels, town, state and
federal. However, in a equally long lived tradition, management programs are based
upon and segregated among political jurisdictions. These artifices of government often
do not recognize the ecological inter-relationships between resources, geographic areas
and uses of coastal systems. The problem is particularly acute when the ecosystem
in question forms the boundary between two states, as do the Pawcatuck River
estuary and Little Narragansett Bay.
B. The development of an interstate management plan for the Pawcatuck River
estuary and Little Narragansett Bay grew from several sources. The first was the
ongoing concern for the estuary of local residents, which provided for constant
pressure on government agencies to assess the changes occurring within the area, and
to reconsider the adequacy of programs and policies in place to protect the resource.
Secondly, the surge of development in coastal New England in the 1 980's pushed
concerns about the impacts of this growth upon the estuary to the forefront of the
environmental agenda. Lastly, the impacts of a marina dredging project in 1987 on the
returning Atlantic salmon highlighted inadequacies in interstate coordination of such
projects, and the need for common policies governing the use of the estuary.
C. In the spring of 1989, efforts began to initiate an interstate planning project with
the aim of detailing management strategies through a plan tailored to the estuary.
Following a series of roundtable discussions sponsored by the Wood-Pawcatuck
Watershed Association, the Connecticut Department of Environmental Protection,
Coastal Resources Management Division (CTDEP, CRIVID, now the office of Long Island
Sound Program - OLISP) and the Rhode Island Coastal Resources Management Council
(RICRMC) successfully sought funding from the National Oceanic and Atmospheric
Administration, Office of Coastal Resource Management for the development of the
plan. The project had three overall goals:
1. To evaluate the current uses and status of resources within the estuary and
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to encourage establishment of a sustainable level and mix of uses consistent
with the paramount consideration of protection of the estuary's natural and
cultural resources;
2. To facilitate and establish consistent goals and policies between the states
and municipalities for the future management and development of the estuary
and its resources;
3. To develop formal coordinating mechanisms for the implementation of the
agreed upon goals and policies through future project reviews and programs.
D. At the initiation of the project a Citizen's Advisory Committee (CAC) was appointed
to assist the state agency personnel in the development of the plan. The CAC
developed an issues list to reflect public concerns about the estuary, and to help focus
the investigations which would provide the substantive basis for the management plan.
The issues identified were subsequently organized under five broad areas: Water
Quality; Habitat Protection and Restoration; Recreational Uses; Public Access, Open
Space and Protection of Scenic Value; and Coordination of Management Programs.
A comprehensive characterization of these subject areas was documented through
collation and summarization of available research, as well as new investigations
conducted by the project staff. This information is contained in a series of technical
reports which are supporting documents for this Plan. From these technical reports,
past and present problems were evaluated and goals, policies, management strategies
and other initiatives were developed concerning the use and protection of the estuary
which are contained within this plan.
120. Issue Area Goals
A. Water Quality
1 . To protect existing water quality, to prevent its degradation by existing and
new uses of the estuary, and to work to improve water quality by remediation
of existing pollution sources.
B. Habitat Protection and Restoration
1 . To protect aquatic and shoreline areas of significant value, and where
possible restore presently degraded areas of potentially significant resource
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values; such areas include viable shellfish areas, important migratory fish
pathways, spawning, nursery and feeding areas, and wintering and resting
areas for migratory birds.
2. To ensure that the policies and regulations of the states and municipalities
protect aquatic and shoreline areas and resources of significant value from
alterations, either in-water, along the shoreline, or inland which may adversely
impact those areas or resources;
3. To coordinate the policies and regulations of the states and municipalities
to provide maximum protection of living resources and critical habitat areas.
C. Recreational Uses
1. To maintain a balance among the diverse activities which coexist within the
estuary, allow for open water areas that provide scenic open space, low impact
uses such as small boat sailing and fishing, and undisturbed areas for wildlife,
and to accommodate the changing characteristics of traditional activities and
the development of new water-dependent uses in keeping with the principle of
preservation and restoration of ecological systems.
2. To ensure that marina development occurs in appropriate areas, and to
implement innovative solutions to increased demands for moorings, dockage
and storage space;
3. To ensure that the cumulative level of marina development within the
estuary does not degrade water quality, exceed the capacity of shoreside
facilities to support it, create unsafe levels of boating use or impact or degrade
the natural resources of the estuary, including its scenic beauty;
D. Public Access, Open Space and Protection and Enhancement of Scenic Value
1. To expand physical and visual public access to the estuary;
2. To preserve, protect and, where possible restore the scenic values of the
estuary by retaining the visual diversity and unique visual characteristics of the
water areas and shoreline; to safeguard from obstruction significant views of,
5
�
to and across the water from highways, scenic overlooks, public parks and
other vantage points enjoyed by the public; to protect the visual qualities of
open expanses of water.
E. Coordination of Management Programs
1. To integrate municipal land use policies with considerations for use and
protection of the estuary;
2. Evaluate inconsistencies between state and local programs, and between
state programs as regards the use, development and management of the
estuary and its resources and to establish common policies and restrictions oil
allowable uses, evaluation procedures, in-water restrictions and decision-making
processes between the management authorities;
3. To provide the most complete and accurate information base possible for
all levels of government and the public to use in management decisions and
activities affecting coastal resources.
6
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CHAPTERII:
FRAMEWORK OF MANAGEMENT
�
210 FINDINGS OF FACT
210.1 Managernent Authorities
A. The Pawcatuck River estuary, Little Narragansett Bay and their associated
watersheds lie within the political jurisdictions of two states, three towns and a
multitude of local, state and federal agencies. The Pawcatuck River basin extends
inland to include approximately one third of the land area of Rhode Island,
encompasses a large area in Connecticut, and is within the jurisdiction of seven
separate towns.
B. The Pawcatuck River estuary and Little Narragansett Bay also serve as the
interstate boundary between Connecticut and Rhode Island. There is currently no
interstate authority with jurisdiction over the area.
C. In addition to the divisions of authority based on jurisdiction, the management
programs within the different states are carried out through very different institutional
structures. While both states have established coastal management programs with
similar objectives and authorities, the Connecticut program is implemented primarily
through municipal authorities with the state regulating development below the high tide
line and in tidal wetlands, while the Rhode Island program has a larger emphasis on
state permitting of all activities along the shoreline.
D. The federal government also has a significant role in regulating activities such as
marina and dock development, channel dredging and maintenance, wetlands regulation
and habitat protection. These authorities are exercised primarily through the Army
Corps of Engineers, with interaction from the Environmental Protection Agency, the
US Fish and Wildlife Service and the National Marine Fisheries Service.
E. The procedures for review of projects within the estuary are often time consuming,
without effectively promoting coordination between the various reviewing agencies.
Conflicts are often found between the review concerns and requirements of each level
of government, and the process is often ineffective in transferring information or
assessments developed by one level to another. The permit review process usually
occurs in a sequential, independent manner. This reduces the opportunities for
integration of the diverse concerns of individual agencies and separate levels of
government. While the decisions reached in this manner may be legally valid, they
forego the opportunity to increase their effectiveness. The issue of coordinating
9
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Figure 2-1
Pawcatuck
THE PAWCATUCK RIVER ESTUARY
Westerly
AND
LITTLE NARRAGANSETT BAY
@16
Stanton Weir
Stonington Pawcatuck Roc
21
Greerih
aven
@z5 r
Avondale
Sandy Point
Little Narragansett Bay
Colonel Willie Cove
Watch Hill
Cove
Napatree Point
Watch Hill Point
N
0 Km 1 Km 2 Km
0 Miles 11 mile
Daic sources: RGS and CT DEP
Map design: WC
10
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regulatory reviews centers around several main areas: consistency of allowable
activities between levels of government, or states; differing requirements, standards
or review procedures; transfer of technical information; redundancy in requirements;
administrative problems engendered by multiple reviews.
F. The authorities and responsibilities of the municipalities and the state and federal
agencies are sufficient to effectively manage the Pawcatuck River estuary and Little
Narragansett Bay. The challenge lies in coordinating the individual actions of these
authorities towards implementing a consistent management policy. This interstate
management plan provides a policy and management framework around which to build
the needed coordination among the various authorities, private organizations and
individuals. During its development, the municipalities involved, state agencies, and
citizens of the estuary's watershed actively participated in the formulation of decisions
and recommendations embodied in the Plan. Its effective implementation can only be
assured by sincere adherence to the agreed upon objectives. Each of the involved
parties, the citizens and town councils of the municipalities, have unique and individual
roles to play within the implementation of the Plan. Each also bears unique
responsibility for its success.
220 MANAGEMENT POLICIES AND RECOMMENDATIONS
The following policies and recommendations are based on Section 210, Findings of
Fact, and the goal of promoting effective coordination between the management
authorities within the estuary.
220.1 Interstate Notice Procedures
A. The RICRMC, RIDEM and CTDEP should develop and adopt procedures for the
exchange of public notices concerning proposals and reviews under their respective
jurisdictions, as outlined in the relevant sections of this plan. Primary areas of concern
include applications under coastalmanagement review, discharge permits for municipal
and industrial discharges, modifications to river flows, reconstruction of the Route 1
bridge, applications for construction seaward of the high tide line or in tidal waters,
and dredging operations.
B. The States of Rhode Island and Connecticut and the Army Corps of Engineers
should exchange public notices on a# proposed activities within the estuary as a
11
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matter of standard practice. These notices should also be sent to any boards and
commissions suggested by the Towns of Stonington and Westerly, as welt as to the
Harbor Management Commissions.
220.2 Interstate Memorandums of A-areement
A. The Towns of Westerly and Stonington, and appropriate agencies of the States
should execute the Memorandum of Agreement concerning coordination of
harbormaster and boating safety enforcement, as recommended in Section 520.
B, The RIDEM, CTDEP and the Towns should develop and execute a Memorandum of
Agreement providing for notification of disinfection failures at the sewage treatment
plants or other events which may impact shellfishing operations within the Pawcatuck
River estuary or Little Narragansett Bay as recommended in Section 320.
C. The RICRMC and CTDEP should execute the Memorandum of Agreement
concerning establishing coordinated management procedures for dredging operations
within the estuary, and setting consistent "dredge windows", as recommended in
Section 420,
220.3 Coordinated Review for LpMe Scala "o cts
A. The RICRMC, CTDEP and the Towns should establish a coordinated reviewprocess
for large scale projects occurring within the estuary. The coordinated review
procedure should not alter existing authorities or change the legal basis or sequence
by which permits are issued. State agencies and municipal bodies will continue to be
constrained by their specific legislative authorities to act upon limited aspects of a
proposal, and applicants must continue to meet the requirements and criteria of each
permitting agency. The purpose of the cooperative procedure is:
1. To identify, evaluate and inform review agencies and applicants of all
potential significant impacts on the ecosystem at the beginning of the
permitting process,
2. To reduce possible conflicts between regulatory program requirements,
12
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3. To facilitate the review of proposals on the basis of shared expertise from
all affected agencies and boards, and to ensure that relevant concerns of all
agencies are addressed.
B. Activities to be reviewed under the Coordinated Review for Large Scale Projects
include but should not be limited to, the following:
1. All new marina construction or expansion of existing facilities beyond 25%
of their existing capacity as of July 1, 199 1;
2. A/I dredging operations and dredged materials disposal within the study
area;
3. New discharges to the Pa wca tuck River estuary and Little Narragansett Bay
requiring National Pollution Discharge Elimination System (NPDES) permits, or
equivalent permits under delegated state programs, the modification and-or
enlargement of existing discharges,
4. Residential developments of 6 units or more within the CSPR boundary or
RICRMCiurisdiction;commercialorothernonresidentialdevelopmentsinvolving
the disturbance of 1 acre or more of land,
5. All construction or reconstruction of bridges, railway lines or filled
causeways;
6. Modifications to river flow.
220.4 Pawcatuck River W-State Commission
A. The State of Rhode Island should take action to complement the Bi-State
Pawcatuck River Commission Act (CGS Section 25.160 - 25.164), in order to activate
this body. The two states and towns should discuss the extent of the Commission's
authorities and the procedures for its operations within the first year of the
Commission's existence (Appendix A).
13
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CHAPTER III:
THE WATERSHED ENVIRONMENT
AND IMPACTS TO WATER QUALITY
"Rim
�
310. FINDINGS OF FACT
310.1 Introduction
A. Water quality conditions of the Pawcatuck River estuary and Little Narragansett
Bay have improved recently. Improvement can be attributed to several events,
including the passage of the Federal Clean Water Act in 1972, the construction of
secondary sewage treatment facilities in Westerly and Pawcatuck, the decline of
industry along the river corridor, introduction of pretreatment programs for remaining
industrial discharges, better land use regulation and greater environmental awareness.
B. Unlike the Hudson River estuary, New Bedford Harbor, Boston Harbor and several
other New England estuaries, the Pawcatuck River estuary and Little Narragansett Bay
are not highly industrialized and therefore do not have comparable pollutant loadings
or extent of contamination. The river and bay are located among mostly rural uplands
and lightly industrialized towns, and the waters are generally used for recreation. The
Pawcatuck River's watershed drains mostly rural, forested and agricultural land, and
the river itself flows through historic mill villages.
C. At present, overall water quality in the estuary can be considered consistent with
state and federal standards, showing no pollutant concentrations considered harmful
to aquatic life. However, concentrations of fecal coliform bacteria, an indicator of
potential human health hazard, exceed criteria acceptable for shellfish harvesting in the
upper and lower Pawcatuck River estuary and Little Narragansett Bay. Sources of. the
fecal coliforms and other pollutants include the Pawcatuck River basin, the municipal
sewage treatment plants, shoreline septic systems, runoff and recreational boats.
Additionally, there is some indication that nutrient enrichment may be occurring in
Little Narragansett Bay, and that low dissolved oxygen concentrations occur at the
head of the estuary.
D. The high fecal coliform levels within parts of the estuary act to restrict its use for
direct contact recreation and shellfishing. Shellfishing is prohibited for direct human
consumption throughout the estuary and bay. The closures are due to concerns over
potential health hazards.
E. The estuary's relationship to the Pawcatuck River is an overriding significant
characteristic of the ecological system. The freshwater portion of the river drives the
functioning of the estuary, greatly influences flushing dynamics, range of saltwater
17
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encroachment up estuary, and overall loading and behavior of pollutants within the
estuary. Urban runoff is also a major contributor to the total load of pollutants entering
the estuary.
F. The water quality management programs of the States of Rhode Island and
Connecticut, while utilizing slightly different mechanisms, are generally consistent in
their assessment of the condition of the estuary, and management strategies for
controlling direct discharges. The programs are not, however, closely coordinated, or
undertaken cognizant of the bi-state nature of the estuary. Additionally, adequate
programs for controlling nonpoint sources of pollution do not generally exist.
310.2 Natural Features Affecting Water Quality
A. Watershed
1. The Pawcatuck River is the major source of freshwater to the estuary. The
Pawcatuck River watershed drains a land area of 486kM2 ;389kM2, in the state
of Rhode Island, 97kM2 in the state of Connecticut. (Figure 3-1) The watershed
drains one-third the state of Rhode Island, most of the encompassed land being
forested, rural, or suburban residential. Drainage of this vast watershed results
in a naturally tea colored river water, a product of tannins and hurnics from the
breakdown of leaves and other organics in the watershed.
2. The Pawcatuck River estuary and Little Narragansett Bay study area has
two sub-watersheds which contribute directly to the estuarine system; these
have been designated as the Pawcatuck estuarine watershed and the
Wequetequock watershed, named after their respective receiving waterbody
(Figure 3-2).
B. Physical Oceanography
1. The Pawcatuck River estuary is a highly stratified estuary, with a layer of
freshwater originating from the Pawcatuck River riding over a saline bottom
water layer which originates in Block and Fishers Island Sounds. The estuarine
portion of the river is 8 km long, and begins at the Stillmanville Avenue Bridge.
Little Narragansett Bay averages 2m in depth, covers 3.2kM2 , and is generally
a well mixed salt water bay.
18
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W GREENWICH
CT RI
@Eu E T
0 KIN ON
r SOUTH
AR ES Ow KING$TOWN
<
STONINiGTO
@,IWESTERLY
tj
IOU-
SO
SLAND
LOC
Study Area Watershed
SCALE 1 160,000 CT R
Kilometers
0 1 2 3 4 5 6 N
6 3 4
Miles
Data sources: PJGIS and CT DEP
JAN 91 WC
Figure 3-1 The Pawcatuck River Watershed Area of Detail
19
�
2. Freshwater discharge from the Pawcatuck River drives the flushing
dynamics, resi-dence time of pollutants, nutrients, and other suspended
particulates, and the range of saltwater encroachment up estuary. The
freshwater surface layer is flushed from the estuary every 1-3 days, while the
salty bottom water layer is flushed every 2-8 days (Doering, unpublished data).
The river is a consistent source of freshwater input to the estuary, which is
closely linked to the precipitation which falls in the watershed (Figure 3-3).
3. The large volume of freshwater entering the head of the estuary moves,
particulates and pollutants introduced by the river towards open ocean waters,
speeding the transport of pollutants out of the estuary. The time for pollutant
removal from the estuary is more rapid when freshwater input from the river is
large, and is reduced as river flow decreases.
310.3 Land Use Along The Estuary
A. Current Land Use Patterns
1. Although previously more industrialized, present land use along the estuary
is primarily residential. The upper reaches of the Pawcatuck estuarine
watershed are completely urbanized within the Towns of Westerly and the
Pawcatuck section of Stonington. The downtown section of Westerly is
generally developed for commercial-business use. The age of the development
raises concerns about inadequate or nonexistent treatment of urban runoff.
Many stormwater conveyances from the urban area of the watershed discharge
directly into the Pawcatuck River. The general density of development
decreases down estuary, ranging from high to moderate. Spans of open space
and undeveloped land exists upon both borders of the estuary, particularly
within the town of Stonington.
2. The Wequetequock Cove sub-watershed is more predominantly undeveloped
and extends into the Town of North Stonington. The land uses within this
watershed are of lower densities, and a substantial portion of the area is
retained in open space, primarily along the shoreline of Little Narragansett Bay,
and to the north of the State of Connecticut's Barn Island Wildlife Management
Area.
20
�
(17N
I@Clt -11"J"'o
IoO
r
N7
Pawcatuck
Estuarine
IV Watershed
Area
LITTLE
NARRACANSETT
BAY
13 bOC I LAN D SOLJ N
SCALE 1 44,000
FigUre 3-2. The Wequefequock and Powcatuck Estuarine Watershed 0 Km I Km 2 Km 3 Km
Areas, Draining to the Powcatuck River Estuary and 0 Miles I
Little Narragansett Bay. Data sources: RIGIS and CT DEP
JAN 91 NKC
�
3. Industry located along the banks of the estuary has generally declined over
time. Current plans by both towns are to revitalize the river and estuary
waterfront for multiple use of a recreational, commercial, and business nature.
However, a substantial portion of the waterfront within Westerly is zoned for
manufacturing.
4. Approximately 34% of the land in the Town of Stonington is in a developed
condition. In terms of the Pawcatuck-Wequetequock watershed, the developed
land figure is slightly larger, approximately 39-40%. Approximately 53% of
Westerly is developed, including areas outside the watershed of the Pawcatuck
River estuary.
180 -3000
170 -27SO
-2500
160
-2250
ISO
2000
E 140 -1750
130 -.1500
12SO
120
-1000
110 4f
-750
100
--0- Rainfall -500
90 From USGS Monitoring data, Westerly gauge 0 River Flow 250
US Weather Bureau, Kingston, RI
80 1 1 1 1 a I I I I I I , 0
1977 1978 1979 1980 1981 1982 1983 1984 1995 1986 1987 1988 1989 1990
Figure 3-3. Average annual daily river flow in the Pawcatuck River, and
rainfall in the watershed 1978-1989. The regression line is for river flow.
B. Roads and Highways
1. Roads and highways are an important land use when considering impacts
to surface water runoff. These paved areas, as well as parking lots, driveways,
and roofs are typically referred to as impervious material that allows almost all
I
precipitation to run off without percolating into the soil. This limits the natural
filtering process provided by soils, which act to reduce contaminants such as
road tars and oils, trace metals, nutrients, sediments, and petroleum fuels from
22
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stormwater runoff. In excess, these substances are harmful to the natural
estuarine environment.
2. The major highways traversing the estuarine region are Routes 1 and 1A.
Easy access to the Stonington-Westerly region is gained from 1-95 north of the
estuary. Secondary roads border both sides of the estuary, throughout its
length.
3. Bridges cross the estuary at Stillmanville Avenue and Route 1 , at the
Stonington-Westerly border. Bridge design does not impede water flow from
the river to the estuary. Filled crossings on secondary roads crossing many of
the minor coves and tributaries to the estuary do, however, cause reduced flow
and restricted tidal flushing, often with localized impacts to water quality. The
filled crossing for the railroad at Wequetequock is the largest and most
significant of these.
C. Public Utilities
1. Public sewer lines service both the towns of Westerly and Stonington. The
urban portion of Westerly is nearly 100% sewered, while the Avondale and
Watch Hill sections of town rely upon individual sewage disposal systems
(ISIDS). In Stonington, all the heavily developed regions are tied into the
municipal sewer system; those areas not tied into the sewer system are
sparsely developed and residences are widely scattered.
2. All regions serviced by public sewer systems in the towns of Stonington and
Westerly are also serviced by public water lines.
3. Those areas not serviced by public water systems run a risk of groundwater
contamination from bacteria, nutrients, toxins, metals, hydrocarbons, and road
salts. Those areas with high water tables are particularly at risk. The public
water system which services Westerly and the Pawcatuck region of Stonington
has been compromised on a number of occasions from petroleum contamination
resulting from leaking underground gasoline storage tanks. As long as
underground gasoline storage tanks are allowed in areas over the public water
supply aquifer, such as is presently allowed, the only water supply for these
areas remains at risk of contamination.
23
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D. Development Trends
1. Growth along the Pawcatuck River estuary has been greatest in the past 30
years, as a greater percentage of the population moves to rural and coastal
regions.
2. Industry has generally declined over the past 30 years, mainly due to
declines in textile manufacturing in the region. Industry still exists along the
estuary, but generally is limited. Both towns are presently attempting to attract
industry to the area, with "clean" industry as the primary target group for
future industrial development.
3. Zoning is the principle determinant of the type, density and intensity of land
use in the region. Both towns have established zoning districts, with residential
zoning a primary designation. The highest density development exists in the
urban center of Westerly and the Pawcatuck section of Stonington.
4. Growth within the commercial boating facilities, private docks, and overall
numbers of boats within the estuary has accompanied the increased
development within the towns.
310.4 Water Quality Status
A. State Classifications
1. The federal Water Quality Act of 1990 (formerly the Clean Water Act)
establishes certain chemical and biological parameters by which to measure the
health of the nation's waters, and to utilize in setting water quality
management goals and evaluating acceptability of proposed discharges. These
parameters, in turn, are utilized by the states to establish classifications for
different water bodies, reflecting a synthesis of assessments of present
conditions, appropriate use and goals; these being SA, SB and SC (Table 3-1
& 3 2). Different classifications are assigned to the various areas of the
Pawcatuck River estuary and Little Narragansett Bay (Figure 3-4).
2. Each state conducts a monitoring program within the estuary, primarily
associated with programs for certifying shellfishing areas. In accordance with
24
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Table 3-1. Water quality classification in the Pawcatuck River Estuary and Little Narragansett Bay.
Adopted from Conn. Dept. Env. Protection "Water Quality Standards" and RIDEM Div. Water
Resources "Water Quality Regualtions for Water Pollution Control".
Goals and Management Criteria
Connecticut Rhode Island
SA
Use as marine fish, shellfish, and wildlife habitat; Use as marine fish and wildlife habitat; shellfish
shellfish harvest for direct human consumption; recreation; harvest for direct human consumption; bathing and
navigation; no sludge deposits allowed; minor cooling and contact recreation; no sludge deposits allowed; no
clean water discharges allowed; no new inconsistent new inconsistent discharges allowed; non-contact
discharges allowed. cooling water discharges allowed.
SB
Use as marine fish, shellfish, and wildlife habitat; Use as marine fish and wildlife habitat; shellfish
recreation; industrial and other legitimate uses including for human consumption only after depuration;
navigation; shellfish harvest for relay and/or depuration; bathing and other primary contact recreation; no
sludge deposits from wastewater treatment facilities allowed; sludge deposits allowed; discharge to mixing zone
major cooling water and minor discharges from municipal not to exceed Class SC Criteria; non-contact
and industrial wastewater treatment allowed. discharges that do not exceed S13 criteria are allowed.
SC
Use as certain marine fish, shellfish, and wildlife Use as marine fish and wildlife habitat; boating and
habitat; recreational boating; industrial and other legitimate other secondary contact recreation; good aesthetic
uses including navigation; swimming; shellfish harvest for value; industrial cooling discharges allowed; sludge
extended depuration; sludge from wastewater treatment fromwastewater treatment facilities allowed; no
facilities allowed; no discharge allowed that would impair discharge that would further degrade water quality
receiving waters from attaining Class SB Criteria; one or more is allowed.
Class S13 Criteria or designated use is impaired (e.g., swimming).
�
Table 3-2. Water quality classification for the Pawcatuck River Estuary and Little Narragansett Bay.
Adopted from Conn. Dept. Env. Protection "Water Quality Standards" and RIDEM Div. Water
Resources "Water Quality Regualtions for Water Pollution Control".
Conditions and Criteria
SA Connecticut Rhode Island
Dissolved oxygen always greater than 6.0 ppm; total Dissolved oxygen always greater than 6.0 ppm; total
coliforms less than MPN 70/100 ml and not more than coliforms less than MPN of 70/100 ml and not more than
10% of samples to exceed 230/100 ml; fecal coliforms 10% of samples to exceed 330/100 ml; fecal coliforms less
less than MPN 14/100 ml and not more than 10% of than MPN of 15/100 ml and not more than 10% of samples
samples to exceed 43/100 ml. to exceed 50/100 ml.
SB
Dissolved oxygen always greater than 5.0 ppm; total Dissolved oxygen always greater than 5.0 ppm; total
coliforms less than MPN of 700/100 ml and not more coliforms less than MPN of 700/100 ml and not more than
than 10% of samples to exceed 2300/100 ml; fecal 10% of samples to exceed 2300/100 ml; fecal coliforms less
coliforms less than an MPN of 200/100 ml and not more than MPN of 50/100 ml and not more than 10% of samples
than 10% of samples to exceed 400/100 ml. to exceed 500/100 ml.
SC
Dissolved oxygen may be less than 5.0 ppm; total Dissolved oxygen greater than 5.0 ppm for at least 16 hours
coliforms may exceed Class SB total coliform. standards; of any 24 hour period and always greater than 4.0 ppm; total
fecal coliforms may exceed Class SB fecal coliform coliforms: "None in such concentrations that would impair any
standards. usages specifically assigned to this Class."; fecal coliform:
"None in such concentrations that would impair any usages
specifically assigned to this Class."
�
CO
NORTH
STONINGTON
oute
0 8nd S Station
9
Route I
Bridge
PAWCATUCK
WES ERLY
e
0 SD SC
Pa.ca cc
Barn
Wand SB SB
wj"
AVONDALE
es
-X@
<
NC,
Rhode$ Pt.
SOU
13 LOC LEGEND N
r7l SA WATERS
SB WATERS
SC WATERS
SCALE 1 44,000
0 Km 1 Km 2.Km 3 Km
27 1----
0 mils 1 2
Figure 3-4 Data sources: RIGIS and CT DEP
1@ a, W(-
�
national guidelines, bacterial contamination is assessed by concentrations of
coliform bacteria in the water. Since the early 1 970s state officials have used
the concentration of fecal coliform bacteria as an indicator of sewage
contamination when determining whether water is safe for drinking, shellfish
harvesting, and swimming. The monitoring programs therefore concentrate on
bacterial levels, and do not generally monitor other ecological parameters such
as dissolved oxygen although these are fundamental criteria in the water quality
classification scheme. Nutrients, another important input to coastal waters is
also not monitored.
3. The CTDEP and RIDEM consider the majority of the Pawcatuck River
estuary and Little Narragansett Bay out of compliance with the water quality
classifications and requisite standards established for it (Figure 3-5). This has
led to ongoing shellfishing closures within the estuary, and other restrictions on
use.
B. Present Water Quality Conditions
1. Dissolved oxygen levels, a primary indicator of water quality, are generally
within designated limits throughout the year within the estuary (Figure 3-6).
Observed conditions in the bottom waters of the upper estuary are a measure
of worst case conditions during August 1990, i.e. low water flow and high
temperatures. Such conditions exist over only a short period of time in late
summer. At no time in recent years has the Pawcatuck River estuary been
shown to be anoxic (lacking oxygen). Concentrations of dissolved oxygen
within the riverine portion of the estuary, as well as Little Narragansett Bay, are
therefore considered healthy and adequate to support a diverse assemblage of
marine plants and animals throughout the majority of the year (Desbonnet,
1991).
2. Concentrations of nutrients within the estuary generally decline down
estuary due to mixing, dilution, biological uptake and chemical precipitation.
Concentrations of nutrients were lower during August than May, 1990, a
common phenomena caused by the intensive use of nutrients in the water
column by aquatic plants throughout the estuary. The increases in nitrogen in
the late summer in the upper estuary may be a reflection of nutrient discharges
from the sewage treatment plants. The introduction of these discharges into
nutrient depleted summer waters of the estuary results in an increase in
28
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- - -----------------
N
NORTH
STONINGTON
00te 78
'P
00 Bridge S Station
Route I
Bridge
(zz b.
N
PAWCATUCK
WES ERLY
C SC
P..cakxk IR c
Born S
Wand SIC
W."
AVONDALE
-Irt
Rhodes Pt.
44
SOO
13 I'OC Is LEGEND
E] SA WATERS N
S8 WATERS
SC WATERS
SCALE 1 44,000
0 Km 1@m 2 Km 3 Km
i i
0 Mies 12
Data sources: RIGIS and CT DEP
JAN 91 wc
Figure 3-5 W a t e r 0 u a I i t y C I a s s 1 f i c a t 1 o n f o r E a c h S t a t e A c c a r d i n g
I o A c t u a I W o t e r 0 u a I i I y C a n d i t i a n s i n t h e E s t u a r y .
�
14
13 October 1989 (a)
12 Surface
11
10
9
8 Bottom 01@@
0 1z
7
C 6 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - SA
5 SB
4
3
2
1 Data from Banister, unpublished
0 1 1 1 1 1 1 - - I - I I
0 1 2 3 4 5 6 7 8 9 10
RteI CL@ Pawcatuck River
Bridge F- Rock Mouth
rA
River Km
14
13 August 1990
12
11
10
CL 9
8
Surface 0
7
6 - - - - - - - - - - - - - - - - - - - - - - SA
W3
5 ---------------- ------------- -- ---------------------- - ---------- ----------- SB
4
2 Bottom
Data from Banister and Desbonnet, unpublished
0
0 1 2 3 5 6 7 8 9 1@
Rt. 1 Pa@mtack RivCr
Bridge 0. 0. River Km
F- I-. Rok Mouth
V) V)
Figure 3-6. Distribution of dissolved oxygen in the Pawcatuck River Estuary during
October 1989 (a) and August 1990 (b).
30
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0.03 - 4
Nitrogen Surface Water (a)
-3
0.02
P
2
U
mi Chlorophyl a
Data from Banister and Desbormet, unpublished
0.00
0 1 2 3 1 1 8 9 10 11 1t2 0
0.020 - 4
Bottom Water (b)
-3
0.015 Nitrogen
2
C
U
0.010
Chlorophyl a Data from Banister and Desbormet, unpublished
0.005 . . I I i 0
0 1 2 3 5 6 7 8 9 10 11 12
&03
(C)
Bottom
0.02
0
06
0.01
r S ace
Data from Banister and Desbonnet, unpublished
0.00 1 -3
0 1 2 3 4 5 7 1 '0
Rte 1 Pawcatuck River Little
Bridge Rock River Km Mouth Narragansett
V) (4 Bay
Figure 3-7. Distribution of nitrogen (a,b), phosphorus (c), and chlorophyl a in
surface and bottom waters of the Pawcatuck River Estuary and Little
Narragansett Bay during August 1990.
31
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phytoplankton in the areas of the discharges, as evidenced by the increase in
chlorophyll concentrations (Figure 3-7).
3. A recent scientific survey of the Pawcatuck River did not find detectable
levels of most toxins, such as DDT, DDE or PCBs (Quinn et. al., 1987). Since
estuarine concentrations are likely to be a reflection of the riverine loading, it
is expected that levels in the estuary are below levels of concern, though no
sampling has taken place.
4. Toxicology testing for metals in clams taken from the Pawcatuck River have
shown all heavy metal concentrations to be within Food and Drug Admini-
stration (FDA) established acceptable limits (CTDEP, 1990; RIDEM, 1990).
5. Fecal coliform concentrations within the upper portion of the estuary are
consistently high, and above allowable standards from the head of the estuary
to a point 5 kilometers down estuary, after which concentrations decline rapidly
with distance towards the mouth of the estuary. Once within Little
Narragansett Bay, fecal coliform concentrations tend to remain low, and
generally stay below the criteria for shellfishing. However, sampling of these
levels by RIDEM has indicated wide variability with established FDA standards.
Long term non compliance with the standards has led to the recent permanent
closure of the area (Deacutis, PC 1991).
C. Comparison of Present Water Quality Conditions to Classification
1. The monitored water quality of the Pawcatuck River estuary and Little
Narragansett Bay has improved significantly. Water quality data collected by
the RIDEM indicate that bacteria concentrations have generally decreased over
the past decade. The most recent year for which data was available indicate
that, for the time period measured, levels were within the standards established
for the assigned water quality classifications (Figure 3-8). However, an
essential component of the water quality standards is the percentage of
samples which exceed the standards and an established statistical range
beyond the standard (Table 3-2). Both RIDEM and CTDEP have observed both
a greater incidence or level of variability in measured samples. Therefore, it
appears that while bacteria concentrations are often within, or close to the
standards associated with each classifications (SA, SB), sporadic unidentified
pollution sources continue to cause violations of the standards in terms of
32
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allowable variation of sampled levels. This variability results in the present
water quality conditions not being in conformance with the requirements of the
water quality standards, and therefore not in conformance with the assigned
classifications. Such variability violates established U.S. Food and Drug
Administration (FDA) standards under the National Shellfish Sanitation Program
(NSSP); compliance with these standards is necessary to allow the area to
remain open for active shellfishing.
D. Pollution Source Assessment
1. Bacterial Contamination
a. All of the Pawcatuck River estuary and Little Narragansett Bay have
been closed to shellfishing due to high coliform bacteria concentrations
since 1948 (1947 in RI waters). In 1989, the RIDEM opened a seasonal
shellfishing area in a portion of Little Narragansett Bay, however, recent
increases in observed bacteria levels have required the reestablishment
of the permanent closure. Connecticut allows commercial harvest of
shellfish in the estuary provided they are depurated in state certified
waters.
b. Water quality data collected by the RIDEM for the Pawcatuck River
estuary and Little Narragansett Bay show that bacteria concentrations
have generally decreased over the past decade, but that variability in the
collected samples has increased. Connecticut Department of
Aquaculture (CTDA) has similarly noted increased variability in bacteria
concentrations during recent years. The increased variability observed
in collected fecal coliform samples is a result of decreased
concentrations in recent years. Occasional high concentrations in
collected samples increases the observed variation from normally low
concentrations. Variability in collected samples have the potential to
close an area to shelifishing.
c. Figure 3-8 shows the distribution of fecal coliform bacteria con-
centration down estuary transects conducted by RIDEM during 1989.
Concentrations exceed acceptable limits in the upper Pawcatuck River
Estuary, decreasing down estuary, particularly south of Pawcatuck
Rock.
33
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(a)
Wequetequock Cove From CT AQ DIV, 1989
1750
1500 N Medianofl989Ebb`rideSarnples
Median of 1989 Flood Tide Sarnples
-:SA
MO
SB
1000
=Z
0 gL.
U 750
500
250
0
0.0 2.0 3.0 LNB HIS
Cove N of RR
Head Trestle
Km Down Cove
(b)
930
Pawcatuck River Estuary From RIDEM, 1989
& Little Narragansett Bay
400
x
r. 300 0 April 28
0 August 02
m September 05
SA (15 MPN)
SB (50 MPN)
200
100
---- ------------- I-I.-1--l-1111-1-1 ..... .
-------------
0 zNLLOdM-'NO . .-
0.82 2.56 3.29 4.34 5.21 5.94 6.58 7.82 9 10 11 12 13 99 14 is 16
Rte I Pawcatuck River Little Blk. Is. Kitchen Watch Hill
Bridge N N Harbor
Rock River Krn Mouth Narragansett Sound
Bay
Figure 3-8. Distribution of total coliform bacteria in Wequetequock Cove during
1989 (a). Distribution of fecal coliform bacteria in the Pawcatuck River Estuary and
Little Narragansett Bay during 1989 (b). Average annual fecal coliform concentration
in the Pawcatuck River was 350 MPN for 1989 (wet year), average is 100 MPN during
dry years. Average annual fecal coliform concentration discharged from the STPs was
12 MPN for 1989. MPN denotes most probable number.
34
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d. Bacteria sampling data collected by the Aquaculture Division of the
Connecticut Department of Agriculture show a similar trend of down
estuary decreasing concentrations, but concentrations on the flood tide
are greater than ebb tide, suggesting bacterial sources outside of the
cove, although the observations may be due to the restricted tidal
exchange within the cove.
e. Sources of bacterial contamination that exist within the estuary
include storm drains, septic systems, sewage treatment plants,
recreational boats, and fecal material from domestic animals and
wildlife. Sources outside the estuary include all of the above throughout
the Pawcatuck River basin.
f. ISDS are a well known source of fecal coliforms, particularly when
situated in poor soils, close to the water table, or when the systems fail
or are poorly maintained. The average life span of an ISDS is 10-15
years, during which time the soil becomes clogged and reduces the
efficiency of the system. An estimated 1,523 ISDSs exist within the
direct drainage area of the estuary and the bay. The potential for
bacterial contamination of estuarine waters from ISIDS input is most
probable from the coastal fringe areas such as Westerly, south of
Pawcatuck Rock, and the Wequetequock Cove shoreline, where soils are
highly permeable, a very shallow water table exists, and systems are
located close to the shore.
g. The Westerly and Pawcatuck Sewage Treatment Plants provide a
source of fecal coliform bacteria to the estuary. Both facilities,
however, generally produce concentrations of bacteria in the discharge
effluent that are well below their respective NPDES permitted values,
and have limited effect upon use impairment. Dye release studies
performed for each facility show that bacteria concentrations would be
reduced to acceptable levels for shellfishing by the time the effluent
stream reached Pawcatuck Point in the event of a raw sewage release
from either plant (FDA, 1984).
h. Recreational boats potentially provide approximately 4 percent of the
total fecal coliforms entering the estuary, and may account for restricted
use of the resource ( i.e., swimming, shellfishing) because of the
35
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potential for sewage contamination of nearby waters. Although exact
impact to receiving water from boat sewage discharge is difficult to
determine, the potential impact generally keeps popular mooring sites
and marinas closed to shellfishing; the impact of boat sewage
discharges is very localized and problems occur because of the physical
proximity of these different, incompatible uses within the estuary.
i. Domestic animals and wildlife as a source of bacterial contamination
in the estuary have not been investigated in detail in the estuary or
watershed. Elevated concentrations of fecal coliform bacteria in regions
of Little Narragansett Bay not proximal to any source of sewage input
during winter months suggests that waterfowl are significant sources
of fecal coliforms in the estuary and river. Studies by CTDEP suggest
that there may be agricultural sources within the Wequetequock Cove
watershed that contribute to observed levels of coliform bacteria.
j. Stormwater and urban runoff wash coliform bacteria from land into
the estuary. Measured bacteria concentrations generally exhibit a
dramatic increase in nearby waters following rainfall events.
2. Nutrient Loading
a. Nutrients in the estuarine environment, specifically nitrogen and
phosphorus, are similar in function to fertilizers used on land. They
promote the growth and development of plants, the basis of the food
chain. When excessive amounts of nutrients enter the estuary,
increased algal growth occurs creating surface scum on the water and
decreasing the amount of oxygen available to fish and shellfish. This, in
turn, increases the hydrogen sulfide level (toxic to most organisms at
high levels), decreases water clarity, and may change surface sediment
texture to a black organic ooze. This condition is often referred to as
eutrophication, meaning well-nourished, and implies natural and artificial
addition of nutrients to bodies of water and their effects.
b. The most extreme of the classic signs of nutrient enrichment and
eutrophication are not observed in the Pawcatuck River estuary and
Little Narragansett Bay (i.e., algae scums, fish kills). However, the
extensive fouling communities (algae growing on submerged aquatic
36
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Ammonium Loading
0 Pawcatuck River -23%
M WesterlySTP-45%
IM Pawcatuck STP -8%
[2 Wequetequock Runoff 7%
0 Pawcatuck Runoff - 17%
Nitrite + Nitrate Loading
9 Pawcatuck River - 76%
E2 Westerly STP 1.5 %
0 Pawcatuck STP 1.5 %
13 Wequetequock Runoff - 5%
0 Pawcatuck Runoff - 12%
M Block Island Sound - 4 %
..........
Nitrogen Loading (DIN)
M Pawcatuck River - 42%
E
Westerly STP - 9 %
a
-2%
M Pawcatuck STP
Wequetequock Runoff - 10%
El Pawcatuck Runoff - 24%
0 Pawcatuck Septic - 3%
0 Wequetequock Septics - 10%
Figure 3-9. Proportion of nitrogen, nitrate + nitrite, and ammonium contributed to the
total yearly load imposed upon the Pawcatuck River Estuary and Little Narragansett Bay
during 1989 according to source.
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Phosphate Loading
................... ......
....... ........
0 Pawcatuck River - 51 %
E) Wequetequock Runoff - 12%
. ...... El Pawcatuck Runoff - 27%
..... Block Island Sound - 10%
Phosphorus Loading
............
M Pawcatuck River - 35%
Westerly STP - 19%
Wequetequock Runoff - 13%
El Pawcatuck Runoff - 31%
EM Atmosphere - 2%
Figure 3-10. Proportion of total phosphorus and phosphate contributed to the total
yearly load imposed upon the Pawcatuck River Estuary and Little Narragansett Bay
during 1989 according to source.
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vegetation), such as those present in Little Narragansett Bay may be an
expression of nutrient enrichment. Light limitation in the upper reaches
of the estuary, due to the tea brown coloration of Pawcatuck River
water, may limit the abundance and growth of aquatic plants at the
head of the estuary. Limitation of nutrient uptake in the upper estuary
results in an abundance of nutrients becoming available to plants in Little
Narragansett Bay. Additionally, the load of nutrients from urban runoff
may create localized impacts and algal blooms within the many small,
poorly flushed embayments within the estuary and Wequetequock Cove.
c. The primary sources of nutrients to the estuary are the Pawcatuck
River watershed (via the Pawcatuck River), the sewage treatment
plants, ISDS, and urban runoff. The Pawcatuck River is a major provider
of nitrogen (58%) and phosphorus (35%) to the estuary. Urban runoff
from adjacent land draining directly to the estuary provides the second
greatest input of nitrogen (24%) and phosphorus (44%), exceeding the
combined input of nutrients to the estuary by the Westerly and
Pawcatuck STPs (Figures 3-9 & 3-10).
d. A large portion of the ISDS nutrient load to the estuary is due to the
number of unsewered houses in the region. However, those ISDS's
located along the coastal fringe south of Pawcatuck Rock and bordering
Wequetequock Cove are expected to contribute a larger percentage of
the loadings due to their being sited over poor ISDS soil conditions, high
water tables, and proximity to the shore.
3. Biolo-gical Oxygen Demand and Total Suspended Solids
a. Estuarine loading of BOD (Biological Oxygen Demanding Substances)
is dominated by the Pawcatuck River (56%). Urban runoff from the two
sub-watersheds adds a significant amount of BOD to the estuary (40%)
of the total load, more than the Westerly and Pawcatuck STPs
combined. (Figure 3-11) The BOD load contributed by urban runoff
may create some adverse impact on the smaller embayments within the
estuary.
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BOD Loading
III Pawcatuck River - 56%
ED Westerly STP - 4%
[21 Wequetequock Runoff - 12%
El Pawcatuck Runoff - 28%
Figure 3-11. Proportion of BOD contributed to the Pawcatuck River Estuary and Little
Narragansett Bay during 1989 according to source. The Pawcatuck STP contributes less
than 1 % of the total load.
4. Other Contaminants
a. Other pollutants which threaten or affect water quality include trace
metals, petroleum hydrocarbons, pesticides and herbicides, and various
chemicals. Very little study has been given to these pollutants within
the estuary and the bay. Studies completed in the Pawcatuck River
watershed however, suggest that concentrations of these pollutants in
the estuary are minimal and do not pose potential threats to human or
aquatic life (Quinn, et. al., 1987, Desbonnet, 1991).
b. On occasion illegal or accidental spills and discharges occur which
enter estuarine waters. The nature and extent of illegal or accidental
spills and discharges to the estuary will determine the potential for
damage to the resource.
c. Underground gasoline storage tanks located at gasoline stations
directly adjacent to the estuary pose a potential risk to groundwater
supplies, surface waters, aquatic organisms, and human life in the event
of leaking tanks that permit contamination with petroleum hydrocarbons.
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E. Summary
1. The large volume of freshwater discharge from the Pawcatuck River to the
estuary causes the river to serve as the provider of most of the pollutants. This
relationship places critical importance on the impacts and proper management
associated with land use, and modification of flow discharges within the upper
basin. Many of the pollutants discharged to the estuary show declining trends
over the past decade. However, concern still remains due to the existing
restrictions on uses due to fecal coliform concentrations, the potential for
degradation as development in the watershed proceeds, and the ecological
impact of other pollutants, especially nutrients.
2. Of the three point sources within the estuary, the Westerly STP provides
the majority of pollutants and nutrients, due to its predominant discharge. Due
to their small discharge volumes, the Pawcatuck STP and Yardney Technical
Products are relatively minor sources of pollution. All three generally meet their
discharge permit criteria, except during limited periods. The out of compliance
periods are generally short in duration and will have little long term effect or
impact.
3. Loadings from nonpoint sources are considerable, even in comparison to
those of the Pawcatuck River, and rival or exceed inputs from point sources.
Urban runoff provides significant loads of metals, BOD and nutrients to the
estuary. Nutrient and pollutant loading to the estuary from urban runoff may
have some eutrophic or toxic effects in Wequetequock Cove and other smaller,
less well flushed coves and bays of the estuary. The potential impact of urban
runoff can increase by 40% under possible future development scenarios
established under current zoning designations (Desbonnet, 1991).
Contributions of nutrients and metals to the estuary from runoff are greater
than those contributed by the two sewage treatment plants. Nutrient additions
to the estuary from septic systems is of similar concern, exceeding the
contributions of the treatment plants (Table 3-3; 3-4).
310.5 Other Management Issues
A. Withdrawal of Freshwater from the Pawcatuck River
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1. Freshwater withdrawals from the Pawcatuck River occur for agricultural
purposes throughout the Pawcatuck River watershed, predominantly in Rhode
Island. Withdrawals are presently unregulated by the RIDEM, and no maximum
levels for volumes withdrawn or review criteria have been established.
2. The impact of freshwater withdrawals in the Pawcatuck River watershed on
the estuary and bay are at present unknown, but have the potential to alter the
functioning of the estuary, particularly during times of drought, when
withdrawals are most likely to occur at peak volumes.
3. Potential impacts of freshwater withdrawals upon the estuary include
reduced vertical stratification of the watercolumn, increased salinity throughout
the estuary, an increase in residence time of pollutants in the estuary, and
alteration of the physical environment utilized by aquatic organisms.
4. At present, no management or monitoring structure exists by which to
assess the potential impact to the estuary of reduced freshwater input from the
Pawcatuck River. Any decisions or actions taken within the river watershed
with regard to water withdrawals or discharges into the river do not include
assessment of potential impact upon the estuary.
B. Sewage Treatment Plant Operations
1. The issues of management, treatment and disposal of wastewater within
the estuary's watershed, through both on-site disposal systems (OSIDS) and
sewering, are fundamental to addressing and remediating the current
impairment of water quality and long-range protection of ecological health.
2. The treatment plants will play an exceedingly important regional role in
septage disposal in the future. The pollutant loading data suggests that there
may be significant sources generating septage within the Pawcatuck River
basin, such as residential septic systems or inadequate treatment facilities,
which may have to be addressed to improve water quality within the estuary.
This issue becomes critical in light of the limited treatment capacity remaining
at the Westerly Plant. The issues of septic system maintenance and upgrading,
and septage disposal extend beyond the immediate planning area. A significant
proportion of the contribution of bacterial contamination to the impairment of
uses within the estuary originates in the upper watershed; a portion of this
42
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Table3-3. Average annual loading and volume of discharge (point sources only) for pollution sources with input to the
Pawcatuck River Estuary and Little Narragansett Bay during 1989. Fecal coliform values given are only for that area
north of Pawcatuck Rock.
Fecal Discharge
Coliform, Volume
Concentration (millions of
Source Pollutant Load (kgs/yr) Nutrient Load (kgs/yr) (MPN/100ml) liters/yr)
C11 Pb Ni Zn TSS BOD N N02 + NO, NH, P POI
Pawcatuck River 854.00 1383.00 675.00 6565.00 34326060 683280 239620 215314 24306 20148 15041 310 656893.000
Westerly STP 142.00 14.00 129.00 607.00 85106 51708 50285 3215 47070 10712 28 3246.000
-Ph Pawcatuck ST? 32.00 1.00 10.00 22.00 5627 4684 13329 4551 8778 16 512.000
CA)
Yardney Co. 1.50 0.15 2.60 4.00 52
Wequetequock 568.00 1139.00 145506 57060 14262 7416 7416 3422
Runoff
Pawcatack 1343.00 2691.00 343738 134797 33696 17519 17519 8083
Runoff
109
Rec. Boats
0.56 0.21 0.59 021 4536 1206
Atmosphere
10841 2891
131k. IsI. Sound
Wequetequock 18002
ISDS
Pawcatuck 54340
ISDS
�
Table 3-4. Percent of total loading for each source of a given pollutant. Percentages are calculated from loading values given in Table 20.
Source Pollutants Nutrients Discharge
Volume
Cu Pb Ni Zn TSS BOD N N02 + N03 NH, P PO,
Pawcatuck River 82.91 41.80 82.60 59.53 99.73 55.60 41.89 76.39 23.13 35.35 51.10 99.43
Westerly ST? 13.78 0.42 15.79 5.49 0.25 421 8.79 1.14 44.79 18.79 0.49
Pawcatuck STP 3.11 0.03 1.22 020 <0.01 0.38 2.33 1.61 8.35 0.08
Yardney Co. 0.15 <0.01 0.32 0.04 <0.01 <0.01
Wequetequock 17.16 10.34 11.84 9.98 5.06 7.06 13.01 11.62
Runoff
Pawcatuck 40.58 24.40 27.97 23.57 11.95 16.67 30.73 27.46
Runoff
Rec. Boats
0.05 <0.01 0.07 <0.01 0.79 2.12
Atmosphere
3.85 9.82
Blk. IsI. Sound
Wequetequock 3.15
ISDS
Pawcatuck 9.50
ISDS
�
may originate with failed or inadequate septic systems. Proper management
and remediation of on-site disposal system (OSDS) problems in the upper
watershed will require regional solutions to several aspects of the problem,
primarily septage disposal and establishing consistent programs for maintenance
and upgrading.
3. While detailed surveys and inventories are not available, there are several
areas within the planning areas where concentrations of ISDS failures are
probable; the areas potentially contribute significantly to the bacterial
contamination problems, as well as provide other pollutants of concern such as
nutrients. In these areas, such as Watch Hill, Avondale, Greenhaven, and along
Wequetequock Cove, the use or upgrading of on-site disposal systems (OSDS)
may not be feasible due to site constraints. In such instances, the extension
of sewers may be the only feasible approach to correcting the problems.
4. The extension of sewers to areas where there are concentrated, failed
septic systems, and site constraints preventing on-site upgrading is not
currently a policy within the watershed; there are currently no evaluations as
to where these areas are. The Town of Westerly does not have a sewer
avoidance policy, requiring the use of on-site disposal, where appropriate; the
Town of Stonington has developed such a policy and is currently considering
its adoption. This issue is especially critical in Westerly, given the limited
remaining capacity of the treatment plant.
5. The increased discharges from the STPs resulting from increased sewer
inputs and septage treatment must be evaluated for potential restrictions on
estuarine uses, both within the Pawcatuck River estuary and Little Narragansett
Bay. Evaluations of these impacts must also be coordinated on an interstate
basis.
C. Interstate Coordination of Discharge Permits
1. A lack of coordination between the states exists as regards reviewing and
issuing wastewater discharge permits. Each state considers the impacts of
new discharges only in regard to other discharges by that state, rather than on
an estuary-wide basis. The result is a lack of proper assessment of new
discharges relative to all discharges to the estuary, regardless of origin. This
45
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lack of coordination could result in an over-burdening of the estuary with
certain wastewater pollutants.
2. A lack of coordination between towns and states also exists with regard to
shellfish harvest in the estuary. No emergency notification system exists by
which to warn shellfishermen in the event of sewage treatment discharges
exceeding levels that may place human health at risk. This is especially
important given that Connecticut allows the harvesting of shellfish for
depuration within the estuary, and that there is currently an active aquaculture
operation.
3. Although permitting discharges to the estuary is presently uncoordinated
between states, NPIDES permit limits established for dischargers in each state
appear to be currently adequate in regulating individual point sources.
Coordination in permitting discharges will ensure that overall loading to the
estuary does not cause degradation of the resource and its uses.
D. Water Quality Monitoring and Assessment
1 . The instrearn water quality monitoring programs of the States of
Connecticut and Rhode Island are currently carried out in an independent and
uncoordinated manner; additionally, these are not coordinated with the USGS
monitoring program at the head of the estuary. Each of these agencies uses
different sampling methodologies, stations and times of sampling, making
comparison or consistent evaluation between data sets difficult. These
programs are also carried out independently of the self-monitoring programs by
permitted discharges.
2. Instrearn water quality monitoring programs carried out within the estuary
are focused on bacterial measurements, and are primarily carried out by the
shellfish management programs. These programs, despite being the only
ongoing monitoring programs within the estuary, do not assess other important
water quality parameters; such parameters provide for a clearer understanding
of environmental quality and changes.
46
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320. MANAGEMENT REGULATIONS AND INITIATIVES
The following regulations and initiatives are based on Section 3 10, Findings of Fact,
and the primary objective of protecting and restoring the water quality of the
Pawcatuck River estuary and Little Narragansett Bay.
320. 1 Watershed Controls for Surface Water Runoff
A. Stormwater Management
1. Definition. Stormwater management refers to a) for quantitative control, a
system of nonstructural and structural measures that control the increased
volume and rate of surface runoff caused by man-made changes to the land,
andb) for qualitative control, a system of nonstructural and structural measures
that reduce or eliminate pollutants that might otherwise be carried by surface
runoff.
2. Management Policies and Regulations
(a) The state and local go vernments should require proper storm water
management within areas under their jurisdiction, extending to the
watersheds defined within this plan when possible, to prevent the
degradation of surface water quality and downstream flooding resulting
from direct and cumulative impacts of development.
(b) It shall be the policy of the state and local governments to establish
consistent minimum standards for stormwater management to achieve
the objectives of water quality protection and flood control, utilizing
existing regulatory and development control procedures. At a
minimum, all developments subject to Coastal Site Plan Review within
the Town of Stonington and thejurisdiction of the Rhode Island Coastal
Resources Management Council (RICRMC) should be subject to these
requirements, with the following exceptions:
1) The development of one (1) new single-family residential lot
or structure, unless within 100 feet of tidal wetlands or other
coastal resources as subject to regulation under the laws of the
State of Connecticut and Rhode Island,
47
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2) Alterations to existing residential structures, except as those
might result in a significant increase in runoff from the site,
3) Maintenance activities, for the purposes of RICRMC review
these are activities as defined in Section 300.14 of the RI
Coastal Resources Management Program (CRMPI;
4) Roadway maintenance resurfacing projects, general roadway
maintenance, and emergency drainage repairprojects, except as
maybe subject to the requirements of Section 420,3 Restoration
of Critical Habitats.
(c) A# activities subject to this section should be required to
demonstrate compliance with the applicable standards for stormwater
management as set forth in the document "Minimum Technical
Standards and Specifications for Stormwater Management Measures"
(RICRMC, 1990 Draft) upon its adoption by the appropriate state and
local governments. Adherence to the Water Quality Base Standard and
the Flood Control Base Standard as defined within that document should
be required by the towns and states in their reviews.
(d) A# activities subject to this section should, in addition to adhering
to the technical standards as recommended in section (c) above:
1. First reduce the volume of runoff generated by minimizing the
extent of imperviousness and enhancing overland flow and
pre-concentration infiltration, and secondarily, treat or control the
off-site transport of runoff,
2. Maintain the natural hydrodynamic characteristics of the
watershed and tributary waterways;
3. Protect or improve the quality of surface and ground waters,
4. Protect groundwater levels and quality,
5. Protect the beneficial functioning of wetlands as areas for the
natural storage of flood waters, the chemical reduction and
48
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assimilation of pollutants, and wildlife and fisheries habitat,
6. Prevent increased flooding and damage that results from
improper location, construction, and design of structures;
7. Prevent or reverse salt water intrusion into groundwater
supplies,
8. Protect the natural fluctuating levels of salinity in estuarine
areas;
9. Minimize alteration to flora and fauna and adverse impacts to
fish and wildlife habitat,
(e) It is recommended that the municipal governments integrate these
standards on a watershedbasis through existing subdivision andzoning,
or other regulatory procedures, in addition to the CSPR and RICRMC
reviews. Initiatives should be taken to encourage the extension of these
policies and actions to North Stonington and other towns within the
watersheds.
(f) It is recommended that the Town of Westerly enter into a
Memorandum of Agreement for subdivision reviews with the RICRMC
to provide for an integrated and coordinated regulatory review between
local and state levels of government, in accordance with the RICRMCs
established program.
B. Remedial Stormwater Management Activities
1. Definition. Remedial stormwater management activities are those actions
taken to address a situation where no stormwater management, as defined in
Section 320.2.A presently exists.
2. Management Policies and Regulations
(a) The state and local governments should require retrofitting and
upgrading of existing stormwater outfalls, redevelopment sites or other
appropriate activities in order to remediate or mitigate existing problems.
49
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These efforts should use the bestpracticable technologies or approaches
as dictated by the site conditions present, in accordance with the
requirements of Section 420.3. In these instances, consideration may
be given to waiving compliance with inappropriate standards outlined in
Section 320. 1.A.2. However, a# reasonable steps should be taken to
provide the greatest or most effective degree of treatment possible,
minimize the environmental impacts and use conflicts created by the
activity, and maintain compliance with the objectives of Section
320. 1.A.2.d. The reviewing agencies should also require that the
applicant demonstrate that there is no reasonable alternative means or
location for those aspects of the proposal which must vary from the
standards.
C. Comprehensive Stormwater Management Plan
1. The states and the towns should undertake a cooperative program to
upgrade existing direct discharges of stormwater which do not employ
appropriate treatment techniques and are discharging into the Pawcatuck River
estuary and Little Narragansett Bay and its tributaries, This may be achieved
inpart through regulatory actions concerning ongoingprojects as recommended
by Section 420.3 Restoring Impaired Wildlife Habitat. As a first step, the
states and towns should identify andprioritize existing discharges, identify and
prioritize non-stormwater related inputs (dry weather discharges) and actively
seek funding sources for planning, design and upgrading. The established
priorities should be integrated into appropriate plans of development and
facilities plans on the town level, andpubfic works projects on the state level.
The RICRMC and OLISP should act as coordinators for actions on the state and
federal level. Oversight for the project should be undertaken by the Bi-State
Pawcatuck River Commission.
2. Additionally, there is a need to conduct further study on the impacts and
mitigation of stormwater inputs. Investigations should include:
a. Analysis of stormwater composition beyond that of just bacteria
levels, including the assessment of present concentrations forpollutants
of concern and mass loading balances for the estuary,
b. Quantification of the total volume of runoff which enters the estuary
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and bay,
c. Development of technical and mitigative techniques for stormwater
management within urban environments, andidentification of innovative
funding sources to encourage development and implementation;
d. Effects of subsurface discharges of stormwater on groundwater
levels and quality, and integration of this information into standards
governing the siting of these facilities.
e. The feasibility of regional stormwater management.
320.2 &gLonal Wastewater Managemen
A. Correcting Failed On-Site Disposal Systems
1. The Towns of Stonington and Westerly should undertake an inventory of
on-site disposal systems in unsewered areas.
a. Failed, substandard (not conforming to current standards) orproblem
systems (sporadic failures, inconsistent functioning) should be identified
by plat and lot. Site inspections of afl problem systems should be
undertaken to assess rehabilitation needs and estimate the potential for
on-site retrofits.
b. Field data gathered in the site inspections should identify:
1) general condition of systems and signs of system
malfunction,
2) evidence of undersizing,
3) lot configuration,
4) soils data;
5) availability of replacement area, including evaluation of
setbacks and separation distances,
6) relationship to other nearby systems;
7) general potential for use of alternative system
(from Myers, 199 1).
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c. The towns should coordinate these efforts and agree to consistent
content for the inventories.
d. Priority areas. to be addressed include: Watch Hill, Avondale,
Greenhaven, and along Wequetequock Cove.
2. On the basis of the preceding evaluation, the towns should identify which
wastewater management options should be pursued in specific coastal
locations. A combination of OSDS, clustered or centralized systems or sewers
may be required to address the need for new systems and upgrade efficiently.
3. The recommended inventory and evaluation should be funded and
undertaken as part of the Facilities Planning process.
4. Each town should establish a priority scheduling of specific areas that
require sewer service, with priority consideration given to areas with
concentrated failed OSDS where replacement or upgrading has been found
infeasible. Priority should also be given to areas where OSDS are located over
so# conditions considered unsuitable for use of OSDS. The CTDEP and RIDEM
should require that these policies be adhered to in their review and approval of
any revised or updated facilities plans.
5. Each town should develop a strategy for the phased replacement of
individual failed systems.
6. All applications for significant improvements or renovations to existing
structures before the Town of Stonington and Westerly should be required to
establish that the septic system serving the dwelling or commercial operation
complies with current standards and requirements.
B. Sewer Avoidance Policy
1. Each town should adopt a policy restricting extension of sewers to areas or
properties capable of supporting the use of on-site disposal systems in an
environmentally safe manner, consistent with current standards. Such areas
should be identified on a town-wide basis.
2. Zoning designations with each town should be adjusted to establish
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minimum lot sizes consistent with the use of OSDS in the areas identified in (1)
above.
C. Septage Management and Disposal
1. The Town of Westerly should institute a Wastewater Management District
(WWMD) within the unsewered portions of the study area. The Town of
Stonington should utilize the Rhode Island model WWMD to institute a
comparable program.
2. The towns should establish the treatment of septage generated by
mandatory pumping of OSDS as a priority as regards the allocation of treatment
capacity at the STPs. Septage generated at marine pumpout facilities should
be included within the scope of this policy. Implementation of this policy
shouldinclude ensuring proper acceptance and treatment technologyis inplace
at the STPs.
3. The treatment and disposal of septage should be addressed on a regional
basis. A special task force should be established to evaluate regional
arrangements for insuring adequate treatment of additional septage created by
the initiatives in (A) and (B) above, necessary regional or interstate initiatives
and other relevant issues. Towns without treatment plants within the
Pawcatuck River basin should be included in these discussions.
4. The towns, in conjunction with the State Nonpoint Source Pollution
Management Programs, should develop programs to educate local residents
about the use and maintenance of on-site septic systems,
D. Expansion of Treatment Plant Discharges
1. Any expansion of discharges from the STPs as a result of the above
recommendations should be treated at a level sufficient to prevent the
expansion of currently established discharge zones.
E Septic System Maintenance
1. Until such time as the areas prioritized for extension of sewer lines are
serviced by these lines, and in all areas not prioritized for sewer service within
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the planning area, the towns should undertake a program to support the regular
maintenance of septic systems. The septic system maintenance program
should include, as a minimum, the following:
(a) Septic systems should be inspected and pumped every 3 years;
(b) Various funding sources for a maintenance program should be
identified, including service charges and the establishment of utility
districts (WWMD);
(c) Septic systems pumpers should be responsible for reporting to the
office designated by each town those septic tanks not able to be
pumped, or requiring pumping more than 3 times per year,
(d) As an incentive to eliminate chronic septic system problems and to
protect future homeowners, information pertaining to failed septic
systems or violations of state OSDS regulations should be recorded on
property deeds until such time as they are corrected;
2. Through the use of regular maintenance, or pumping, the life span of a
septic system, its effectiveness in treating waste, and protection of
groundwater can be increased. Homeowners should be educated on how their
wastes are being treated, the importance of regular pumping and what
preventative measures can be applied to alleviate future problems. Suggested
measures include:
(a) Water conservation practices,
(b) Discouragement of garbage disposals;
(c) Avoidance of disposal of greases and oils into household drains,
Id) Proper disposal of chemical wastes (paints, thinners, alcohol, acids,
drain cleaners);
(e) Separate drainfield for washing machine discharges,
M Prohibition of use of chemical OSDS "rejuvenators";
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(g) Planning for alternate sites in the event of primary site failure;
(h) Resting part of the leachfield system periodica#y through design or
installation of alternate beds,
3. A# applications for significant improvements, renovations or conversions to
existing structures before the Town of Stonington or Westerly should be
required to establish that the septic system serving the dwelling or commercial
operation complies with current standards and requirements.
32 0. 3 Con trols for Mana"n Recrea donal Boa t Se wage
A. Regional Boat Sewage Management Program
1. Direct discharges of sewage wastes from recreational boats within the
estuary have the potential to create significant impacts to water quality and
impairment of uses. The proximity of shellfishing, contact recreation and
important natural habitats indicates a need to institute stronger protection
measures regarding the discharge of boat sewage. Through a comprehensive,
regional program to manage boat sewage, these impacts may be prevented.
The program should be developed by a bi-state committee including RICRMC,
CTDEP, RIDEM, the towns and the Bi-State Pawcatuck River Commission, and
incorporated into the respective Harbor Management Plans for Stonington,
Pawcatuck and Westerly.
2. Management Policies and Regulations
(a) The overboard discharges of afl sewage wastes from recreational
boa ts, trea ted or untrea ted, should be prohibited within the Pa wca tuck
River estuary and Little Narragansett Bay. This prohibition should be
incorporated into the Harbor Management Plans and Ordinances of the
towns, and fines established for violations. Enforcement powers
extending to levying fines for overboard discharges should be authorized
for harbormaster and police patrols. Marina operators and dockmasters
should be considered for such authorization for violations within their
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facilities. The OLISP and RICRMC should seek the designation of Little
Narragansett Bay and the Pawcatuck River estuary as a "No Discharge
Zone" by the US Environmental Protection Agency.
(b) The Harbor Management Commissions of both towns, in coopera-
tion with area marina operators, should develop educationalmaterials on
boat sewage management and support its distribution to boaters.
(c) The CTDEP and RIDEM should require, through the state water
quality regulations, the installation of marine sewage pumpout facilities
at priority sites throughout the estuary. This requirement should be
implemented when significant expansions or modifications are made to
the identified facilities. The CTDEP and RIDEM should also enforce
existing permit requirements pertaining to pumpout facilities, where
these exist. Concurrently, possible nonregulatory approaches to
developing the facfflties should be pursued. The priority sites are:
1. Norwest Marine
2. Westerly Yacht Club
3. Avondale Boatyard
4. Watch Hill Yacht Club
(d) The CTDEP and RIDEM should require that marine sewage pumpout
facilities developed at these sites be required to be available for use by
the general public, appropriate fees for use should be allowed. Where
possible, these facilities should be tied into municipal sewers lines.
Cooperative arrangements between marina operators to provide service
to their patrons should be encouraged. These agreements should be
established on a regional basis.
(e) A "port-a-potty" dump station should be established by CTDEP at
the Barn Island boat ramp, a program supporting the use of a "pump-out
barge" should be developed for use in the Watch Hill, Napatree Point
and Sandy Point areas.
(f) The Towns, working with the appropriate state agencies, should
develop and implement a program to ensure proper and appropriate
sanitary waste disposal at all private recreational boating facilities, and
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where feasible at town facilities and launching ramps. As part of this
program, the following elements should be included:
1. The CTDEP and RIDEM should develop a standardized
program detailing the requirements for treating recreational
vessel wastes at municipal sewage treatment plants, including
facNties development requirements, effluent quality restrictions,
predicted volumes and impact on treatment plant operations,
septage management andpretreatment requirements. Thestates
should further ensure that current regulations allow for the actual
implementation of the identified requirements, and make
appropriate revisions where necessary,
2. The Towns should review, and where necessary, revise their
respective zoning ordinances and other authorities related to
development control and health and safety to require the
provision of proper sanitation disposal facilities at all new of
expanded recreational boating facilities, marinas and waterfront
developments as appropriate, all marinas having live-aboard
residents should be required to establish that proper measures
have been taken to tie these vessels into a disposal system. The
Towns should ensure that these authorities allow for the actual
implementation of the identified requirements, and make
appropriate revisions where necessary. Future facility planning
for the Sewage Treatment Plants shouldprovide for direct marina
tie-ins where possible, and for septage acceptance from marinas.
3. The States, through the Nonpoint Source Pollution
Management Programs or other appropriate sources, should
make funding and technical assistance available to the Towns to
facilitate the implementation of this program. Each Town Harbor
Management Commission should undertake pursuing such
funding and coordinating the implementation of the program,
(g) Marina operators should develop language within their slip rental
agreements thatprohibits overboard discharges, andmakesita violation
enforceable by loss of slip privileges.
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(h) The houseboats moored off Napatree Point during the summer
should be moved to marinas, as required by Rhode Island law. The
Westerly Harbor Master should enforce this.
320.4 Pilot Marina Non-,point Source Pollution Mana-gement Pragra
A. Marina Plans of Operations
1. There exists a need within the planning area to address nonpoint sources
of pollution arising from everyday operations at marina facilities. These
operations pose a range of potential water quality problems. Efforts to
encourage the use of Best Management Practices through specific Plans of
Operations is a direct way of promoting awareness of the problem and on the
ground solutions outside of the regulatory process. These plans should be
developed in all marinas operating within the Pawcatuck River estuary, Little
Narragansett Bay and Wequetequock Cove, with technical and financial
assistance from the state agencies of Connecticut (Connecticut is developing
marina BMPs), and Rhode Island, as available, and be consistent with federal
initia tives.
2. Management Policies and Recommendations
(a) The States of Rhode Island and Connecticut should cooperate in the
development of a voluntary program to demonstrate and encourage the
use of Best Management Practices in marina operations within the
estuary.
1. The states and local governments should establish consistent
minimum standards for marina operations regarding the control
of nonpoint source pollution through marina operations;
2. A Marina Operation and Maintenance Plan guidance
document should be prepared which identifies appropriate Best
Management Practices for a range of operations and marina
sizes. The guidance document should include, at a minimum:
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a. Descriptions of practices for spffl prevention and
mitigation;
b. Collection and treatment of bilge and bottom washing
wa ters;
c. Practices for disposal of waste petroleum products,
d. Controls on routine maintenance practices.
(b) Marina operators should be encouraged to develop a Marina
Operational Plan which conforms to the elements of a common,
estuary-wide program, based on the guidance above. Suchplansshould
address, at a minimum, the following:
1. Methods to manage storm water runoff and eliminate sources
of pollution to rainfall runoff,
2. Methods for the minimization of the accumulation and storage
of maintenance wastes; all methods used for material storage
and handling should be examined;
3. Descriptions of methods to be used to protect the
environment during regular boating maintenance operations;
4. Plans of action for emergencies including fuel and oil spills,
sewage spills, fire and severe weather. This should include
procedures for evacuation in emergencies and securing of boats,
(c) A# boaters at the marina should get a copy of marina regulations
regarding the above.
(d) Completed plans should be posted at a prominent location at the
marina;
(e) Rules and regulations applying to boaters should be included in the
plan and should include the following:
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1. Rules for boat maintenance activities.
2. Restrictions on five-aboards.
3. Restrictions on overboard sewage discharge, rules on use of
Marine Sanitation Devices (MSDs) and pumpouts.
4. Explanations of boater responsibility for spills, clean up costs,
and reporting requirements.
5. Procedures for fueling up.
6. Procedures for the disposal of oils, removal of oil from bilges
and removal of garbage.
7. Emergency procedures for fuel and sewage spills, fire, and
severe weather.
8. Procedures for fire prevention and protection.
9. Swimming restrictions.
10. Boat wake speeds.
11. Penalties for violations.
320.5. Interstate Coordination on Dischange Re-auladon and Water Qualit
Mana-gemen
A. A formal process for exchange of information pertaining to discharges to the
estuary on an interstate level needs to be established, permitting decisions, monitoring
and water quality assessments are all currently conducted independently. Additionally,
since the estuary is a shared resource, there should be a mechanism for regional
discussion on decisions to allow new discharges and other issues affecting water
quality. Finally, a common data base, available to a# should be developed in order to
better evaluate the potential impacts of new discharges, and to track total loadings to
the estuary over time.
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B. The water quality classification system utifizedby the two states needs to be made
consistent in its goals and objectives in the northern portion of the estuary. Currently,
the CTDEP classifies the area as SO, while RIDEM classifies it as SC. Given the
relatively recent water quality improvements, the classification in Rhode Island should
be adjusted to preserve these improvements, and better reflect the objectives of this
plan to provide for a maximum level of multiple use within the estuary.
1. Management Policies and Regulations
(a) It should be the policy of the state and local governments to
formally notify all concerned government bodies and agencies, private
parties and the general public within the watershed of actions relating
to pollution discharges, permit issuance and renewal and other
regulatory activities through established public notice procedures.
(b) It should be the policy of the state and local governments to
routinely exchange monitoring reports, water quality evaluations and
otherpertinent information concerning the status of the water quality of
the Pawcatuck River estuary and Little Narragansett Bay. Additionally,
the CTDEP and RIDEM should coordinate their monitoring and sampling
programs to the greatest degree possible, including coordination with
USGS.
(c) Allproposed actions relating to pollutant discharges, including land
use decisions within the estuarine watershed, should be referred to the
Bi-State Pawcatuck River Commission, when established, for review and
comment in addition to those referral agencies already required by
statute.
(d) The RIDEM should reclassify that sector of the Pawcatuck River
estuary currently SC as SB.
(e) The town of Westerly, the RIDEM, the CTDEP and the Stonington
Water Pollution Control Authority should develop a procedure and
agreement to provide notification in the event of a disinfection failure at
either STP, in order to provide additional public health protection during
the harvest of shellfish from the Pawcatuck River estuary for relay.
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320.6 Controls on Freshwater Withdrawals
A. Relationship to the Management and Protection of the Estuary
1. The alteration of the freshwater flow of the Pawcatuck River to the
estuarine portions of the system and Little Narragansett Bay has the potential
to alter the chemical, physical and biological properties of the estuary. Further,
such alterations may interfere with its functions as wildlife habitat, recreational
resource, and impair efforts at pollution control and abatement. As such, it is
the finding of the RICRMC and CTDEP that alterations and activities which may
significantly change the timing and volumes of fresh water entering coastal
waters have a reasonable probability of conflicting with establishedplans and
programs for the management of coastal resources within the region, may
make the area unsuitable for uses and activities to which it is allocated, and
may significantly damage the environment of the coastal region.
2. Management Policies and Regulations
(a) A# activities or alterations inland of the coastal zone which may
significantly change the timing andlor volumes of freshwater entering
coastal waters should be reviewed for their impact to the Pawcatuck
River estuary and Little Narragansett Bay. Thresholds for activities
requiring such review should be established as part of the policy
recommended under (c);
(b) The states should reciprocally provide notice and an opportunity to
comment on Oproposedalterations or activities which maysignificantly
alter the volume andlor timing of freshwater inputs to the Pawcatuck
River estuary and Little Narragansett Bay. This policy should be
implemented through a Memorandum of Agreement between CTDEP,
RIDEM, and RICRMC.
(c) The states should cooperate in the development of an appropriate
policy and approach governing the withdrawal of water from the entire
(fresh and estuarine) system for agricultural, industrial, and other
purposes, it is recommended that the RIDEM make this a priority item.
The policy should establish a regulatory program requiring permits for
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withdrawals, and establish maximum levels of withdrawals for
commercial and industrial uses, as well as agricultural uses:
320.7 Future Initiatives
A. The states and towns recognize that further research and work need to be
undertaken to help protect the Pawcatuck River estuary and Little Narragansett Bay,
As funding andlor opportunity for new initiatives becomes available, priorities should
include the following:
1. A determination of the overall extent andpersistence of bottom waters low
in dissovIed oxygen content should be made in the estuary, particularly in the
region north of Pawcatuck Rock. Investigations should be conducted
cooperatively between state agencies, or by a citizen's monitoring group that
is working cooperatively with the state agencies. The investigations of low
oxygen bottom waters should be directed at determining what impact these
conditions have upon benthic organisms, as wen as upon migratory fishes, and
should attempt to identify anthropogenic sources that influence dissolved
oxygen content of bottom waters.
2. The status of nutrient levels and loadings, and their current and future
impacts to the estuary needs further investigation. These investigations should
focus on determining if the present availabfflty of nutrients in the estuary is
responsible for the fouling growth noted on the eelgrass of Little Narragansett
Bay, and if changes in the viability of the aquatic habitat is occurring as a result
of present nutrient levels,
3. Fecal cofiform bacteria exceeds levels acceptable to the plan's
recommended SB classification revision. RIDEM and CTDEP should initiate a
program to identify sources of this bacterial contamination and rectify this
situation.
4. A complete and thorough survey of visible discharge pipes throughout the
entire estuary should be undertaken by state agencies or citizen monitoring
groups that are coordinating efforts with the state agencies. Thesurveyshould
note wet and dry weather discharges, and their locations on maps. A task
force of state personnel, town officials, and private citizens should be
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assembled to monitor and sample identified discharge pipes, modeled upon
other successful citizen's monitoring programs. The monitoring and sampling
results should be used to focus follow-up enforcement actions by the
appropriate government agencies.
5. A dynamic model of the Pawcatuck River Estuary and Little Narragansett
Bay should be developed to determine the effect of freshwater flow into the
head of the estuary on flushing time, circulation patterns, distribution and
residence time of particulates and pollutants, and changes in salinity
distributions within the estuary and bay. The model should also be used to
assist in the determination of a minimum flow of water from the Pawcatuck
River that is required to maintain the flushing and circulation dynamics of the
estuary.
6. The relationship between fecal coliform and fecal streptoccoci bacteria
concentrations should be further explored to determine its usefulness in the
identification of contaminant sources (ie. animal or human), particularly in
determining the contribution of waterfowl to the fecal coliform contamination
measured in the estuary.
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CHAPTERIV:
HABITAT PROTECTION
AND RESTORATION
�
410. FINDINGS OF FACT
410.1 Introduction
A. The Pawcatuck River estuary and Little Narragansett Bay contain a wide diversity
of natural habitats critical to the survival of many different species. Many of these
areas are of outstanding quality on a national, regional and statewide basis. These
habitats support commercially important fisheries, rare and endangered species, as well
as provide the foundation for the estuarine ecosystem.
B. A complex series of interrelationships within the estuary exists among the various
habitat types and components, creating unique conditions and characteristics which
define their quality. These habitats include the open water and aquatic habitats,
wetland systems and the upland areas adjacent to the estuary. Each is linked and
interdependent, forming the basis for a highly productive and diverse wildlife
population, and a unique natural resource. Additionally, the estuary serves as the
gateway to the freshwater portion of the Pawcatuck River watershed, a regional
resource in itself.
C. Each of the various critical habitat areas has experienced degradation and impacts
from manmade alterations and uses, however, these areas remain ones of outstanding
quality.
410.2 The Ot)en Water and Aguatic Habitat
A. Description
1. Various types of aquatic habitats can be found within several environmental
subsystems of the Pawcatuck Estuary. These environments range from a high
energy, marine system near the mouth, to sheltered cove systems found in
isolated branches of the estuary (after McConnaughey, 1985) (Figure 4-1).
Each habitat supports a different community where species have adapted to
that environment; the diversity of the system gives rise to many different plant
and animal assemblages and the overall quality of many of the habitat types.
2. Specific environmental conditions are the primary factors controlling the
distribution of ecological communities found in estuaries. These conditions
67
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Figure 4-1
CM
_was
. .............
..............
.......... ..... .
............ ........... ... .......
.. ... ..... ...........
.... ..... ..........
.. ....... ......
........ ...... ............ .
............
.................
.............
. ..............
............... . .....
..........
00 k, TocokL tlAP--*., . . . . . . . . . . . . . . .
7r
Poo.:
AQUATIC@ na-@
q
q:
SPOT
�
include substrate availability, temperature variations, salinity regimes, tidal
regime, landform, sedimentation and vegetation type (Cortright et. al, 1987)
(Figure 4-2).
3. Within the Pawcatuck River estuary and Little Narragansett Bay, some
species show a positive correlation to salinity; the salinity tolerances of some
organisms establishes their location within the various environments of the
estuary (Gibson, personal comment, 1990). Some species which have wide
salinity tolerances are found in a wider range of the aquatic system, while
others may be restricted from ranging in the upper or lower salinity levels. The
Pawcatuck River estuary displays a distinct stratification of density betweenthe
freshwaterand saltwater elements; the lighter freshwater originating inthe river
flows seaward over the heavier sea water which moves in the opposite
direction during tidal surges. This stratification is sometimes so pronounced
that a phenomenon called a "salt wedge" exists, where very little mixing occurs
between the two layers.
4. Several features contribute to the richness of the estuary by trapping and
recycling nutrients, including fine sediment particles carried to the estuary from
the river which offer surface area for the absorption of nutrients, and the salt
wedge feature which helps trap nutrients.
5. Sampling of the Pawcatuck River Estuary and Little Narragansett Bay over
the last 20 years has revealed a diversity of aquatic vegetation, benthic flora
and fauna, as well as free floating plankton. The high productivity of the
estuary is reflected in the abundance and diversity of vertebrate and
invertebrate populations (Demos, 1986).
B. The Subtidal Community
1. One of the more important aquatic habitats within the estuary is that which
supports the subtidal community. Abundant nutrients coming from the
Pawcatuck River, combined with shallow waters and warmer temperatures,
make the lower estuary rich in phytoplankton and submerged aquatic vegetation
(SAV) production. Because of these valuable food sources, the shallows of the
estuary provide homes for juvenile fish and many crustaceans well as shelter
from predators.
69
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~0
Figure 4-2
A
~1~@~'~ ~T~.. ~'~-~q'~4
A
~0
~F~_ ~C~C~-~V~P~A~qw~qm-~.~?~,~wph~,p~n~4 ~t~+ ~r~-~q@~qJ~@ ~-
~F~: ~4qM~, a ~S~o~k~-~s~b~e~l~qw~c~L~a~m
~w~t~, -A~l~qy~a~e ~6~r ~7e`~qi~b~@~am p-k~_~,~_~I~a~q@
~@~f ~qM~-~A~c~o~m~a - ~b-~t ~n~o~u~-~J ~c~i~a a
L ~r~A~a~,~-~-
~-~T~ ~T M
~_~T ~(~I~f~o~ql~e~b~'~a ~- ~C~1 ~5~6~4q"~P N
~qy
~a~qc.
~6~qr~/~-~q@a- ~5~qa~t~5~h~,~1~1~e~O dam
~4 ~0qf~0qf ~C~'~a ~b
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~q/~q*~M~qL~0q"~qP~@~w~s -show ~c~a I~D
~r
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~H
M ~q/~q*6~r~)~-~O~*.~K~0qA~S~- ~-~-~w~r~i~e~l~i~A
~~ ~7
~L
Cross Section of the Bay Ecosystem at Mid-Bay (view sou~qt~q@~q)
Left. The shallow edge of the estuary is sub- winter high tides~*and is distributed as nutrient hastened erosion, adde
merged for only a short time at high tide. Woody debris to the estuarine food web. and contributed to ~rapi
debris and recently eroded sandstone rocks pro- Middle: Across the broad tide flats, ee~qlgrass the last century.
vides habitat for algae, barnacles, worms, and meadows provide sheltered habitat and act as a Right: Continuously sub
amphipods. At high tide, crabs and scu~qlpins nursery for a variety of fish, crabs, and other crea- ne~qls of the estuary are c
~q(focally called bu~ql~qlheads) scavenge in the jumble tures. Its rhizomes are buried in the mud and so of marine life to enter an
of rocks and sticks. At low tide, large algae like stabilize sediments and prevent erosion. float near the surface wh
Fucus (seaweeds) lie limp on the mud and rocks Ee~qlgrass grows rapidly in sunlight, fixes nutrients the more saline waters
to be grazed by small invertebrates. from mud and water, and generates detritus channels, salmon and s
Above the water, marshes ring the edges of which releases nutrients to the food web as it through the estuary to th
sloughs, bays and rivers where the soil is wet at decays. Ee~qlgrass growth is adversely affected b~qy The dendritic pattern o
least part of the year. Plants which have evolved a turbidity. portion of the mud flat
tolerance for saltwater advantage of the varying Flats are the result of thousands of years of sedim fringing salt marshes.
degrees of salinity nearer or farther from the men~tary deposit onto the bottom of the estuary. channels is influenced b
marine-dominated waters. These salt marshes As rivers and streams reach spa ~l~pv~p~l ~thpv ~ln.~@~@~p in ~thpm Th~p ~lnw~pf the
are particularly productive. The combination of energy necessary to retain their load of sand, meander. These dynam
sunlight and saline waters yields a rich crop of clay and organic debris. Logging and road build- limited primary habitat
marsh grass that dies in the fall, is harvested by ing in the watershed during modern times between river and ocean
�
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2. Submerged aquatic vegetation forms an integral and critical component of
the subtidal ecosystem. Among its more important functions are high organic
productivity, reducing current velocities, promoting sedimentation and binding
bottom sediments, providing a nursery and refuge for fishes, acting as a food
source for fish and waterfowl and as a residence for invertebrates; eelgrass
beds (Zostera marina), found extensively in Little Narragansett Bay, are
recognized as being of outstanding quality and importance as a food source for
numerous waterfowl species. They are critical habitat for Brant's geese (Branta
canadensis), which are abundant in the bay during migration (Merola, personal
comment, 1989).
3. A diversity of aquatic vegetation, benthic flora and fauna, as well as free
floating organisms (plankton) and other biota inhabit the project area. A bottom
study conducted in 1972 of the small bay (locally called the "Kitchen") area off
Napatree Point indicated the presence of five macrofloral species: Zostera
marina, Ulva lactuca, Laminaria saccharina, Codiurn fragile, and Dulse (White,
1972). Alfieri (1975) studied the growth of attached biota to two artificial
reefs placed in Little Narragansett Bay off the west shore of Napatree Point in
1972 and 1973. Five species of macroaigae became permanent residents on
an automobile tire reef, with Polysiphonia the dominant species. In addition to
macroalgae, a number of invertebrates colonized the reef and three species of
fish commonly associated with the reef. A study undertaken in 1982 of
Fisher's Island Sound presented a sample of the macrobenthic community
found in the waters off Sandy Point (Pellegrino and Hubbard, 1983). The study
showed a moderate diversity of species as part of an ecosystem typical of
those found in areas of continual sand movements (Whitlatch, 1982). Other
organisms included crustaceans, starfish, sea squirts and various barnacles. A
dense population of polychaetes, or marine worms (Scoloplos fragilis), as well
as soft shell clam juveniles (Mya arenaria), were found to inhabit an extensive
mud flat area at the northwestern end of the point.
4. Bottom invertebrates are an important food source for white-winged, surf
and common scoters, goldeneye and bufflehead ducks. Fish-eating birds such
as merganser, grebes, loon and cormorant are common. The bay is an
important feeding area for osprey.
71
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C. Finfish
1. The Pawcatuck River estuary and Little Narragansett Bay support a
substantial population of finfish sought by recreational and commercial
fishermen. A wide diversity and abundance of finfish reside, reproduce, or
migrate through the estuary as well as use it for juvenile growth and feeding
(Sisson, 1987).
2. Fifty two species of finfish from 33 families of marine, freshwater,
anadromous and catadromous fish have been documented as using the
Pawcatuck River estuary at some point in their life history; also documented
have been the larvae of fourteen families and eighteen species of fish (Sisson,
1987). While it is believed that some of these larvae were likely washed down
river by water flow, it is probable that many of these species spawn in the
estuary (Sisson, 1990) (Table 4-1).
3. Winter flounder, one of the most important recreational and commercial
species in Rhode Island and Connecticut, spawn in the estuary. Little
Narragansett Bay and the Pawcatuck Estuary are considered critical to its
survival. Their numbers have gradually decreased since 1980 and are now
severely depleted, to a point where they cannot support a productive fishery.
This is believed to be due mostly to overfishing climatic variations, and
somewhat to habitat degradation. Flounder prefer inlets and coves of the
estuary, in shelf or shoal type areas where the river is wider and slower, and
where sandy silty bottoms can be found; young-of-the-year prefer such
shallow, silty areas. All inlet fingers are believed to support populations of
flounder (Gibson, 1990).
4. Striped bass, an important commercial and recreational fishery along the
Atlantic coast, are often found in the estuary. This species has been over
exploited, and are now recovering due to a massive, coast-wide effort,
including moratoriums on harvest to reduce fishing mortality. During the spring
months, tremendous numbers of school bass follow bait fish, and especially
anadromous fish such as river herring, into the Pawcatuck River estuary.
During the summer and fall, large numbers of bass may be found at Napatree
Point and the offshore reefs. This species overwinters in coves of the estuary
(Sposato, 1989).
72
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~0
Table 4-1~ FINFISH OF THE PAWCATUCK ESTUARY & LITTLE NARRAGANSETT BAY
Spec i es Location spawns resides winters migrates transient
American Shad fresh/brackish* ~x ~x A ~x
~q(A~qtosa sapid~qiss~qima~q)
Alewife fresh* ~x ~x A ~x
~q(A~Losa ~oseudoharengus)
B~qlueback herring fresh* ~x ~x A ~x
~q(A~qtosa aest~qiva~qt~qis~q)
Atlantic Menhaden mar~ine/bay**,* ~x ~x
(Brevoortia tyrannus)
Atlantic herring mar~qine/b~ay* ~x ~x ~x 0
(C~qlu~pea harensus)
Atlantic Cod bay* ~x ~x 0
(Gadus morhua)
Atlantic tomcod fresh/brackish ~x ~x ~x 0
~q(~Microgadus tomcod)
Pollock bay 0 ~x
~q(Po~ql~qlachius virens~q)
Mumm~qichog marsh/brackish* ~x ~x ~x
(Fundu~qlus hetero~c~qLitus)
Atlantic si~qLverside marsh/estuarine**,* ~x ~x ~x
~q(Menidia men~qidia~q)
Fourspine st~qick~qLeback marine/brackish ~x ~x ~x
(Ape~qttes ~qu~adracus)
Threespine stick~qLeback marine/brackish ~x ~x ~x
(Gasterosteus acu~qleatus)
Northern pipefish marsh/brackish* ~x ~x
(S~yn~gnathus fuscus)
Striped Bass marine/fresh ~x ~x A ~x
(~Morone saxati~qtis)
White Perch brack~qish/fresh** ~x ~x A
(Morone americana)
Yellow Perch brackish/fresh ~x ~x
(Per~ca f~qiavescens)
Bluefish m~arine/bay** ~x 0 ~x
(Poma~tomus sa~qttatrix~q)
Tautog marine/bay ~x ~x 0
(Tautoga onitis~q)
Cunner marine/bay ~x ~x ~x
(Tautoga~qtabrus ~ads~versus~q)
Rock Gunnel intert~qi~qda~qt* ~x 0
(Pho~qtis gur~r~oe~qt~qtus~q)
Sand lance intertidat* ~x ~x 0
(A~qn~qV~qiDd~qytes so.)
Butterfish mar~0qine/bay* ~qx 0
(Pe~qpritus tr~4qi~qscanthus)
Grubby estuarine* ~qx ~qx ~qx
(Myoxoce~qvha~4qlu~qs aenaeu~qs)
Windowpane bay ~qx ~qx ~qx 0
(Sco~qchtha~4qtmus a~4qm~0qmus)
Ye~0qL~0qLowtai~0qL flounder m~qar~0qine/bay* 0 ~qx
(Limanda ferrugine~qa~4q)
Winter f~0qto~qt~qa r m~qarine/bay*,** ~qx ~qx ~qx 0
~8q(Pseudo~qp~8qteuronectes americ nus)
Spiny do~qgfish marine/bay ~qx
~8q(S~qaua~4qtus acan~0qlhias~8q)
73
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~0
FINFISH OF THE PAWCATUCK ESTUARY & LITTLE NARRAGANSETT BAY (con't)
Spec ~qi es Location spawns resides winters migrates transient
Little skate marine/bay ~x ~x ~x 0
~q(Ra~qia erinacea~q)
American ee~qt fresh/marine ~x ~x ~C
(An~auit~qta rostrata)
Atlantic Salmon fresh/marine A ~x
~q(sa~qtmo satar)
Brook trout fresh/mari~r~q* ~x
(Satve~linu~s fontina~qlis~q)
Rainbow sme~qtt fresh/marine ~x ~x ~x A
(Osmerus mordax)
Sheepshe~ad minnow ~x
~q(~C~y~pri~nodo variegatus~q)
Naked goby * ~x ~x ~x ~x
(Gobiosoma bosci)
Striped ki~ql~qL~qifish ~x ~x ~x
(Fundu~qlus ma~qlatis)
Waxen si~qLverside ~x ~x
(~Men~qidia ~6qL~mr~y~qttina)
Hardtai~qt ~x ~x
(Caranx ch~r~ysos)
Squeteague ~x ~x
(Cynosci rega~ql~qis)
Striped mullet ~x
~q(~qf~qf~qu~qj~2qu ~C~4q9~q2~qh~a~qt~u~s~q)
Northern searobin ~x 0
(Prionotus caro~qtinus)
Summer flounder ~x 0
(Paratichthys u dentatus~q)
Hogchoker ~x ~X ~x
(Trinectes macu~qt~atus)
Hickory shad* ~x
~q(A~qtosa mediocris~q)
Bay anchovy* ~x ~x 0
(Anchoa m~qi~qlchitti)
Gizzard shad ~x
Stack crappi~e ~q(Pomoxis ni~gromacu~qtatus~q) ~x
Btuegi~qt~qt ~2qQe~pom~qis m~acrochirus) ~x
Pumpkinseed ~q(Le~pom~qis gibbosus) ~x
Redbreast sunfish ~q(Le~yomis auritus~q) ~x
Golden shir~ter ~q(~Notemi~gonus cryso~qteucas~q) ~x
White sucker (Ca~tost~omus commerson~i~q) ~x
grown bu~qtthead ~q(~ictaturus nebutosus~q) ~x
Chain pickerel ~8q(Esox ~8qn~6qj~04qo~8qr) ~qx
Largemouth bass (~0qM~8qicro~qoterus sa~4qtmoides~8q) ~qx
Redfin pickerel ~8q(Esox americanus amer~4qicanus) ~qx
Brown trout ~8q(Satmo trutta) ~qx ~qx A ~qx
Migrations may be A) an~qadromous, C) cat~qedro~qmous, or 0) off shore- onshore (a species marked 0 which also
winters in the area moves inshore in winter and offshore in summer, otherwise, movement is offshore in winter
and inshore in summer). "Resides" - if any species spawns within a system then some life stage of that
species resides in that system unt~4qi~4qt if and when it migrates. "Anadr~qomous~q" - by definition, means ascending
rivers to spawn. Here we mean that the species will ascend the estuarine portion of the river.
*larvae found in the estuary; **one of most commonly occurring species
74
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5. White perch, a significant estuarine commercial species along the Atlantic
coast, are present in good numbers, although yellow perch are no longer as
common. This is presumably because more preferable habitat upstream has
been made available by the opening of fish passageways in dams throughout
the freshwater portion of the watershed (Gibson, 1990).
6. Both wild and stocked populations of brook trout exist within the
Pawcatuck watershed. Mastuxet Brook, the only major tributary on the eastern
shore of the Pawcatuck River Estuary, is believed to support a wild population.
While all streams probably have some trout populations, few streams in Rhode
Island are believed to have the right temperature gradient for good brook trout
populations (Gibson, 1990). Wild stocks of fish are extremely valuable, as they
are vital to maintaining strong and diverse genetic pools; there are a decreasing
number of wild stocks in existence.
7. Anadromous fisheries such as smelt, alewives, shad, and salmon have been
species of concern since the early 1 970s, and efforts towards their restoration
in the estuary have been conducted on an ongoing basis by the Rhode Island
Department of Environmental Management, Division of Fish and Wildlife. The
restoration projects were initiated by the passage of the Anadromous Fish Act,
in 1965. Since that time, anadromous alewife and American shad have been
restored to the river, and small returns of adult Atlantic salmon have been
achieved.
8. The Pawcatuck River is one of only three smelt runs existing in Connecticut
and is one of only a few rivers in Rhode Island where a population is known to
occur (Visel, 1989). Smelt are considered a rare species in Rhode Island, and
have recently been significantly less abundant than in past years; lack of habitat
is believed to be a major contributing problem. In the Pawcatuck River estuary,
the prime spawning grounds are limited to a very small area around the Route
1 bridge and south about one quarter mile (Sisson, 1990).
9. Bluefish, an important recreational species, can be found in large numbers
in the Pawcatuck River estuary in the spring in response to the movement of
bait fish into this area. In the summer and fall, bluefish occur in the river and
at Napatree Points and offshore reefs.
75
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D. Shellfish
1. The Pawcatuck River estuary is believed to have one of the most extensive
oyster beds (Crassostrea virginica) in Rhode Island as well as in Connecticut
(Visel, 1989). Good populations of quahogs (Mercenaria mercenaria), surf
clams (Svisula solidissima) and mussels (Mytilus edulus) also exist (Ganz, 1989)
(Figure 4-3). Historically, there has been good scallop (Agroijecten irradians)
population near Barn Island. There was a small but locally popular recreational
scallop shellfishery. Unlike hard clams or soft clams, scallops maybe harvested
for direct human consumption in the waters of Little Narragansett Bay because
only the muscle of the scallop is eaten. In recent years the scallop population
has gone nearly to zero. The cause is not known. Since 1985 the Stonington
Shellfish Commission has been conducting a scallop seeding program. It
purchases seed scallops, grows them out in nets suspended from a raft in
Stonington harbor and places the animals on the bottom in the late fall. The
size of the program ranges from 20,000 to 80,000 scallops, depending on
budgetary constraints. The intent of the program is not to seed scallops for
later harvest, but rather to maintain a breeding stock that could reproduce
should environmental conditions improve. Thus far, the success has been
modest. There is evidence that some of the seeded scallops are surviving and
that there is a small natural set, but the recreational shellfishery has not yet
returned. The Stonington Shellfish Commission maintains the seeding area as
a special shellfish management area.
2. The main issue affecting the harvest of shellfish is water quality. Shellfish
are filter feeders and will concentrate any contaminants found in the water
column. These include bacteria, viruses and metals. Data show that there is
a probable link between boating activity and coliform levels, as well as from
terrestrial runoff and sewage treatment plants (Desbonnet, 1991). Possible
pollution impact sources of site specific shellfish growing areas within the
Pawcatuck are wastewater treatment facilities, storm drain discharges,
industrial processing, recreational boats, marinas, and other non-point pollution
sources, such as failed septic systems and urban runoff.
3. Rhode Island's portion of Little Narragansett Bay was closed to shellfishing
in 1947 and the closure was extended by Connecticut in 1948 to include the
remainder of the bay (Gaines, 1982). Direct consumption of shellfish from the
76
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Figure 4-3
1@c
/j/
lic HC/EO
1.C WC/Ec
HC ED
SC
%C,
HC ED HC ED
SURF CLAMS
HC
SC HC ED
ED
ED
M
KEY
HC - HARD CLAM/QUAHOG (Mercengria Mercenaria)
ED EASTERN OYSTER (Crassostrea Virginica)
11 MUSSEL (Mytitus Edulus)
sc STEAMER/SOFT CLAM (@ya Arenaria)
SURF CLAM (Spisuta Solidissi m)
PAWCATUCK ESTUARY
SHELLFISH
,0 Km I Km 2 Km
0 Miles. I Mile
Data sources: RIGIS and CT DEP
Map design: WC
�
Pawcatuck River estuary-Little Narragansett Bay waters has not been permitted
since because of the high level of fecal coliform bacteria (Citak, 1989).
4. Since the construction of the Stonington sewage treatment plant in 1976,
and the Pawcatuck plant in 1980, the transplanting of shellfish to clean waters
(called relaying), has been allowed due to improvements in water quality
sufficient to allow this process, used to purify the shellfish and make them fit
for consumption. This technique is presently permitted in the Pawcatuck River
estuary and Little Narragansett Bay by Connecticut, but not Rhode Island.
5. New proposed classifications by Connecticut for shellfish growing waters
in the estuary will permit the harvesting of shellfish for relay from within the
Pawcatuck River estuary and Little Narragansett Bay to "Approved" areas
outside of the estuary. Rhode Island has more restrictive limitations; recently,
one area, a triangular shaped zone located north of Napatree Beach, was
opened as a "seasonally approved" area. This area had been meeting water
quality criteria for direct shellfish harvest for a predictable period, and was
opened or closed to harvesting according to the high boating use season (from
April to October), which corresponds to observed increases in coliform bacteria
levels. However, recent high bacterial measurements have resulted in the
permanent closure being reinstated. All other areas within Rhode Island's
borders are presently closed to shellfish harvest for either direct harvest or
relaying. With the exception of the Special Management Area for scallops and
some privately owned and leased by the State of Connecticut bottom, the
Stonington Shellfish Commission permits commercial shellfish harvesting in
these areas.
6. Shellfish populations within the estuary are viable despite water quality
problems; however, the lack of harvest activity may lead to a loss of
reproductive success (Sisson, 1990). Impacts of non-harvest are primarily that
mature clams choke out the smaller one as the beds get too dense, become
overcrowded, and most individuals die off (Visel, 1989). Several sources have
stated that management of the beds for a sustained yield would help the
population (Visel, Ganz, 1990).
E. Human Impacts
1. The first dam on the Pawcatuck River was built in 1700, and was the first
78
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of at least ten dams to be built on the main-stem of the river from 1700-1871.
These dams marked the beginning of the decline of the anadromous fisheries
in the Pawcatuck and Wood rivers (Guthrie, 1979). Since 1941, and
particularly since the enactment of the Anadromous Fisheries Act of 1965, the
restoration of fishways and the anadromous fish run has been a continuous
project.
2. Many species living in the estuary are not native to this environment, having
been introduced over the past 200 years from various areas of the world,
primarily as fouling communities on ships (Carlton, 1990). While no native
species have been known to become extinct because of these introductions in
the estuary, population size and abundance for several species is believed to
have decreased (Carlton, 1990).
3. As noted above, water pollution from many different sources has restricted
the utilization of the extensive shellfish resources within the estuary, as well as
limiting recreational uses in the Pawcatuck River estuary.
4. Commercial and recreational uses of the estuary's resources have
contributed to both direct and indirect impacts, including overfishing, and
habitat modifications such as bulkheading and filling, and dredging.
5. The large commercial marina industry within the Pawcatuck River Estuary
and Little Narragansett Bay, the federal navigation channels and the area's
history as a waterborne commerce center have created an ongoing need for
dredging. Dredging may alter the aquatic habitat by increasing turbidity,
reducing oxygen content, reducing the amount of shallow water habitat and
directly impacting organisms. Dredging operations may also release
contaminants or sediments into the water column.
6. All dredging operations remove bottom dwelling organisms which constitute
a primary basis for the estuarine and marine food chains. In previously dredged
areas, renewed disturbance by maintenance dredging is likely to result in little
change to the benthic community; substantial damage to indigenous benthos
is far more likely to result from new dredging projects, in areas where a more
diverse assemblage of organisms would be expected to occupy the higher
quality sediments.
79
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7. Dredging within the Pawcatuck River estuary conducted during the spring
of 1987 may have contributed to impacts to that year's anadromous fish run
because the activity occurred during the migration.
8. Recreational activities in the water and along the shoreline may impact the
productivity of aquatic, wetland and terrestrial wildlife habitat. These impacts
will increase as the amount of area used and intensity of use increases. Noise
levels and human activity may affect the viability of habitat as a wildlife
refugium; noise levels from outboard motors have been reported to reach 80
decibels at 50 feet (Chmura and Ross, 1978). During busy recreational seasons,
it is unlikely that wildlife populations would make extensive use of marinas or
heavily trafficked waters, except those species which have adapted to human
presence (U.S.EPA, 1985).
9. Similarly, by making secluded wildlife habitat accessible to humans, boating
can be detrimental to wildlife populations. Studies conducted exploring the
impact on colonies of nesting waterfowl have shown that nesting success of
gull and tern colonies is reduced by boaters passing by or by visiting otherwise
secluded colonies (Chmura and Ross, 1978); Sandy Point, Napatree Point and
other areas of the estuary all have documented losses of wildlife species
concurrent with increasing human use of the area. Benthic succession may
also be prevented by turbulent waters and waves where motorized craft
frequent. Water propulsion may disturb spawning areas in shallow waters
(Chmura and Ross, 1978).
10. Aquatic ecosystems are particularly susceptible to the impacts of
urbanization. Changes in stream hydrology, which occur as a result of site
clearing and grading, will reduce the habitat value of the stream. Various
studies have tracked trends in fish diversity and abundance over time in
urbanized streams. Many show that fish communities become less diverse and
are composed of more tolerant species after the surrounding watershed is
developed.
11. As a result of urbanization, natural vegetative cover is frequently replaced
by impermeable surfaces, reducing available area for stormwater percolation.
Pollutants carried by stormwater runoff often reach the estuary through
storm-sewers and other pathways. It often carries sediment, oil, road dirt,
salts, heavy metals and nutrients. Not only may these substances be toxic to
80
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marine organisms at certain concentrations, but they may have sublethal
effects which reduce the ability of organisms to survive predation or
competition, to reproduce and may produce physical growth defects (Champ
and Bleill, 1988).
410.3 The Wetlands Habitat
A. Description
1 . Wetlands are vital areas within the estuarine ecosystem that serve many
functions. Tidal wetlands perform an important role in collecting, assimilating,
storing and supplying nutrients to the estuary, in the form of decaying plant
material (deitritus) and minerals. A portion of the plant material produced by
marshes is flushed to the estuary where it supports many estuarine inhabitants.
In addition to food, wetlands provide habitat, protected cover from predators,
and nursery areas for invertebrates, fishes and various local and migratory
birds. Wetlands also act to offset the impacts of adjacent human uses of the
upland; stormwater and other drainage is cleansed by marsh vegetation;
wetlands act to slow the drainage from upland areas for natural flood control.
These concepts are well recognized and documented; alteration of wetlands
and disruption of their ecological function is considered detrimental to the
environment and to society (Boule and Bierly, 1987). Wetlands protection has
been established through statute on both the state and federal level as
paramount, as altered environments cannot be restored to their original
condition.
2. Tidal wetlands are complex ecosystems made up of various distinctive plant
communities. Most of these communities remain very clearly segregated, yet
exist very closely to each other. The dominant ecologic factors of the tidal
wetland system consist of constantly acting factors, such as daily tidal
flooding, fluctuations in the water table, recharge of the water table by spring
tides, and evaporation and transpiration - factors integrally dependent upon the
wetland complex's hydrologic regime.
B. Vegetation
1. A wide variety of wetland acreages and types exist in the Pawcatuck River
81
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Foure 4-4
MAJOR
TTDAL, FRESH AND BRACKISH WETLAND d
COMPLEXES OF THE PAWCATUCK RIVER ESTUARY
AND LITTLE NARRAGANSETT BAY
L
B
E
A
2
3
IN 4
V
.6
5
7
8
PAWCATUCX RIVER:
SITEIEAST OF VIKING MARINA
SIT:2PAWCATUCK RIVER WILDLIFE AREA
SI13 MASTUXET BROOK
Sl TE4INLAND WE TLAND COMPLEX
SITESCOVE SOUTH OF RAM POINT
SITE6JUST SOUTH OF GREENHAVEN MARINA
SITE7COLONEL WILLIE COVE
SITE8POTTER COVE
SITE9PAWCATUCK POINT
L:TTLE NARRAGANSETT BAY AND WEOUETEQUOCK COVE:
N S TE A$ARM ISLAND WILDLIFE MANAGEMENT AREA
0 Km I Km 2 Km 3 Krn
AND CONTINENTAL MARSHES
SITE 8WEQUETEGUOCK COVE EAST
0 mles z SITE CLEDYOOD-S ISLAND
SIT: 10 MORTNEASTOF EDWARD -S POINT
W,* d-lg@ WC SlT LANDING F ELD
�
Estuary and Little Narragansett Bay (Figure 4-4). The most extensive of the
wetland areas is the Barn Island Wildlife Management Area (756 wetland and
upland acres) and Continental Marshes (276 acres of marsh and farmland). The
Barn Island marshes "represent the finest wild coastal area within the state of
Connecticut" (VLAUN, et. al., 1982). Wequetequock Cove's wetlands total
approximately 125 acres (VLAUN, et. al., 1982). Scattered wetland acreages
can be found on Elihu Island, along the Connecticut shoreline across from Elihu
Island and on Napatree Point. The high quality and extensive habitats of these
wetlands provide for significant wildlife concentration and breeding areas, with
many resident and migrating marsh, shore, waterfowl and wading birds.
2. Along the reaches of the Pawcatuck River can also be found scattered tidal
wetlands. These wetlands vary in their size, diversity and type of vegetation,
cover, proximity to other wetlands and the degree to which developed or open
land borders them. In general, these wetlands fall into one of two categories;
those associated with coves and inlets, and fringe wetlands located along the
river's edge. The tidal and brackish marshes along the Pawcatuck River are
limited in extent in part because of the linear orientation of the river and the
relatively small number of cove type areas where marshes are likely to develop,
and because of development. The majority of these wetlands are small
marshes (< 20 acres), bordered or interlaced with upland vegetation. They are
nearly always bordered in part by a road, residence, or commercial
establishment which effectively limits their potential for expanding in acreage.
Wetland fringe, so called because it is limited to a narrow band (<20') that
follows the water's edge, tends to be found wherever seawalls and bulkheads
are absent, as well as in areas where the river has less scouring action (such
as small riverbends). They are occasionally found in areas where the
bulkheading exists but has eroded away. This wetland type has been limited
to a fringe area in large part because of development. The plant species is
most frequently Spartina alterniflora, though occasionally Spartina patens will
be found in wider fringes that slope up from the water.
C. Birdlife
1. A wide diversity of resident, migrating and wintering birds use the
Pawcatuck River Estuary and Little Narragansett Bay (Table 4-2). Fringe
wetlands are highly valuable to surface feeding waterfowl (black ducks,
mallards, widgeon, gadwall), shorebirds and wading birds (Merola, Pers.
83
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Table 4-2
WATERFOWL COMMON TO THE PAWCATUCK RIVER ESTUARY AND LITTLE NARRAGANSETT BAY
(from Cronan, 1958)
Species Common Occasional Breeding Migratory Wintering
Mute Swan x x x
Whistling Swan x x
Canada Goose x x x x
Greater Snow Goose x x
Blue Goose x x
Brandt's Goose x x
Mallard x x x x
Black Duck x x x x
Gadwall x x
European Widgeon x x
Baldpate x x x
American Pintail x x
Green-winged Teal x )i
Blue-winged Teal x x x
Shoveller x x
Wood Duck x x x
Redhead x x x
Ring-necked Duck x x
Canvas-back x x x
Greater Scaup Duck x x x
Lesser Scaup Duck x x x
American Golden-eye x x x
Barrow's Golden-eye x x
Bufflehead x x x
Old Squaw x x
Eastern Harlequin Duck x x
American Eider x x
King Eider x x
White Winged Scoter x x x
Surf Scoter x x x
American Scoter x x x
Hooded Merganser x x x x
American Merganser x x x
Red-breasted Merganser x x x
Ruddy Duck x x x
In addition, grebes, cormorants, loons, mallards, clapper rails,
kingfishers and osprey frequent the area.
84
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Comm., 1989). Birds observed in wetland areas of the estuary include terns,
sparrows, rails, bitterns, chats, egrets, and herons. The deeper waters of the
river are important feeding area for diving ducks, such as bufflehead,
goldeneye, common and red breasted merganser. Other diving birds such as
grebes, cormorants and common loon frequent the river. Canada geese and
mute swans are common. The river is an important feeding area for locally
nesting as well as migrant osprey and Brant's geese.
D. Other Wildlife
1. Additional species observed in the wetland areas include rabbit, muskrat,
river otter, bat, raccoon, weasel, skunk, fox, frogs, salamanders, toads and
snakes, in addition to the rare and endangered species discussed in Section
410.6.
E. Human Impacts
1. During the colonial period, wetlands were seen as agricultural opportunities.
The mowing of the short meadow grasses on tidal wetlands was a common
activity. Salt marsh hay was used extensively for bedding, packing and
mulching. Mowing on some marshes, most notably the Barn Island and
Continental Marshes, is believed to have occurred continuously since colonial
days, and has undoubtedly affected the nature of the vegetation (Miller and
Egler, 1950). Miller and Egler have documented the effects of mowing within
the Barn Island marsh. Their research produced strong evidence that prolonged
mowing of the high marsh zone reduces the vitality of the predominant species,
eventually bares the soil and is followed by soil erosion.
2. Because of their close proximity to waterways, which were major travel
routes, wetlands and areas adjacent to wetlands were also prime areas for
settlement. The siting of commercial ports was also a significant factor in the
development of the estuary. Later, the need to maintain navigational channels
led to dredging and the disposal of dredged material was often in nearby
wetlands. The land created by this fill was soon recognized as having industrial
or commercial value (Boule and Bierly, 1987). Several significant areas within
the estuary have been filled to support urbanization including the industrial site
in Stonington behind the hurricane dike, parts of the downtown, several areas
now occupied by marinas, and the cove south of Ram Point, which served as
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a dredge materials disposal site in the 1940's (Willis, 1991). Extensive
bulkheading along the estuary's shoreline has also replaced shallow water and
wetland habitat.
3. In the Barn Island area, the ditching of marshes for the purpose of mosquito
control was begun in 1931 and completed the following year. These ditches
are quite extensive in their coverage of the marsh. Many other wetland areas
within the Pawcatuck Estuary have also been ditched, but the exact dates
during which construction took place is unknown. These ditches have had a
negative effect on the productivity of the marshes, both in terms of vegetative
and wildlife habitat (Miller and Egler, 1950; Warren and Niering, 1985). Recent
definitive studies have conclusively demonstrated that the highest wildlife
usage and productivity are associated with natural (un-ditched) marshes,
whereas the intensely grid ditched marshes support the lowest wildlife
productivity (Warren and Niering, 1985). A dramatic decline in waterfowl and
shorebird use of the Barn Island marshes has occurred as a result of the
ditching of much of the salt marsh habitat (Warren and Niering, 1985).
Impoundments were constructed at Barn Island in the late 1940's to offset the
impacts to wildlife due to the elimination of open water habitat from ditching.
Dikes were constructed to pond water over approximately 144 acres of tidal
wetland. These impoundments attracted large numbers of waterfowl, but
wildlife use declined as perennials such as cattail and phragmites displaced
open water habitat. Presently, approximately 90% of the impounded wetlands
have been, or are being restored to tidal salt and brackish wetlands.
Connecticut has discontinued its maintenance ditching program in favor of
selective open marsh water management techniques. It is expected that this
approach will restore the historic water table and recreate pools and pannes
(Rosza, personal comment, 1990).
4. In the Pawcatuck River estuary and Little Narragansett Bay, as in many
other estuaries, the largest factors impacting existing wetlands are those
caused by the pressures of a growing population on land and water use. This
includes the historic loss of wetland acreage due to filling, impacts to water
quality, and the development of uplands adjacent to wetlands. The
encroachment of residential, commercial, and industrial development into areas
adjacent to wetlands has further limited the ability of these wetlands to perform
their natural functions.
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J
15' 14,
14
13
19
12
10
Well
18
P.-N&
8 ST%waip-i
I MCI) 5
16
4
6 3
2
SITES
1. BREE ROAD CR SES SMALL WETLAND AT POTTER'S COVE.
THE PAWCATUCK ESTUARY 2. AVON:ALE ROADOSCROSSES TIDAL CREEKS AT COLONEL WILLIE COVE.
3. WATCH HILL ROAD CROSSES WETLAWD/TIDAL CREEK AT RA14 POINT.
4. WATCH HILL ROAD CROSSES MASTUXET BROOK.
ROADS CROSSING TRIBUTARIES 5. AIRPORT ROAD CROSSES KASTUXET BROOK.
6. RIVERSIDE DRIVE CROSSES WETLAND COMPLEX WHICH CONNECTS WITH CONTINENTAL HARSH SYSTEM.
7. RIVER ROAD CROSSES TRIBUTARY DRAINING INTO WETLAND AT STANTON WEIR.
8. GREENHAVEN ROAD CROSSES TRIBUATIRES DRAINING INTO BARN ISLAND MANAGEMENT AREA.
KEY 9. PAWCATUCK AVENUE CROSSES TRIBUTARY DRAINING INTO BARN ISLAND MANAGEMENT AREA.
10. GREEN CROSSES ANGUILLA BROOK WHERE IT ENTERS WEQUETEQUOCK COVE.
HAVE:E:OAD
SITES WHERE ROADS CROSS TRIBUTARIES 11. ORIOLE ST T CROSSES ANGUILLA BROOK.
12. ROUTE I CROSSES ANGUILLA BROOK.
13. ANGUILLA ROAD CROSSES ANGUILLA BROOK.
SITES WHERE CULVERTS IMPEDE TIDAL FLUSHING 14. HINKLEY HILL ROAD CROSSES ANGUILLA BROOK.
15. 1-95 CROSSES ANGUILLA BROOK.
16. CENTRAL RAILROAD CROSSES WETLAND COMPLEX DRAINING INTO WEQUETEQUOCK COVE.
17,18. ROUTE 1 CROSSES TRIBUTARIES DRAINING INTO WEQUETEQUOCK COVE.
&ARNES-ROAD CROSSES TRIBUTARIES ENTERING WEQUETEQUOCK COVE.
�
410.4 Ur)land Habitat
A. Description
1. The upland habitat area is defined as land covering the areas inland of
wetland and aquatic areas. Uplands act as a significant habitat or may serve
to protect adjacent wetland habitat, providing an essential barrier between
wildlife, the ecosystem in which they live, and human activity. These areas,
when retained in their natural and undisturbed condition, are frequently crucial
to the survival of many wildlife species.
2. A large portion of upland habitat in the Pawcatuck estuary watershed has
been lost as urbanization has occurred. However, land whose previous uses
have been abandoned, and have returned to a more natural state, remain
extremely valuable to wildlife. For example, abandoned pastures and
agricultural fields occupy some of the upland territory. These are areas where
there is much open area, with small percentages of cover. The vegetation is
in the primary stages of succession, and has been noted as being highly
productive for wildlife (MacConnell, 1974).
3. Many coastal animal species require a combination of tidal wetland and
upland habitat to carry out their daily activities of feeding and nesting. These
animals often feed on the abundant organisms within the tidal wetland, but use
upland habitats for nesting and roosting. For these animals, an adequate
upland area around the wetland is essential as a refuge from the daily
inundation of tides which may flood out nests and burrows. The upland area
also acts as an alternative site for foraging activities.
B. Vegetation
1. The vegetative community of the upland habitat for the project area consists
primarily of oak forest with a mixture of hickory, black oak, white oak,
shagbark hickory and bitternut. Black gum is also common and thickets are
typical on abandoned agricultural lands. Such thickets will also have catbrier,
dwarf sumac, sassafrass, blueberry and wild rose. Vegetation around
abandoned farms consists primarily of grasses such as little bluestern
Schizachyrium scoparius, big bluestern Andropo-gon furcatus and indian grass
Sorghastrum nutans. Between the marsh and high upland is frequently a
88
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narrouw shrub border composed of upland species. These are killed back by
storms bringing extreme high tides. Where the shrub border is mowed, it is
replaced by a grassland of Panicum Virgatum (Miller and Egler, 1950).
C. Upland Animals
1. A largne number of small mammals can be found within the project's upland
area, (e.g., mice, squirrels, skunks, foxex, raccoons and rabbits) (Table 4-3).
Large mammals such as deer, and more recently the coyote have been
observed (Narraganset Times, 1986). One of the largest mammals that lives
in the watershed is the river otter (Lutra canadensis). Muskrats (Ondatra
zibethicus) can also be found in the project area; about 4000 are caught
statwide annually.
2. Birdlife abounds and inclue many common species; quail, pheasant, wild
turkey, dove woodcock, grouse, may be residents or occasional visitors to the
estuary and are commonly hunted in the region.
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D. Human Impacts
1. The greatest cause of species loss is habitat destruction and fragmentation,
the reduction of the size and contiguity of habitat parcels such that they no
longer contain all the elements that many species require for their survival. As
urbanization in an area increases, certain populations of wildlife that rely on
either a wide diversity of contiguous habitats, a specific type of habitat, or
simply require isolation from human activity, may decrease in population or be
forced to leave the area. The loss of a population may have a dramatic effect
on other species that have been dependent on the lost group, either as a food
source or for population control (Howard-Stroebel, et. al. 1986). The loss of
these more sensitive species further reduces the diversity of wildlife. Often
these induced impacts cause species dominance changes, and other shifts in
population dynamics.
410.5 Coastal Barrier Habitat
A. Description
1. There are two coastal barriers in the management area, Napatree Point and
Sandy Point. There are three primary habitats associated with these areas.
The beach habitat lies seaward of the dune, and is devoid of vegetation except
for annual and perennial wracki.ine vegetation. Sand dunes support a coastal
grassland vegetation dominated by American Beachgrass (Ammophila
.brevila-gulata). Associated species include seaside goldenrod (Solidago
sempervirens) and evening primrose (Oenothera parviflora). Sandflats are the
more or less level areas of stable sands located landward of the dunes.
2. A portion of the northern section of Sandy Point has been used as a
disposal site for sandy dredged materials. This increased the amount of coastal
barrier habitat and provided habitat for sandflat species and colonial seabirds.
B. Function
1. One of the most critical functions of the barriers is that they created and
protect the sheltered waterbody of Little Narragansett Bay. In the absence of
these beaches, wave energy and exposure would be considerably higher.
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Critical habitats such as the eel grass beds and the tidal wetlands at Barn Island
could be severely impacted. Protection of various habitats within Little
Narragansett Bay is thus dependent on the protection of the coastal barriers.
C. Birdlife
1. Unvegetated areas of the coastal barriers are especially important habitat
for colonial seabirds such as Common terns, least terns and the shorebird, the
Piping Plover; the backshore beaches, sandflats and disposal site on Sandy
Point are especially important. These species have been observed to nest on
these barriers. Herring and Great Blackbacked Gulls nest in unvegetated and
vegetated beaches, sand dunes and sandflats. A variety of other types of birds
use the barriers, including Sanderlings, Savannah sparrows, Short-eared owls
and Snowy owls.
410.6 Buffer Zones
A. To assure the survival of some wildlife species, sufficient separation from human
habitation and activities is required. Upland buffer zones are areas that are retained
in their natural condition to protect wetlands, water quality, and wildlife habitats from
degradation by human activity. By protecting and providing wildlife habitats,
undisturbed buffers allow for a more diverse wildlife population. The presence or
absence of a buffer influences the degree of this diversity as well as the abundance
of populations. When rare or endangered species are present, a buffer can contribute
to their continued existence by reducing the potential of human impacts. Without
buffers, encroachment by humans on the habitat of facultative species (those which
require a specific habitat) often forces the population to abandon the site. In
intensively developed surroundings, these areas become still more valuable, as they
may serve as one of the few areas for wildlife oases.
B. In Stonington, buffers (called "non-infringement" areas) are required through the
zoning ordinance, and are assigned to adjoin significant aquatic or wetland areas, and
may not be disturbed. The sizes of these areas are established on a site specific basis,
but generally range from 50-100' in coastal residential and rural residential areas. In
other, more densely settled areas, the term "buffer" is used to define areas designated
to be used for the protection of adjoining and surrounding properties, and may be
planted or landscaped. Such buffers range from 15-35 feet. In addition to these
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setbacks and buffers, 25-100' non-infringement area may be added where protection
of significant natural resources is needed.
C. In Rhode Island, buffers in the coastal zone are established on a site specific basis
for the values and sensitivities of the area. They must be maintained as undisturbed
areas and in their natural condition. Buffer zone widths, when required, generally
range from 25-100'. Additionally, "setbacks" are defined as the minimum distance
from the inland boundary of a coastal feature that an approved activity or alteration
may take place. They must be at least 50' from the inland boundary of the coastal
feature, except in critical erosion areas, where size is determined by erosion potential.
410.7 Areas of Shwificance to Endangered, Threatened, or Species of Special
Concern
A. The Pawcatuck River estuary and Little Narragansett Bay provide habitat for over
25 rare species, indicating a highly valuable and diverse habitat within the region that
should be preserved.
1 . The Connecticut DEP's Natural Resources Center and Coastal Area
Management (1985) have identified statewide significant wetlands from a
biological-ecological standpoint. Significant wetlands in the project area
identified are the Barn Island Wildlife Management Area and Continental
Marshes and Little Narragansett Bay. Several areas which harbor rare plants
and-or animals and merit particular protection have been identified by the Rhode
Island Natural Heritage Program; they include Napatree Point, Sandy Point, and
Horace Island (Figure 4-6).
2. The Barn Island area and Continental Marshes are noted as having high
quality habitat, including estuarine salt and brackish wetlands. They provide
significant breeding areas for wildlife, and are areas of heavy wildlife
concentration, as well as for a number of rare species (Table 4-4). The Barn
Island area is also a significant research and scientific area.
3. The Atlantic sturgeon (Acipg2nser o. oxyrhynchus), an occasional visitor to
Little Narragansett Bay, is listed as a Species of Special Concern in Rhode
Island, Massachusetts, Connecticut, New York and other states by the
American Fisheries Society (Williams et.al., 1989). Another visitor, the
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KEI
AREA
A 1 AREA
ROSEATE TERN (FT) COMMON TERN (C)
COMMON TERN (C) SEACOAST ANGEL::A
SALTPOND GRASS ISE)
AREA 2 SEASIDE SPARROW (C)
PIPING PLOVER (FT) LEAST BITTERN (SSI)
AMERICA NOISTIRCATIHER (SSI) SCOTCH LOVAGE (ST) ST STATE THREATENED
TAL ,WOR "WOW ( C HORNED PONDWEED
NEW ENGLAND COTTONTAIL (C) BE STATE ENDANGERED
SSE SPECIES OF STATE INTEREST
AREA 3 BLA CK RAIL
C SPECIES OF CONCERN
SEABEACH SANDWORT (C)
BEACH HEATHER AREA 7 SE STATE EXTIRPATED
FT FEDERALLY THREATENED
PIPING PLOVER (FT) AMERICAN BITTERN (SE) IE "DERAL' I
LEAST TERN (SSI) OSPREY (SSE)
GADWALLS (C) SEACOAST ANGELICA
AMERICAN OYSTERCATCMER (SSI) SEASIDE BUTTERCUP (BE)
SCOTCH LOVAGE EST)
AREA 4 -11,
D
REY (SSI) AREA 8
IP SHORT NOSE STURGEON EST)
AREA 5 ATLANTIC STURGEON (C) I
OSPREY (SSI)
5
6
BARN 1.
WILDLIFE KWGF14EMY AREA
7
4 CONTINENTAL MARSHES
LEDWOOD 'S I-
3 8
SANDY POINT -N
Nona I
2
NAPATREE BEACH
PAWCATUCK ESTUARY
RARE SPECIES
0 Km I Km 2 Km 3 Krn N
@2f
0 Miles 2
Data sources: ROS and CT DEP
Mw d-V@ WC 4
rt 3
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Shortnose sturgeon (Acivenser brevirostrum) (Sisson, 1990) is listed as
Threatened in Rhode Island, Connecticut, Massachusetts, New York, as well as
by other states. These fish depend on large lakes and rivers for their survival.
It should be noted that 67% of the various species of North American sturgeon
are now listed as rare species. This indicates a severity of problems facing this
family of fishes and others that depend on the integrity of large river systems
(Williams et. al., 1989).
4. The Pawcatuck River estuary is one of only three smelt runs known to exist
in Connecticut (Visel, Pers. Com., 1989), and is one of only a few rivers in
Rhode Island where a population is known to occur. Smelt are considered a
rare species in Rhode Island. In the Pawcatuck River estuary, the best
spawning grounds are limited to a small area around the Route 1 bridge and
south about one quarter mile (Sisson, 1990).
5. Wequetequock Cove, northwest of the railroad tracks, as well as Elihu
Island, and the Barn Island Marsh, have been noted as a nesting grounds for the
osprey (Pandion haliaetus) as recently as 1988.
6. Elihu Island is privately owned, bordered on the north by the railroad, on the
east by Wequetequock Cove and on the south and west by Long Island Sound.
Great Blue herons (Ardea heroclias), Double crested cormorants (Phalacrocorax
auntus), Snowy egrets (Egretta thula) all Rhode Island Species of Special
Interest, as well as Common terns (Sterna hirundo) Rhode Island Species of
Concern, have been observed there.
7. Napatree Point has been listed by the RI Natural Heritage Foundation and
the Audubon Society as a unique natural area (Swimmer, 1984). As a coastal
barrier habitat, this one mile long, extensive sand spit and dune formation is
one of the most important migratory bird stopover points on the east coast. It
is also an important year round habitat for a variety of bird species; over 125
species of birds are known to use the area. The area is also a known nesting
site for the Federally Threatened Roseate tern (Sterna dougallii), American
Oystercatcher (Haematopus palliatus), a Species of State Interest, Least tern
(Sterna antillarum), Piping plover (Charadrius melodus), and Osprey (Pandion
haliaetus), all Species of Special Interest. In addition, the Tall Wormwood
(Artemesia campestris), a plant listed as a Species of Concern, occurs here.
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Table 4-4 RARE SPECIES OF THE BARN ISLAND WILDLIFE MANAGEMENT AREA AND CONTINENTAL MARSHES
Species Status
*Common tern ............................ Species of Special Concern, Connecticut.
*(Sterna hirundo)
*Saltpond Grass ......................... State Endangered in Connecticut, State Extirpated (meaning current
(Diplachne maritima) occurrences are unknown) in Rhode Island. Last observed at a Barn
Island site in 1977, the site is believed destroyed.
*Seaside Sparrow ........................ Species of Special Concern, Connecticut.
(Ammodramus maritimus)
*Least bittern .......................... Species of Special Concern, Connecticut.
(Ixobrychus exilis)
*Scotch lovage .......................... State Threatened in Rhode Island, Species of Special Concern,
(Ligusticum scothicum) Connecticut.
*Black rail ............................. Species of Special Concern, Connecticut.
(Laterallus jamaiceusis)
to *American bittern ....................... State Endangered in Rhode Island, Species of special Concern, Connecticut.
Ln (Botaurus lentiginosus)
*Seaside crowfoot ....................... State Extirpated in Rhode Island; was observed at this Connecticut site in
(Sanunculus cymbalaria) 1987. Species of Special Concern in Connecticut.
*Seacoast angelica. ...................... Species of Special Concern, Connecticut.
(Coelopleurum lucidum)
*Yellow breasted chat ................... State Endangered in Rhode Island. It is noted that in the late 1960's Barn
(Icteria virens) Island was the best habitat for the chat in the State of Connecticut. While
it may still inhabit Barn Island, it has not been identified by the
Connecticut DEP in that area.
*Atlantic bulrush ....................... Believed to be an uncommon, perhaps rare plant in the
(Scirpus paludosus var. atlanticus) tidal wetlands of Connecticut (Warren and Niering, 1985).
*Snowy egret ............................ Species of State Interest in Rhode Island, has been seen numerous times in
(Eciretta thula) the marsh.
�
Napatree Beach is managed as a conservation area by the Watch Hill Fire
District although significant recreational use is allowed OEP, 1989).
8. Sandy Point has historically been noted as harboring the Seabeach
Sandwort (Honkenva peploides a Species of Special Concern, last observed
around 1900, and Beach Heather (Hudsonia tomentusa) a Connecticut Species
of Special Concern, noted in 1978. It was known as a historic nesting site for
the Piping Plover (Charadrius melodus) and the Least Tern (Sterna antillarum),
both Species of Special interest in Connecticut and Rhode Island, during the
late 1 970s and early 1 980s. Recently, Least terns and Piping plovers have had
poor success nesting on the point. Large gull colonies and frequent visits by
boaters have disrupted nesting attempts. Habitat degradation, in the form of
increased vegetative growth and cover, has also discouraged nesting by Least
terns. Other birds which have been observed include the Oystercatcher
(Haematopus palliatus) a Species of Special Interest.
9. Horace Island is the site of a historic Roseate Tern (Sterna dou-qallii colony,
and the Common Tern (Sterna hirundo) may nest here currently. These species
are listed as Federally Threatened and Species of State Interest, respectively.
420. MANAGEMENT REGULATIONS AND INITIATIVES
The following regulations and initiatives are based on Section 410, Findings of Fact,
and the primary objective of protecting and restoring the wildlife habitat of the
Pawcatuck River estuary and Little Narragansett Bay.
420. 1 Protection of Critical Habitat Areas
A. Resources of Regional Importance and Need for Protection
1. The Pawcatuck River estuary, Little Narragansett Bay and their watersheds
support critical habitat areas of local and regional significance. The subtidal,
shoreline and adjacent upland areas constitute a valuable, fragile part of the
estuarine system, where growing human uses may create significant impacts
on fish and wildlife habitats. The capacity of these areas to withstand
pressures associated with current and future growth within the re .on J.s
g/
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limited, and additional steps are warranted in order to preserve and enhance the
diversity, abundance and quality of fish and wildlife habitats, and to restore
such habitats damaged or impaired by past or present use.
2. Management Policies and Recommendations
(a) The states and towns recognize and designate the following areas
as critical habitat resources, and should develop necessary measures to
prevent direct and indirect alterations to such areas, contiguous areas
necessary to protect their ecological integrity, and associated
non-estuarine stream corridors and hydrologic complexes, where
appropriate:
(1) Plant, fish, and wildlife habitats of local or regional
significance, including eelgrass beds and other submerged
aquatic vegetation, shallow water areas, coves and inlets,
tributary streams and stream corridors, tidal, brackish and
freshwater marshes and wetlands and associated contiguous
areas;
(2) Areas where colonial waterbirds congregate during the
nesting season. Such nesting sites are found in relatively few
areas. Nesting habitats of waterbirds should be protected from
physical alteration and from disturbance during the spring nesting
season.
(3) Historic or present staging and concentration areas for
waterfowl, migratory and shorebird species. In some areas of
historic concentration, these species maynot be present because
of habitat losses or other human impacts, Restoration of these
sites is important, these areas should not be usurped by other
uses. Historic habitat sites where species have been known to
inhabit recently (within the last ten years) should also be
protected, and investigated to determine why these areas are no
longer being used and whether or not they can be rehabilitated.
(4) Sites where endangered, threatened, or species of special
concern are known to nest, spawn, rest, reproduce, feed or rear
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their young.
(5) Specific sites with the Pawcatuck River estuary and Little
Narragansett Bay to be considered Critical Areas include:
- All large wetland complexes
- The smelt habitat below Route 1 Bridge
- Napatree Point
- Barn Island Wildlife Management Area
- Pawcatuck River Wildlife Area
- Colonel Willie Cove
- Horace Island
- Sandy Point
420.2 Acquisition and Protection of Wetland Complexes
A. Increasing the Effectiveness of Current Regulatory Programs
1. The states and localgovernments should supplement the present regulatory
protection of wetlands through acquisition of lands or conservation easements
on areas which protect the biological and hydrological integrity of wetland
complexes, and enhance the management of wetland systems. Efforts should
be focused on areas which are crucial to the viability of wetland and aquatic
habitats, but are beyond reach of existing regulatory programs, including the
following:
(a) Wetlands and adjacent open areas located in intensively developed
surroundings,
(b) Areas which buffer and protect the biological and hydrological
integrity of protected wetlands, but because of the location or size, are
excluded from regulation,
(c) Small upland areas interspersed within larger wetland areas, where
development of such uplands could adversely impact the wetland value-,
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(d) Upland habitat corridors linking wetland areas which are essential
for maintaining contiguity of habitats,
(e) Upland areas hydrologicafly linked through groundwater flow and
surface water runoff to wetland areas and which are essential to
maintaining the wetland water regime.
B. Potential Protected Sites
All numbers refer to site identification numbers in Figure 4-4.
1. Wetlands and adjacent open areas located in intensively developed
surroundings:
a. Upland located east of wetland Site # 1, Viking Marina.
2. Buffer areas which are vital to the protection of wetlands, but are excluded
from regulation:
a. Increased upland buffers around a# wetland sites within the planning
area.
3. Small upland areas interspersed within larger wetland areas:
a. Upland island at Site # 1, Viking Marina,
b. Upland habitat adjacent to Site #2, Pawcatuck
River Wildlife Area.
c. Upland areas at Site #7, Colonel Willie Cove.
d. Upland island at Site #8, Potter Cove.
4. Upland Areas linking wetland areas:
a. Habitat corridor linking Site #2, Pawcatuck River Wildlife Area, and
Site #4, Inland Wetland complex.
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b. Habitat corridor linking Site #6, just south of Greenhaven Marina,
with Site A, Continental Marshes.
5. Upland areas hydrologically linked to wetlands:
a. Upland east of wetland Site # 1, Viking Marina.
b. Upland east of wetland Site #7, Colonel Willie Cove.
c. Upland east of wetland Site #8, Potters Cove.
C. Tributary Stream Corridors
1. Several tributary stream corridors in the estuarine watershed are located in
areas of intensive development. These critical habitats and wetland systems
will be subject to greater impacts from stormwater runoff and other urban
impacts, such as encroaching development than wetlands in more rural areas.
The states and town should direct more intensive efforts towards protection of
these areas including adjusting land use practices to reflect the sensitive nature
of the areas, establishing more restrictive reviews on the state level, and
focusing acquisition priorities towards these areas.
a. Mastuxet Brook is the only major tributary emptying into the estuary
from the eastern shore, The brook is surrounded by residential
development and by the Westerly Airport. A farm located west of the
airport and alongside the brook is believed to harbor the Grasshopper
Sparrow LAmmodramus savannarum sited in 1984) a species of
Threatened status in the state of Rhode Island.
b. Several sma# unnamed streams which empty into the estuary in the
urbanized areas of Pawcatuck and Westerly.
2. Areas adjacent to wetlands of high, outstanding or unique habitat value may
require additional protections in order to ensure the qualities of the adjacent
wetland, including:
a. Uplands and streambelts of wetland Site A, the watershed of the
Barn Island Management Area;
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b. Uplands and streambelts of wetland Site B, Wequetequock Cove,
c. Uplands and streambelts of wetland Site E, the Landing Field.
3. The RICRMC and CTDEP should provide technical assistance to private
landowners in the areas identifiedabove topromote the development of wildlife
protection and restoration activities.
4. Information on sites consistent with the policies of Section 420.2.A should
be developed in more detailed format, including plat and lot numbers, and
property ownership. This information should be utilized by the town
Conservation Commissions and land trusts to prioritize protection efforts.
5. The local land trusts, Conservation Commissions and other private
conservation groups should consider developing a land owner registration
program, The establishment of a registry program would provide explicit and
public recognition of the efforts of landowners who have protected and wisely
managed the natural areas in their ownership. The recognition is formalizedin
a non-binding agreement in which the landowner agrees to continue to practice
good private stewardship. The registry is, in essence, a conservation
agreement that does not require the landover to donate, sell or otherwise take
legal action to protect his or her land. The agreements place few burdens on
the landowner beyond the actions already being undertaken. Perhaps the most
significant feature of the program is that the landowner agrees to notify the
registering agent of any intention to alter the site or to sell. This provides the
opportunity to consider and negotiate any further conservation action. The
landowner is also asked to notify the registry agent of any threat from, or
occurrence of pollution on or near the site. Through these actions the registry
achievesa methodof directprotection, provides a framework for enacting other
protective measures, and acts as an educational effort.
420.3 Restq&ng Impaired Wildlife Ha
A, Wildlife Habitat Restoration Program
1. Definition. Wildlife habitat restoration means to revitalize or re-establish
functional habitat characteristics andprocesses which have been diminished or
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lost, directly or indirectly, as a result of past alterations, activities, or
catastrophic events. Areas suitable for habitat restoration may include different
parts of the estuarine ecosystem, including, but not limited to: fresh and
brackish hydrologic systems feeding into the estuary, the saline and fresh
waters of the estuary, subtidal and intertidal lands, and tidal and freshwater
marshes and associated contiguous upland areas. Restoration should involve
the use of specific remedial actions, as defined by this section, to achieve,
improvements in habitat quality and value.
2. Management Policies and Regulations
(a) The state and local governments should promote and require the
restoration of wildlife habitats within the Pawcatuck River estuary and
Little Narragansett Bayin order to offset the loss of naturalhabitats and
species which have decreased in abundance, to restore and reestablish
habitat functions and values which have been lost or degraded, and to
address pressures on natural habitats and species which presently exist
and future losses and impacts which are anticipated.
(b) The state and local governments should utilize existing regulatory
and development control procedures to support and promote the
following wildlife habitat restoration goals within the estuary-
1) The creation, maintenance or restoration of habitat corridors
and linkages between wetland areas, conservation areas and
other areas of importance to wildlife,
2) The re-establishment of anadromous fish spawning habitat
and migration pathways,
3) Restoration of tidal flushing to wetland areas,
4) Improvement in water quality;
5) Restoration and enhancement of upland buffer zones,
6) Restoration, creation and expansion of habitats on Sandy
Point and Napatree Point,
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7) Restoration of intertidal habitat,
8) Appropriate management of recreational access to sensitive
habitat areas,
9) Restoration of shellfish beds through active management.
(cJ The state and local governments should establish consistent
minimum standards for wildlife habitat restoration to achieve the goals
as set forth in Section 420.3.A. above. A t a minimum, a# developments
subject to the Coastal Site Plan Review (CSPR) review of the Town of
Stonington and the jurisdiction of the RICRMC should be subject to
these requirements.
(d) The state and localgovernments should evaluate ongoing acquisition
and development programs for opportunities to further the goals of this
section.
B. Development of Wildlife Habitat Restoration Plans
1. Under the programs recommended above, it should be the responsibility of
the applicant to submit a Habitat Restoration Plan which conforms to the
requirements of this section. Such a plan should contain sufficient information
to evaluate the environmental characteristics of the site, the need andpotential
for habitat restoration, and predicted effects of such actions, Theplanshould
contain maps, tables, photos, narrative descriptions and explanations, and
citations supporting such evaluations as necessary to communicate the
information required. The following information should be included.
(a) Statement of existing conditions. The existing environmental and
hydrologic conditions of the site and of the receiving and-or adjacent
waters and wetlands should be described in detail This shouldinclude
consideration of the elevation, slope, tidal influence, salinity and
freshwater input of the site, soils, topography and vegetation types.
(b) Assessment of Potential for Habitat Restoration Actions. An
environmental assessment as to the potential and need for habitat
restoration actions in association with the activity should be completed.
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Such an assessment should identify and evaluate the conditions and
nature of degraded habitat sites and the cause of their condition, the
cost of the restoration project, and its short and long term impacts on
habitat quality. The assessment should also address the incorporation
of minimum site Best Management Practices as outlined below. The
reviewing agency may waive the requirements for habitat restoration
actions beyond the minimum site Best Management Practices should it
conclude that there do not exist appropriate opportunities for such
actions presented by the application.
(c) State of the Proposed Action. The proposed habitat restoration
project should be described in detail, including the objective of the
activity, anticipated changes in topography, vegetation and hydrology,
and anticipated improvements in wildlife habitat quality.
(d) Information developed for other requirements under state and local
programs may be utilized to meet these requirements, where
appropriate.
C. Design and Performance Standards
1. Wildlife Habitat Restoration Plans submitted should demonstrate that the
proposed development or activity has been planned and designed and will be
constructed and maintained in conformance with the following standards, as
appropriate:
(a) Minimum site Best Management Practices (BMPs) have been
incorporated into the site design and construction planning. These
BMPs include:
i) Use and-or improvement of erosion and sedimentation controls
in accordance with the standards of the most recent version of
Rhode Island and Connecticut So# and Erosion Control
Handbooks,
ii) Use and-or improvement of stormwater management and
treatment, including techniques and approaches to site design
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which minimizes the creation of stormwater, foster retention and
treatment and enhancement of site filtering abilities,
X) Restoration and enhancement of undisturbed buffers between
development activities and sensitive habitat areas. Restoration
isprimadly the enhancementof wildlife habitat, pollutant removal
and erosion control characteristics of the buffer area through the
planting of native species.
(b) The project has been designed to take advantage of the natural
configuration of the site, and has minimized boundaries of altered areas
with adjacent development or activities that may disturb wildlife or
interfere with habitat functions,
(c) The project has been designed to restore as large an area as
possible, create or restore a diversity of habitats, and to protect,
enhance or restore self-sustaining habitats,
(d) The project has been designed to protect, create or restore habitat
corridors and linkages between and among wetlands systems, existing
habitats and conservation areas,
(e) The project has been designed to, where possible, aid in the
reestablishment of anadromous fisheries habitat or migration pathways,
(f) Opportunities for restoring tidal interchange and flushing to wetland
areas have been integrated into the project design,
(g) Opportunities for replacement of bulkheads with rip-rap and sloping
walls, or non-structural shoreline protection have been evaluated, and
incorporated into the project design where possible,
D, Restoration Sites
1, The following sites have been identified as appropriate for restoration
activities, to be implemented either through ongoing regulatory process or
through direct government projects, as appropriate, These sites are identified
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in addition to restoration activities undertaken in association with development
proposals:
(a) Restoration Site I Mastuxet Brook and Watershed Restricted
outflow via culverting under the road could be improved to allow greater
tidal influence. In addition, stream corridor protection measures should
be implemented, including establishing or increasing buffer areas and
protecting headwaters and the contributing watershed.
(b) Restoration Site 2 Sandy Point Anticipated dredging activity within
the federal channel in Little Narragansett Bay will result in dredge
material disposal on Sandy Point. Beach and intertidal habitat could be
expanded with appropriate grading, plantings and stabilization. As
dredgingof the federal channel and disposal of some materials on Sandy
Point is likely to occur in the near future, a complete, detailed
restoration methodology for this project should be developed.
[c) Restoration Site 3 Culverts crossing tributaries. Numerous roads
within the Pawcatuck River estuary watershed cross smay tributaries
which flow into the estuary. Some of these have been examined and
are know to be limiting tidal circulation upstream of the culverts, such
as the culvert just north of Westerly Yacht Club, and several culverts
with tributaries entering Wequetequock Cove. In addition, there are
culverts beyond tidal influence which may be impeding freshwater flow.
(d) Restoration Site 4 Railroad Bridge crossing Wequetequock Cove.
This bridge may be impeding tidal circulation. Studies should be
performed under the Coves and Embayments Program or other
appropriate programs to determine adverse impacts, and ways to restore
circulation, if warranted The ongoing studies at Quaimbaug Cove
should be used as a model.
(e) Restoration Site 5 AN commercial or industrial waterfront uses. All
such areas should be the focus of instituting remedialBest Management
Practices in order to improve water quality and on-site impaired habitats.
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E Ensuring Proper Implementation
1, To ensure attainment of the objectives of the habitat restoration plan, plans
submitted should demonstrate that the proposed activity has been properly
designedand willbeperformed andmonitored to ensure that improvement, and
not further degradation, takes place. When restoration projects are not
undertaken as proposed, this should be considered a violation. If it is
determined that the project is occurring in a manner contrary to the conditions
set out in the permit, action may be taken resulting in a revocation of the
permit and-or payment for damages. Legal action should be considered
appropriate when violations are willful, repeated, flagrant or of substantial
environmental impact.
F. Monitoring Habitat Restoration Projects.
1. Two levels of monitoring should be considered in the evaluation of habitat
restoration projects.
(a) Compliance success is an assessment of how wefl the permit
conditions were complied with.
(b) Functional success is an assessment of how we# the project
successfully restored habitat values, and how we# it met the overafl
objectives of the project. Such evaluations should examine, depending
on project goals and objectives:
1) Physical characteristics, such as surface area, slope, location,
water depth, sources, flow and quality (including turbidity,
erosion, discharges to or within the site), and soil-substrate
characteristics,
2) Plant species composition and dominance, andpercent cover,
3) Invertebrate colonization on and adjacent to the site, and
wildlife utilization (established primarily through observation,
sighting of individuals, nests, and tracks);
4) Other observations regarding compliance with permit
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conditions and other factors affecting the successful functioning
of the site.
(c) Assessments should be conducted as part of routine compliance
checks after the first year of completion.
Section 420.4 Land Use Mana-gement and Wildlife Habitat Protec
A. Land Use Management Controls for Habitat Protection
1. The future use and management of land within the estuarine watersheds
will be a dominant factor in efforts to protect and restore wildlife habitat
values. There exists a need within the estuarine watershed to formulate land
use policies and management tools on the municipal level which will outline
management methods to protect wildlife habitat and environmental quality.
These tools and actions should be incorporated into the land use plans and
development controls of the Towns of Westerly and Stonington, as appropriate;
these should be undertaken individually by the towns of Stonington and
Westerly, although a high degree of coordination should be sought, utilizing the
same language and mechanisms where possible. These land use tools comple-
ment the management initiatives established in other sections of this plan.
2. The land use tools discussed below should be incorporated into a separate
distinct section of the local ordinances. This will allow the municipalities to
acknowledge the estuary and its distinctive shoreline environments as areas
requiring special controls, while promoting uniform application of the
recommended standards. In Stonington, this may be achieved through
application to areas under the jurisdiction of the Connecticut Coastal
Management Act. In Westerly, as recommended in the draft Comprehensive
Plan, a River (estuary) Corridor Overlay district should be established, to the
extent practicable this should be uniform with the areas andactivities under the
jurisdiction of the RICRMC.
3. Management Policies and Regulations
(a) The review, development and modification of land use plans and
tools should be undertaken as part of the Comprehensive Planning, Plan
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of Development review and Facilities Planning processes for each town.
The plans should address, at a minimum, the following items:
1 . The identification of areas located on fragile aquifer,
watershed, streambelt, inland wetland, tidal wetland, ponds,
estuary shoreline and significant adjoining areas and the
assignment of a separate zoning classification to them, so as to
preserve them for future and present needs. These areas should
be recognized and designated as Significant NaturalAreas within
the zoning and other appropriate ordinances. Where applicable
these areas should be identified using the definitions of existing
regulatory programs such as the CSPR or RICRMC programs;
(a) The towns should assign low allowable densities to
these areas, such as a minimum of 120,000 square feet
or 130,000 square feet per unit,
(b) The towns should develop mechanisms andprograms
to accept permanent scenic or recreation easements for
property within these zones,
2. The identification of areas with general land conditions dictating
lower capability for development, such as the unavailability of sewers,
and where housing densities retain a rural character, and the assignment
of a separate zoning classification to them, so as to preserve this rural
character and wildlife habitats located there.
(a) The towns should develop mechanisms and programs to
accept permanent scenic or recreation easements or fee simple
for significant natural resources, open space, or lands for
municipal use within these areas, andpermit the allowed density
to be utilized in clustered designs on lands deemed suitable after
review.
(b) Special plan provisions, such as extra non-infringement
areas, may be required to protect wildlife habitat and other
natural resources;
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3. The establishment of buffer requirements and non-infringement areas
around wetlands, streams, stream corridors, ponds, tidal marsh, estuary
shoreline, and other significant natural resources. Such non-
infringement areas should separate these areas from afl uses by a
minimum 50- 100 foot zone. Non-infringement areas should utilize both
buffers of undisturbed vegetation and structural and activity setbacks,
as appropriate, given the condition and resources of the site. Such
areas should be established for all zones and within the subdivision
regulations of each town.
(a) These requirements should apply to aff zones located within
the estuary watershed, exceptions may be made for water
dependent uses such as boating and yacht facilities, however,
these activities may be required to maintain non-infringement
areas as appropriate.
(b) The designation of buffer requirements and non-infringement
areas during the consideration of individual development pro-
posals should -be coordinated with appropriate state regulatory
programs.
B. Special Use Permit Requirements and Wildlife Habitat Protection
1. Special Use Permits are a class of uses requiring more intensive review in
order to ensure that, for the purposes of wildlife habitat protection, the
preservation of the significant natural features of the towns will occur. The
towns should identify as Special Uses within their zoning regulations activities
and other allowable uses which may result in a significant adverse impact due
to size, location, timing or other unique features.
2. Management Policies and Regulations
(a) The Town of Westerly should incorporate the Special Use Permit
requirements from the Town of Stonington Zoning Ordinance into its
revised zoning ordinance. The section should require, at a minimum:
1. Statements of environmental impact,
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2. Reports on water supply and sanitary water facilities, site
drainage, erosion control, and traffic circulation,
3. Special drainage evaluations byprofessional engineers as may
be required,
4. Flood hazard reports or base flood information,
5. Provisions for the preservation of significant environmental
features, including, but not limited to, use restrictions on
significant natural resources.
(b) The section should provide the Zoning Board of Review with the
ability to approve, modify or deny the Special Use request, and exercise
the following minimum abilities:
1. Set extra buffer requirements ranging from 50-100 feet for
fragile environmental features, in coordination with RICRMC or
RIDEM requirements,
2. Require consideration of alternatives andmitigating measures,
3. Require special site plan design features necessary to
minimize adverse impacts on the environment,
4. Change the time of operation or intensity of use of a site;
5. Follow requirements established by RICRMC or RIDEM
reviews.
(c) The section should encourage the review and comments of the
Conservation Commission in a# Special Use requests.
420.5 Dredghta Mana-gement
A. Dredge Windows, Operations Scheduling and Interstate Notification
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Figure 4-7
q
"pa" 44
)'ICO,
TUCK POINT
DEMARCATION LIW__,
4ETTY
WATCH HILL COVE
PAWCATUCK RIVER/LITTLE NARRAGANSETT BAY
BOUNDARY DEMARCATION FOR DREDGE WINDOWS
N
0 Km I Km A LI: EXT'ND" FROM PAWCATM POINT
To T I I TO T C ILL COVE
SEPARATE:TT ME WEST 01 14T "
0 Mlle3 'I mle RIVER AND &AT DREMING AREAS
.1 dl
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1, Ongoing dredging operations necessary to maintain channels and marina
facilities potentially conflict with the estuary's role as a spawning, residence
and migratory fisheries area. Restrictions on timing, number and conduct of
dredging operations are necessary to prevent impacts to fisheries resources.
Additionafly, the interstate coordination of dredging operations should be
strengthened.
2. Management Policies and Regulations
(a) A# dredging operations within the Pawcatuck River estuary and
Little Narragansett Bay, within the limits defined in Figure 4-6, should
be restricted and conducted solely during the following periods in order
to avoid impacts to fisheries resources within the estuary.
1, Within Little Narragansett Bay, between September 1 and
January 30,
2. Within the Pawcatuck River estuary, between November 1
and January 15.
(b) Afi dredging operations must be completed during this period;
operations which cannot be completed during this period must be
conducted during sequential seasons. However, approved projects may
extended for a period of up to two weeks upon approval by both the
OLISP and RICRMC.
(c) Afl applications for dredging operations shaflbe submitted in a timely
fashion such tha t a# necessary appro vals are "in-hand " b y June 1 prior
to the first season in which the applicant wishes to dredge. The
RICRMC and OLISP shall meet and decide upon an allowable number of
dredging operations which may be conducted that season, with advice
and comment from the state fish and wildlife and water quality divisions
of the Rhode Island Department of Environmental Management and
Connecticut Department of Environmental Protection.
(d) The RICRMC and OLISP should exchange notices and final copies of
all permits issued for dredging operations within the Pawcatuck River
estuary and Little Narragansett Bay, andintegrate the abovepolicies and
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Figure 4-8 Migration and Spawning Times for Shel 1 and Finfish Species in the Pawcatuck Estuary*
DREDGING RIVER BAY ALL DREDGING BAY ALL DREDGING ALLOWED ALLOWED IN
ALLOWED IN: AND BAY ONLY PROHIBITED ONLY PROHIBITI-,.D IN BAY ONLY BAY AND RIVER
shellfish spawning
FISH >
winter flounder spawning w.flounder adults
MOVEMENTS
< >
AND blueback adults blueback juveniles
SPAWNING < I -> <
alewife adults alewife juveniles
PERIODS
KEY Bhad/blueback spawning
spawning shad adults shad juveniles
upstream movement alewife spawning
downstream movement smolts
salmon adults salmon adults
Month 1/1 - 1/16 - Feb. Mar. Apr. May June July Aug. Sept. Oct. Nov. Dec.
1/15 1/31
A line extending from Pawcatuck Point across the mouth of Watch Hill Cove separates river and bay zones.
The river zone shall include the Federal Navigational Channel where it extends into Watch Hill Cove and where it
extends up the Pawcatuck River
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restrictions within all maintenance or general permits issued within the
estuary.
(e) The RICRMC and CTDEP should formalize these policies in a joint
letter of agreement. (Appendix B)
Section 420.6 Future Research Needs
A. Building a Foundation for Ecosystem Protection
1. A major commitment to the conservation of entire ecosystems, rather than
restoration efforts for individual species, is needed to protect the health of
aquatic, wetland and upland wildlife habitats in the Pawcatuck River estuary
and Little Narragansett Bay. Protection of entire communities requires long
term commitments to habitat management, and results in more permanent
protection than isolated recovery efforts. Protection of entire ecosystems also
promotes intraspecies preservation and land conservation, both important
components of bid-diversity.
2. As part of the continued implementation of an estuary-wide protection
approach, long term monitoring programs are needed to preserve the diverse
native wildlife resources of the estuary. Such programs should be designed to
provide baseline status information for accurate assessment of changes in fish
and wildlife populations and habitats. This would provide sound information
upon which to evaluate recovery efforts for individual species, andassesses the
effectiveness of protection policies.
3. While inventories and assessments of the living resources of the estuary
may serve as valuable indicators of the health of the estuary's ecosystems,
they also demonstrate the extent of actual restoration and protection work
needed. By focusing efforts on the entire Pawcatuck River estuary and Little
Narragansett Bay ecosystem, not only willindividual species bepreserved, but
so too will the whole communities and processes in which they evolved.
B. Monitoring
1. The Wood-Pawcatuck Watershed Association's River Captain and
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Watershed Watch Citizen's Volunteer Monitoring programs are presently
underway in the watershed of the estuary, the Pawcatuck River Harbor
Management Commission has promoted the establishment of, and funded, the
Watchdogs, a continuing by-state water quality monitoring program. These
programs monitor water quality parameters in the freshwater and estuary
portions of the Pawcatuck River, as we# as conducting shoreline surveys
determining vegetation, wildlife, land use, and potential problems. These
programs have been very helpful, as they can enhance monitoring activities
undertaken by state and research agencies, increase public enthusiasm and
understanding of the ecosystem, and build local support for necessary
corrective actions.
2. Management Policies and Regulations
(a) Current citizen monitoring programs should be expanded as an
effective compliment to state agencyprograms. An Estuary Monitoring
Coordinator should be appointed to help achieve consistency and
coordination between the various groups; RIDEM's Statewide Volunteer
Monitoring Coordinator should work with the groups as necessary to
achieve this. The town Conservation Commissions should be involved
in assisting in the development and implementation of monitoring
programs, these boards canprovide an invaluable link between municipal
government and the citizens monitoring program.
(b) The Bi-state Pawcatuck River Commission should coordinate joint
monitoring programs between interested citizens in Westerly and
Stonington.
(c) In addition to present monitoring programs, additional research
needs listed below are recommended:
1. Wetlands: Marsh plant and animal inventories, qualitative
assessments and descriptions of physical changes in wetlands
related to impacts of point and non-point discharges, monitoring
the effectiveness of habitat restoration projects.
2. Aquatic: The aquatic habitat of the estuary has never been
comprehensively inventoried and the location of habitats for
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various species should be identified, especially submerged
aquatic vegetation.
3. Upland. At present, no upland habitat inventory has been
undertaken and plant and animal inventories are needed.
(d) The recommended aquatic habitat inventory should be undertaken
as a join t project be tween the RIDEM, RICRMC and CTDEP, Connecticut
Department of Agriculture and the Stonington Shellfish Commission.
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"MM-
17,
CHAPTER V:
RECREATIONAL USES
�
510. FINDINGS OF FACT
510.1 Introduction
A. The Pawcatuck River estuary and Little Narragansett Bay are recreational resources
of regional importance. The beaches of Napatree Point and Sandy Point, the open
waters of the bay and the recreational boating facilities of the estuary all play an
increasing role in the quality of life within the area, building upon an extensive
historical relationship between the people of Stonington and Westerly and the estuary.
B. The number of users within the estuary has significantly increased, reflecting the
growth and changes in the populations of the towns, and the accessibility and
desirability of coastal recreation. The estuary is within an average two hour sailing
distance from large population centers of eastern Long Island Sound and is a popular
stop over of cruising vessels. The numbers of boats within the estuary itself have
grown by approximately 70% over the last ten years, providing access to the waters
for approximately 59,000 individuals in a single season. The waters off Napatree Point
are crowded with local and transient boaters throughout much of the summer, as is
the barrier island of Sandy Point. Passes to use the beach at Sandy Point were issued
to 353 families in 1989, in addition to individual and daily use passes. The anchorage
at Watch Hill harbor has expanded to capacity in recent years, to the exclusion of
many transient boats and necessitating the establishment of a waiting list for space.
The boat launching ramp at Barn Island Wildlife Management Area is the fourth
most-popular in the entire state of Connecticut, and averages 200 launches per
weekend day. Additionally, the improvements in water quality have renewed an
interest in recreation centered within the Pawcatuck River estuary itself; expanding
canoe use of the upper Pawcatuck system is spilling over into the estuary, bringing
new, low-intensity users seeking access and open waters.
C. The growing amount of recreational use within the estuary has raised concerns
among the public, municipal officials and state management agencies about the need
for increasing levels of active management. The large numbers and diversity of
recreational users within the estuary inevitably result in some incompatibility and
conflict among them, and with the basic, shared objective of environmental protection.
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510.2 The Estuary as a Regional Recreational Resource
A. There are 22 boating facilities located within the study area that provide permanent
slip and mooring space for over 1,737 vessels. These facilities provide the boating
public with access to the water for fishing and sailing and provide services such as
transient dockage, boat launching, boat hauling and storage, charters-rentals, bait and
tackle, water, electricity and other services. Moorings not associated with these
boating facilities account for 188 additional berth spaces: totaling approximately 1 925
berth spaces in the estuary.
B. The study area is a popular cruising stop for day trips and vacations, as boaters
drop anchor at Napatree Beach and Sandy Point, or request transient berth space at
the marina facilities.
C. Extensive and various activities are concentrated in Little Narragansett Bay
throughout the summer season. The area is a popular spot for boating, recreational and
commercial fishing, sailing, and swimming, sunbathing, and beachcombing (McNiel;
Steadman; CT Shellfish Commission; Carpenter; 1989).
D. The study area is located generally north and west of Block Island Sound, and east
of Fisher's Island Sound and Long Island Sound. Each supports many activities,
including commercial and recreational fishing, and sailing.
E. Block Island is located approximately 20 miles southeast of the study area and is
one of. Rhode Island's most popular tourist and recreational boating ports. The Great
Salt Pond of Block Island supports over 2000 boats on busy summer weekends (New
Shoreham Draft HMP, 1990); vessels from NY, CT, Rl, MA and beyond travel by water
to spend their vacations here. The Great Salt Pond is home to over 500 boats from
which it may be inferred that over 1500 vessels, or 75%, are transient. Marine
industry persons interviewed for this study have expressed that many of the vessels
home-ported within the study area boundaries travel to Block Island for day and
overnight trips (Pichette; Steadman; 1989).
510.3 Low Intensity Recreational Uses
A. The Pawcatuck River estuary and Little Narragansett Bay support many diverse
low-intensity uses such as fishing, swimming, use of the barrier beaches, and small
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boat use. The popularity of these pastimes, and the numbers of people engaged in
them have significantly increased over the last several years. Napatree Point, Sandy
Point and the Barn Island Management Area are all significant regional centers for this
type of recreation; the Pawcatuck River estuary is enjoying a renaissance of use.
B. These low intensity uses are increasingly often in competition and conflict with
other, more intensive uses of the estuary, such as marina development, power boat
use, and development-associated pressures of increasing numbers of people. The need
for open water space, shoreline access and protection from interference from other
uses are all issues surrounding the use of the estuary for low-intensity activities.
C. The increase in the numbers of boats within the estuary, as well as the increased
use of the area on a regional basis, have put growing numbers of various types of
users into an evermore crowded waterbody. While several of the newer marina
facilities have been located in areas which were once open waters, the trend towards
redevelopment of older facilities has minimized the direct conflict between uses.
However, the ultimate increase in the numbers of people using the waterways has lent
to a definite change in its character, and of the quality of many activities, especially
during the peak periods on weekends and holidays. Additionally, the use patterns on
the estuary result in highly concentrated centers of activity in the areas on and around
Napatree Point-Watch Hill, Sandy Point and the Pawcatuck River estuary proper; areas
which have been identified as environmentally sensitive.
D. General public access to the estuary is limited by the small amount of public lands
within the planning area. Most direct access comes through the commercial marinas
and the Barn Island boat ramp. Much of the upper portion of the river, within easy
reach of the urban sections of Pawcatuck and Westerly, is hidden behind commercial
uses lining the riverbanks, areas generally ill-suited for public use even if accessible.
Watch Hill, with the open expanse of Napatree Point, is of restricted accessibility due
to a lack of parking.
E. The improvements in water quality within the estuary have encouraged increased
low-intensity uses further up the Pawcatuck River estuary. Fishing in the river is a
common activity, capitalizing on the return and improvements of the estuary's
fisheries. Fishing is approached from a variety of spots within the estuary: by small
boat, in the surf, and from banks, bridges and piers. Access for fishermen, usually in
small trailered boats, makes an important contribution to the local economy.
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F. Recreational shelifishing is an activity, which although restricted within the estuary
due to continuing bacterial pollution problems, enjoys strong local interest and support.
The Stonington Shellfish Commission has undertaken extensive efforts to secure the
certification of the waters of Little Narragansett Bay as open for recreational harvest,
unfortunately without success.
G. Small boat use within the Pawcatuck River estuary is increasing in popularity. The
broad, open stretches of river provide protected areas for small sailboats, sail training
and canoeing in increasing numbers.
510.4 Marina Develooment and In-Water Structures
A. Facility Siting and Growth Management
1. In 1989 there were a total of 1925 berths (either slips or moorings) within
the study area. Most of these (1837) are associated with the 22 marina
facilities within the estuary region (Figure 5-1)(Table 5-1).
2. The Pawcatuck River estuary is one of the most significant centers for
recreational boating in Rhode Island, as well as regionally. The highest
percentage of boats at marina facilities in the estuary (1443) was found on the
Pawcatuck River itself. Between 1979 and 1989 approximately 654 new
spaces were added to the planning area, including the construction of 4 new
marinas (Figure 5-2) (Tables 5-2 & 5-3). Much of this construction and
increase involved expansion and enlargement of older facilities to accommodate
newer and larger vessels. The commercial marinas within the estuary serve as
a major point of access to the open water of Little Narragansett Bay and
beyond, as well constituting as a significant local industry.
3. The Pawcatuck River estuary contains 17 of the 22 marinas found within
the study area which support 1493 boats. The increase in the numbers of boats
within the area, and particularly the Pawcatuck River estuary, has been
relatively rapid. interviews with local harbormasters indicate that the increased
numbers of boats pose some concerns about boating safety, especially during
peak use periods such as weekends and holidays. The estuary's use primarily
as an origination port gives it some unique characteristics, which are influenced
by the distribution of vessels by number, size and type throughout the estuary.
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Figure 5-1
Pawcatuck River Boatyard 4D
The River Company 19 Viking Marina
Conner's & O'Brien 40 Pier 65
NorWest Marine *Westerly Marina
Wequetequock Cove ORiverbend Marina
Boat Company
Whewell's Marine
Coveside Marina
Stonington-on-the-River Weste rly Yacht Club
CU
Ali
Greenhaven Marina
Gray's Boatyard
Cove Edge Bai t & Tackle
Sandy Point Frank Hall Boatyard
Lotteryville Marina
Avondale Boatyard
Little Narragansett Bay Q
0
d
Watch Hill Boatyard
atc Hill Fire District Docks
Napatree Point Watch Hill Yacht Club
RECREATIONAL BOATING FACILITIES
N
I Knn 2 Krn
0 Miles I mile
Data sources: laGIS and CT DEP
Map design: WC
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Table 5-1
Berthing Space in the Estuary
1989
Dry Boat
Recreational Boating Facility slips. Moorings Racks Launching
(North to South) RampB
Wequetequock Cove
Wequetequock Cove Boat Co. 47 0 0 0
Whewell'B Marine 50 0 0 1
Coveside Marina 150 0 0 1
Pawcatuck River
Pawcatuck River Boatyard 0 0 0 0
The River Company 27 0 0 1
Conner's & O'Brien 83 0 110 1
Norwest Marine 136 0 0 0
Stonington-on-the-River 102 0 0 0
Greenhaven Marina 65 12 0 1
Viking Marina 52 0 0 1
Westerly Marina 40 0 0 1
Pier 65 22 0 0 0
Riverbend Marina 22 0 0 0
Westerly Yacht Club 205 10 0 1*
Gray's Boatyard 69 4 0 1
Cove Edge Bait & Tackle 47 4 0 1
Frank Hall Boatyard 110 18 0 0
Lotteryville Marina 75 20 0 1
Avondale Boatyard 96 6 0 0
Watch Hill Boatyard 81 27 0 1
Little Narragansett Bay,
Watch Hill Docks 22 0 0 0
Watch Hill Yacht Club 20 5 0 0
SUBTOTALS 1521 106 110 12*
Recreational Boating Facilities Berthing Space SUBTOTAL 1737
Private Moorings (Watch Hill Cove) 100
Private Moorings (Pawcatuck River) 88
TOTAL BERTHS 1925
All Numbers from PEIMP Boating Questionnaire, 1989; Harbormasters; or, from
Site Visits Conducted October/November 1989.
The Westerly Yacht Club Boat Launching Ramp is for member's only use.
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Figure 5-2
Growth in the Availability of Commercial Slips and Moorings
1050 -
955
900 -
782
750 -
624
600 -
461
450
300
150
...............
0
1979 1989 1983 1989
Westerly Stonington
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Table 5-2
Growth of New Marina Facilities
Westerly
1979-1989
1979 1989
Viking Marina (Cardone's) Viking Marina
Pier 65 (Trebisacci's) Pier 65
Westerly Yacht Club Westerly Yacht Club
Gray' Boatyard Gray's Boatyard
Cove Edge Bait & Tackle Cove Edge Bait & Tackle
Frank Hall Boatyard Frank HAll Boatyard
Lotteryville Marina Lotteryville Marina
Avondale.Boatyard Avondale Boatyard
Watch Hill Boatyard Watch Hill Boatyard
Watch Hill Fire District Docks Watch Hill Fire District Docks
Watch Hill Yacht Club Watch Hill Yacht Club
Westerly Marina
Riverbend Marina
TOTALS TOTALS
1979: 11 1989: 13
Stonington
1983-1989
1983 1989
Pawcatuck River Boatyard Pawcatuck River Boatyard
The River Company (Arnold's) The River Company
Conner's & O'Brien Conner's & O'Brien
Stonington-On-The-River (Miner's) Stonington-on-the-River
Greenhaven Marina Greenhaven Marina
Wequetequock Cove Boat Company Wequetequock Cove Boat Company
Coveside Marina Coveside Marina
Norwest Marine
Whewell's Marine
TOTALS TOTALS
1983: 7 1989: 9
Sources: Collins, et. al., 1979
Auble, et. al., 1983
PEIMP Boating Questionnaire, 1989
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Table 5-3
Growth in Capacities of Recreational Boating Facilities
1979 to 1989
Source Slips and Moorings
Recreational Boating CRC CT MAS CRMC Total
Facility 1979 1983 1989 Net Gain
Viking Marina (Boatman) (50 0) 52 0 + 2
Westerly Marina 40 0 + 40
Pier 65 (Treb's) (33 0) 22 0 - 11
Riverbend Marina 22 0 + 22
Westerly Yacht Club 165 0 205 10 + 50
Gray's Boat Yard* 18 0 69 4 + 55
CoveEdge Bait & Tackle* 6 0 47 4 + 45
Frank Hall Boat Yard 50 10 110 18 + 68
Lotteryville Marina 75 0 75 20 + 20
Avondale Boat Yard 40 80 96 6 - 18
Watch Hill Boat Yard 50 0 81 27 + 58
Watch Hill Docks 12 0 22 0 + 10
Watch Hill Yacht Club 15 18 20 5 - 8
Pawcatuck R. Boat Yard 16 0 0 0 - 16
The River Company(Arnold's (40 0) 27 0 - 13
Conner's & O'Brien 70 0 193# 0 +123
Norwest Marine 1 136 0 +136
Stonington-on-the-River,.Iiner's) (66 0) 102 0 + 36
Greenhaven Marina 60 12 65 12 + 5
Wequetequock Cove Boat 47 0 47 0 0
Whewell's Marine 50 0 + 50
Coveside Marina 150- 0 150- 0 0
TOTALS 514 108 449 12 1631 106 +654
110 Dry Rack Spaces Included
Only 150 slips in water, yet identified as 240 in CT MAS study
Sources: Collins, et. al., 1979 (* With revisions)
Auble, et. al., 1983
PEIMP Boating Questionnaire, 1989
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4. The majority of the boating traffic is involved in getting in and out of the
river as quickly as possible, travelling between the marinas and Little
Narragansett Bay. The character of the traffic pattern is influenced by two
major factors: the distribution of approximately 27% of the total number of
slips within the northern section of the river and the physical configuration of
the river (Table 5-4). The concentration of large power boats as well as the
greatest number of boats up river creates a traffic pattern in which the greatest
amount of travel time is required by the largest number of boats.
5. The shallowness of the river outside the channel confines the majority of
larger vessels to the federal channel. Therefore, potential conflicts and safety
problems tend to be centered around the channel area itself, and in areas where
structures are close to the channel. As the numbers of boats within the river
has increased, greater amounts of traffic must utilize the existing, restricted
channel and those areas adjacent to it with sufficient water depth to support
navigation.
6. Marina operators have reported that at peak use periods (weekends and
holidays), on average, 50% of the boats berthed within the estuary are in use,
a traffic load which has increased with the expansion of facilities.
7. The lack of speed zones outside of marina areas, the common convergence
points of the Pawcatuck River estuary and Sandy Point, the narrow channel
within the river and overall restricted navigation conditions within the study
area contribute to potential boating safety problems created by the numbers of
boats.
8. The marina development patterns within the estuary are determined by a
combination of physical limitations, historical land use, and local and state
management programs. The Pawcatuck River's hydrography has tended to
focus marina development into historical use areas and expansion of existing
facilities, primarily due to extensive dredging requirements necessary to attain
basins of adequate depth and consequent operational and regulatory costs.
These areas also generally reflect established land use patterns of higher
intensity industrial and marina areas interspersed with low density residential
areas. Both these factors have been reinforced by municipal zoning
designations, and the policies and requirements of the state coastal
management programs.
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Table 5-4
Inventory of Berthing Space Types by Area
Pawcatuck River Subsections
Total Sail/Power Under/Over Occupancy
SECTION Berths M 25 ft Rate
NORTH
Pawcatuck River Boatyard 0 0 0
Viking Marina 52
Westerly Marina 40 0/100 35/65 75
The River Company 27
Conner's & O'Brien 193 <43/57# >57/43#
Pier 65 22 10/90 10/90 60
Riverbend Marina 22 0 0
Norwest Marine 136 10/90 10/90 28
SUBTOTALS 492 7% Sail 18% Under 54%
CENTRAL
Westerly Yacht Club 215 20/80 50/50 30
Stonington-On-The-River 102 50/50 10/90 50
Gray's Boatyard 73 30/70 99/1 60
Cove Edge Bait & Tackle 51 2/98 100/0 80
SUBTOTALS 441 26% Sail 65% Under 55%
AVONDALE/GREENHAVEN
Frank.Hall Boatyard 128 60/40 25/75 70
Lotteryville Marina 95 10/90 50/50 28
Avondale Boatyard 102 50/50 10/90 30
Greenhaven Marina 77 40/60 75/25 60
SUBTOTALS 402 40% Sail 40% Under 47%
SOUTH
Watch Hill Boatyard 108 25/75 40/60 59
SUBTOTAL 108 25% Sail 40% Under 59%
TOTALS 1443 26% Sail 43% Under 52%
Source: PEIMP Boating Questionnaire, 1989; Site Visits Conducted Oct/Nov 1989.
Could not be determined
These figures are considered to be inconclusive due to the substantial percentage of in-water small boats (<25 feet) that
were noticed at The River Company and Conner's & O'Brien marinas during site visits in October/November 1989. 110 berth
spaces at Conner's & O'Brien are Dry Rack Storage for powercraft vessels under 25 feet. The actual numbers could not be
determined as each did not respond to the boating questionnaire nor could be reached through repeated telephone calls.
Note: Occupancy Rates for High Use Summer Weekend Days.
Occupancy Percentage Rate means the amount of time a boat is in use according to RI DEM policy and/or regulation.
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9. The municipal and state regulatory and management programs have directed
the majority of marina development within the planning area into the Pawcatuck
River estuary, building upon the already established patterns of land use and
existence of older marina facilities. The Rhode Island Coastal Resources
Management Program (CRMP) identifies marina development in the Pawcatuck
River estuary as a primary goal for the northern region off Margin Street;
policies governing marina use in Avondale establish the maintenance and limited
expansion of existing facilities as allowable; and Watch Hill Harbor is identified
as a "Commercial and Recreational Harbor." The zoning ordinances for the
Town of Stonington and the Municipal Coastal Management Program have
established Marine Commercial zones solely within the Pawcatuck River, while
making existing marina facilities within Wequetequock Cove non-conforming
uses, and thereby making potential expansion more difficult. The Connecticut
Coastal Management Act has explicit and aggressive non-preemption policies
requiring the maintenance and protection of water dependent facilities,
reinforcing the direction established by the zoning ordinance.
10. Areas within the estuary which have been designated for commercial
marina development under the Stonington zoning ordinance and the RICRMP
are, generally, currently occupied and utilized. Future in-w'ater marina growth
will be dependent upon the maintenance of the existing management
designations, focused within these areas, relatively limited in scope, and
dependent primarily on seaward expansion, reconfiguration and significant
improvements in efficiency of use of space. The most significant exceptions
to this include the site where the Riverbend Marina is currently located, which
has been approved for a substantial increase in slips (from 22 to 106), which
has not been undertaken yet, and Watch Hill Cove. However, the Stonington
Zoning Ordinance allows the development of boating facilities (up to 10 boats)
and yachting facilities (no limitation on boat numbers) within any zoning district
along the estuary.
11. The river's physical configuration and controlling depths, and that of
Wequetequock Cove, dictate that new site development for marinas or
substantial expansions outside of existing areas can only be accomplished with
significant dredging. Such operations raise important ramifications for the role
of the estuary as a valuable habitat for numerous fish species and other marine
and estuarine organisms. Widespread dredging of currently unaltered areas
may have a deleterious cumulative impact on the estuary's functions as a
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nursery, overwintering location and habitat. The areas most critical to these
functions would be those most significantly altered by improvement dredging
and other marina-related shoreline alterations, including shallow near-shore
areas, coves and inlets and other subtidal habitat areas. Additionally, many
currently undeveloped areas suitable for marina development are close to the
site of isolated wetland systems. Past development practices have commonly
sited marina operations adjacent to, or within, wetland areas within the estuary.
The isolated and dispersed nature of the wetlands systems within the
Pawcatuck River estuary increases the likelihood of not only increased
site-specific impacts from expanded marina development, but of potential
ecosystem-wide impacts.
12. Marina development within the study area has generally utilized areas of
historic use, or revitalized older industrial sites. The general distribution of the
marina concentrations follows that of other land uses; the marinas are
concentrated in three "nodes" within the Pawcatuck River estuary, and in
Wequetequock Cove and Watch Hill Cove. Residential areas are in close
proximity to the marina development concentrations, often raising concerns
among neighbors about overflow impacts associated with parking, maintenance
operations and other impacts occurring when the capacities of upland support
facilities are exceeded.
13. Marina development within the study area takes place within the context
of many other uses and environmental characteristics. The public has
expressed concerns that the observed rapid increase, and potential future
growth, of commercial marinas and recreational boating uses areas might
overwhelm and alter the unique character of the Pawcatuck River estuary and
Little Narragansett Bay. The environmental quality of the area is very much an
expression of the mix of uses that it supports, balancing its roles as an
important recreational harbor, wildlife habitat and place to live; there is
widespread sentiment that growth management should focus on preserving
these qualities.
14. Potential growth in the numbers of boats within the study area was
examined by estimating different potential expansion levels for each facility
within the estuary (Table 5-5); these figures provide some indication of
potential boat numbers. Additionally, other criteria which place boundaries on
facility expansion were recorded through an operator-oriented survey, including
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Table 5-5
Expansion Possibilities of Existing In-Water Structures
at Recreational Boating Facilities
1989
Recreational Present In-Water Expansion Possibilities
Boating Capacities
Facility (Slips & Moorings) 10% 25%
Wequetequock Cove
Boat Company 47 52 59
Whewell's Marine 50 55 63
Coveside Marina 150 165 188
Pawcatuck River
Boatyard 0 0 0
The River Company 27 30 34
Conner's & O'Brien 83* 91 104
Norwest Marine 136 150 170
Stonington-on-
the-River 102 112 128
Greenhaven Marina 77 85 96
CT Subtotals 672 740 842
Viking Marina 52 57 65
Westerly Marina 40 44 50
Pier 65 22 24 28
Riverbend Marina# 106 117 133
Westerly Yacht Club 215 237 269
Gray's Boatyard 73 80 91
Cove Edge Bait 51 56 64
Frank Hall Boatyard 128 141 160
Lotteryville Marina 95 105 119
Avondale Boatyard 102 112 128
Watch Hill Boatyard 108 119 135
Watch Hill FD Docks 22 24 28
Watch Hill YC 25 28 31
RI Subtotals 1039 1144 1299
Estuary Totals 1711 1884 2141
Dry Rack Storage Data Not Included
Marina facility currently has 22 slips; Figures Used for Expansion
Possibilities are based on the recent RI CRMC-Assented slip figure of
e
106. This Assent is valid to any buyer of the marina for the next thre
(1989 to 1992) years.
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available parking spaces (Table 5-6) and the distribution of usable-shoreline to
shoreline-in-use at the facility (Table 5-7). And finally, the numbers of existing
private residential docks were calculated, and an estimate made of potential
sites which might support future structures (Table 5-8).
15. With a 10 percent increase in total berths available at commercial marinas,
either through slips or moorings, 173 additional spaces could be added to the
estuary; with a 25 percent increase, 430 additional berthing spaces could be
added. However, the parking standards imposed by the Town of Stonington
and the State of Rhode Island on the marina operations have a significant
limiting influence on expansion possibilities. Therefore, an estimated potential
growth in the numbers of boats at commercial marinas within the estuary is not
unconstrained; it can be assumed to be somewhere below the total estimates
for each scenario, that is, between 121 and 283 additional vessels. The
growth in vessels at moorings cannot be estimated due to the lack of a formal
management program by either town, and the absence of designated mooring
areas which might establish boundaries on utilized areas.
16. In addition to the constraints imposed by parking requirements, many of
the marinas within the estuary are currently utilizing significant portions of the
available shoreline at their facilities. This indicates that most facilities do not
currently have significant shoreline areas available to them for expansion;
additionally, not all available shoreline is considered suitable due to resource
constraints (wetlands) and other factors.
17. The potential increase in the numbers of boats at residential docks was
estimated based upon an inventory of total residential building lots within the
estuary and total existing docks; it was generally assumed that each residential
lot which did not currently contain a dock might in the future, as is allowed
under the current regulations of each state. Using this methodology, the
estimates indicate that 270 additional residential docks could be constructed
within the estuary (Table 5-8). Since more than one boat is often berthed at
each dock, this represents a potentially significant increase in the numbers of
boats within the estuary.
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Table 5-6
Ratio of Parking Spaces to Total Berths at Marina Facilities 1
1989
Parking Total Parking to Berth
Marina Facility spaces Berths Ratio
Westerly Marina 150 40 3.75
.Pier 65 60 22 2.73
Norwest Marine 200 136 1.47
Stonington River 190 102 1.86
Westerly Yacht Club 300 215 1.40
Cray's Boatyard 100 73 1.37
Cove Edge Bait & Tackle 65 51 1.27
Frank Hall Boatyard 100 128 0.78
Lotteryville Marina 49 95 0.52
Avondale Boatyard 102
Greenhaven Marina 100 77 1.33
Watch Hill Boatyard 153 108 1.42
Watch Hill FD Docks 25 22 1.14
Watch Hill Yacht Club n/r 25
Weq. Cove Boat Company n/r 47
Whewell's Marine 75 50 1.50
CoveBide Marina 200 150 1.33
Averages (14 Responding) 126.2 (14) 90.6 (14) 1.4 (14)
Source: PEIMP Boating Questionnaire, 1989. (Self-reported data; not for
regulatory purposes.)
1 NOTES-
A) Parking Spaces for Westerly Yacht Club includes member's use also;
B) Parking Spaces at commercial marinas are seasonal use: these spaces are
occupied by boats for storage in the off-season;
C) Boatyards and marinas that include retail business require parking space
for that usage;
D) Boat trailer parking spaces are not accounted for here.
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Table 5-7
Available Shorefront Footage Suitable for Future Use at Marina Facilities*
Linear Linear Footage Suitable
Marina Facility Shorefront Footage Footage in Use for Future Use
Westerly Marina 680 200 300
Westerly Yacht Club 900 900 0
Gray'B Boatyard 350 250 0
Cove Edge Bait 200 50 150
Frank Hall Boatyard 400 400 0
Lotteryville Marina 280 280 0
Avondale Boatyard (40,000sf) (40,000sf) 0
Watch Hill Boatyard 600 426 174
Watch Hill FD Docks 2,000 600 0
Watch Hill Yacht Club 240 240 0
Wequetequock Cove Boat Co. 160 n/a
Whewell's Marine 310 115 0
Coveside Marina 750 563 187
Totals 6,870' 4,024, 811,
only Those Facilities Responding to Questionnaire
n/a Not Available
Source: Pawcatuck Estuary Interstate Management Project. Recreational Boating
Questionnaire. October/November 1989.
Table 5-8
Buildout Analysis of Residential Docking Facilities
WESTERLY
Total Residential Building Lots*: 174
Total Existing Residential Docks*: 38
Potential Additional Residential Docks: 136
STONINGTON
Total Residential Building Lots* (Pawcatuck River): 109
Total Residential Building Lots* (Wequetequock Cove): -49
Total Existing Residential Docks: -24
Potential Additional Residential Docks: 134
TOTAL Potential Additional Residential Docks in Estuary: 270
Privately-Owned Lots Only: Does not include Town\State\Federal
properties, nor marina facility lots
Source: 1988 Rhode Island Planning Aerial Photographs, and Site Visits, 1990
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18. Comparison between the expansion potential of commercial marinas and
residential docks indicates that both categories present the ability to add
significant numbers of boats to the estuary; there is potential for a greater
proportional contribution from residential docks than commercial marinas.
B. The Relationship of Structures to the Channel
1 . The Pawcatuck River estuary is extremely narrow in sections, and
structures often extend into the river to a short distance from the channel.
These areas, in and around the marinas, are also the site of a great amount of
the boating activity, with vessels leaving and arriving from the facilities as well
as transiting the area. Due to the presence of the federal channel, this same
zone is an area within which dredging equipment would operate should
maintenance dredging be undertaken.
2. The issue of growth of recreational boating and facilities development is tied
closely to the condition and navigability of the federal channel. The loss of
water depth at the outer edges of the channel, coupled with the high use rates
and numbers of boats on the estuary during peak periods, contribute to the
creation of the observed congested traffic pattern. Important secondary
impacts arising from this situation may include the necessity of limiting the
numbers of boats utilizing the estuary (primarily the Pawcatuck River) to ensure
safe boating, as well as to create a demand for expansion and dredging of the
federal channel. Dredging decisions should entail consideration of the costs to
the local sponsors, either the states or the municipalities, as well as operational
concerns such as disposal options and environmental impacts.
3. The United States Army Corps of Engineers (ACE) has established guidelines
which call for a setback of structures and activities from federal improvement
projects, such as the navigation channel, of three times the project's authorized
depth. In addition, these guidelines call for structures not to extend more than
25 percent of the total width into a linear waterway. The majority of the
marinas sited within the northern section of the Pawcatuck River estuary have
structures which currently extend into this setback (Table 5-9). This is due
primarily to the fact that these facilities were constructed prior to the adoption
of the guideline. The former regulatory approach focused on insuring the
protection of the designated channel area itself, and structures were commonly
permitted up to its limits. While the new standard has created a number of
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Table 5-9
Distances of Structures from the Federal Channel
Distances of Structures From Federal Channel*
Viking Marina: 10 feet
Westerly Marina: 25 feet
Pier 65: 1 Dock in Channel
The River Company: 25 feet
Conner's & O'Brien Eastern Dock Structure in Channel
Norwest Marine: 2 Docks w/in ACE Setback Area
(Apprx. 10 & 25 Feet from Channel)
Riverbend Marina: 5 feet (Existing dock structure)
Stonington-on-the-River: Approximately 50 feet from Channel
(Photo analysis inconclusive)
Westerly Yacht Club: Moorings close to Channel
Frank Hall Boatyard: Moorings close to Channel
Greenhaven Marina: Moorings close to Channel
Avondale Boatyard: Moorings close to Channel
Derived from previously submitted coastal agency permit applications
and/or from aerial photography interpretation.
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11nonconforming" structures within the estuary, it is a more appropriate
standard given that the channel conditions and levels of boating activity in
these areas may exceed the capacity for safe operation.
4. Neither state management program currently utilizes an explicit setback
standard from the channel in relation to commercial facilities, although
performance standards pertaining to potential impacts to navigation are
employed; the lack of established regulatory setbacks in relation to commercial
structures and the channel has led to inconsistent application of the
performance standards and determinations as to what constitutes interference
with navigation.
5. Regulation of the extension of private, residential structures is usually more
explicitly outlined; it is the current policy of the State of Connecticut to
promote the use of short residential docks, in conjunction with a mooring where
possible, however no explicit standards are utilized. The State of Rhode Island
has established a standard 50 foot length from Mean Low Water (MLW) for
residential docks, or extension to 25% of the distance across the waterbody,
which ever is less.
C. The Use of the Water Surface
1. The concentrations of structures in discrete areas around the estuary acts
to preempt use for most other activities in that immediate area. Several of the
marina facilities have associated mooring fields, which extend the amount of
water area occupied by the operation. The separation of these areas from each
other along the length of the river, and in the coves off Little Narragansett Bay,
creates an alternating pattern of open water areas in which other low intensity
activities take place.
2. The water type designations system utilized by the Rhode Island CRMP and
the current zoning designations under the Stonington ordinance serve analogous
purposes and act to institutionalize the current pattern of in-water development
and open water spaces; the primary difference being that the Connecticut
program is a consequence of the zoning designations, and is not explicitly
established by the state-level structures regulatory program which exercises
primary, direct control.
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3. There are approximately 62 residential docks currently identified in the study
area. While the majority of these docks are found in the Pawcatuck River
estuary, it is possible, due to the current structure of both state's regulatory
programs, to locate a residential dock anywhere along the shoreline of the
study area, subject to resource protection policies.
4. Mooring placements have developed primarily due to available and
traditional access. In fact, most of the moorings in the study area are
associated with commercial marina operations, either through direct control
(at-marina moorings) or by marina servicing. However, mooring placements
have begun to occur in areas outside of these traditional areas, displacing other,
traditional low-intensity uses such as transient anchoring.
510.5 Alternative Access to the Estuary
A. Boat Launching Ramps
1. Launching ramps for smaller, easily trailered boats are one of the most
important types of access to the coastal waters of Connecticut and Rhode
Island. Eighty-three percent of all registered boats are under 22 feet in length
and considered to be easily trailered. Many of the boats utilizing the Pawcatuck
River estuary and Little Narragansett Bay are of this type. Easily trailered boats
have increasingly provided an economical alternative to the high costs of
boating and marina fees.
2. There is only one publicly-owned boat launching ramp located within the
study area, the Barn Island Management Area boat ramp, and it is the fourth
most popular boat ramp in the State of Connecticut. As it is the only public
boat launching ramp in the study area, it receives heavy use.
3. At the marina facilities in Stonington, there are at least five (5) boat ramps
are available to the public for a use fee.
4. There are no public boat launching ramps located in the marine waters of
Westerly. At the marina facilities, six (6) boat ramps are available to the public
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for a use fee. One, at the Westerly Marina, is free to all Westerly residents as
a lease agreement between the marina, which runs the operation on town land,
and the town. All are located in the Pawcatuck River estuary.
5. The only public boat launching ramp in the study area, Barn Island, is used
on average substantially more than the 11 boat ramps found at marina facilities;
200 average uses-day versus 4 average uses-day (Table 5-10). A number of
reasons might help explain why the launching ramps at the commercial marinas
are not used as much as the Barn Island facility including launch fees, the
condition of the ramps, availability of parking and the proximity of the ramps
to Little Narragansett Bay. The condition of the Barn Island public boat ramp
is better than most of the marina associated boat ramps. The Barn Island ramp
is also double width, whereas all of the marina facility's ramps are single width,
a safety attraction when launching boats.
6. Although fees could not be determined to be a major factor in the public's
launching boats at marina facilities, some marina operators felt that it may
contribute to the overall lack of use (J. Watsky, 1990). Other comments as to
why marina boat ramps are not used as extensively as the Barn Island facility
range from the fact that a boat owner would rather trailer his "investment" to
a ramp where the conditions do not pose a threat to damage the boat
(Medeiros, 1990), to parking availability (R. Hall, 1989), to travel time from the
ramp to a destination (Hetu, 1990).
7. Location of the boat ramps in the northern section of the river, poor
condition and parking availability at two marinas, interference with and
proximity of marina dock structures, and the potential for traffic accidents to
occur at the Mechanic Street marinas all contribute as potential reasons why
these boat ramps may not have been used at greater levels.
8. The four (4) boat ramps at marinas in the Avondale-Greenhaven section of
the Pawcatuck River estuary, including the two (2) from the central section,
have reported use averages of five (5) per day. Given that the conditions of the
ramps at these marina facilities range from bad (Lotteryville Marina) to good
(Greenhaven Marina; Gray's Boatyard), and parking at all but one (Lotteryville)
is adequate to handle roughly 8-10 cars-trailers, a reason for the increase in
average daily use at these ramps may be due to the fact that they are located
closer to Little Narragansett Bay.
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Table 5-10
Average Daily Use of Boat Launching Ramps
1989
At Marina Boat
Launching Ramps Uses Per Day Public Ramps Uses Per Day
Viking Marina na Barn Island 200
Westerly Marina 2
The River Company na
Conner's & O'Brien na
Gray's Boatyard 4
Cove Edge Bait & Tackle 5
Lotteryville Marina 1
Greenhaven Marina 5
Watch Hill Boatyard 8
Whewell's Marine 2
Coveside Marina 8
na Not Available
TOTALS: Boat Ramps Average Uses/Day
Private 11 4
Public 1 200
All numbers for marina data taken from PEIMP Boating Questionnaire, 1989.
All numbers for Barn Island facility taken from Kraska, 1990.
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9. The two marina facilities, Coveside Marina and Watch Hill Boatyard, that are
located closest to Little Narragansett Bay have reported average ramp use rates
of eight (8) per day: the highest use rates of all the marina-based ramps in the
study area. These boat ramps are also in good shape and are wider than most
(Coveside Marina in Wequetequock Cove, has two boat ramps separated by a
fixed pier). Each has adequate parking capabilities. Good ramp conditions,
adequate parking capabilities, and proximity to Little Narragansett Bay all
contribute to reasons as to why these boat ramps may be used more than other
marina boat ramps.
10. There appears to be a correlation between the condition of the boat ramps,
parking capabilities, and proximity to Little Narragansett Bay to the level of boat
ramp use at marina facilities. Additionally, as the distance from marinas to
Little Narragansett Bay decreases, those marinas with boat ramps, with few
exceptions, all tend to have increasingly better ramp conditions and parking
provisions. Most boat owners who trailer their boats to the water seem to be
attracted to the relative proximity to their destination, the condition of the
ramps and the associated parking capabilities.
B. Use Characteristics of Boat Launching Ramps
1. There is clearly a high demand for boat ramps within the Pawcatuck River
estuary and Little Narragansett Bay, as well as in the region generally. The
present level and condition of facilities does not seem to be adequate to meet
that demand.
2. The condition of the facilities at many the commercial marinas, parking
constraints and their proximity to Little Narragansett Bay appears to limit the
amount of use there, in comparison to the Barn Island ramp, and act to shift
much of the use to the publicly owned facility. The site constraints within the
northern section of the Pawcatuck River estuary appear to be greater than
those found at marinas farther south, contributing to the higher levels of use
observed at those facilities. Aside from the location issue, the constraints
observed, such as poor ramp conditions, are ones which may be addressed in
a relatively straight forward manner.
3. There are no access sites within the Pawcatuck River estuary which are
dedicated solely to light boat use, a growing activity within the area. This
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limits the interaction between the recreational use of the freshwater portion of
the system and the estuary. However, there are several sites which are
informally used for removing smaller boats from the estuary.
4. There are several opportunities to provide different levels of boat ramp use
within the estuary through public ownership and development, although
acquisition and development costs may be high.
5. Decisions concerning the siting and construction of new boat ramps must
be cognizant of a number of issues, including the location of such facilities
within residential neighborhoods, significant natural resource constraints to site
development and boating safety concerns. Of particular concern is the
contribution of additional boat ramps to existing boating levels, and the impact
on the quality of the recreational use of the estuary.
6. Increased levels of access to the estuary for small boats can be provided
through a mixed approach of improvements to existing commercial facilities and
limited public facility improvements and development.
C. Moorings
1. The use of moorings has become an increasingly popular alternative to
renting slips at marinas in recent years, in response to growing slip costs and
lack of available space. Coastal policies in both states have helped to promote
the use of moorings as a less intrusive alternative to permanent structures, and
indirectly through more stringent regulation of structures development. There
are no formally regulated mooring fields in the Pawcatuck section of the Town
of Stonington, nor in the Town of Westerly.
2. Accounting for all commercial and private moorings, there are a total of
approximately 294 moorings on the Pawcatuck River estuary.
3. Neither the towns of Stonington nor Westerly have a formal mooring
permitting system which registers each mooring, keeps a record of the
moorings in the study area, or collects fees. In addition to little formal control
over the placement of moorings, the lack of a formal program results in an
absence of guidance as to suitable locations from an environmental perspective,
no coordinated guidelines on allocation, access or location on the differing sides
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of the river, and misses the opportunity to recoup some of the costs of harbor
management through fees.
4. The lack of formally designated mooring areas also limits the ability to
predict future mooring levels. This is especially important as the physical
configuration of the estuary significantly limits the areas where moorings can
be placed, raising concerns about insuring equitable access to limited space.
Additionally, the future growth in moorings will contribute to overall levels of
boating on the estuary.
5. Access to moorings within the estuary is severely limited by the lack of
public access. The result has been that the majority of moorings within the
study area are associated with waterfront property owners, commercial marinas
and the Watch Hill Yacht Club; all entities controlling access to suitable mooring
areas.
6. The numbers of seasonal moorings placed in Watch Hill Cove have grown
considerably over the past few years; years ago there was room in the cove to
accommodate transient anchoring such as vessels entering the cove and
dropping their anchors for only a day or two at a time, or even only hours.
Today, there is no room to place additional moorings in the cove nor can
transient anchoring occur here (J. Hall, 1990). These moorings have effectively
eliminated any use of the cove by transient boaters. All transient boaters
wishing to anchor in or near Watch Hill must anchor off of Napatree beach.
Moorings would have to be removed to accommodate transient boats (J. Hall,
1990). Even more efficient mooring placements (i.e., bow and stern mooring
systems for one boat so that the vessel does not swing on an arc at the
mooring) would not alleviate this problem (Robinson, 1990).
7. The moorings in Watch Hill Cove are located in a federal project area, in this
case an anchorage area. Federal anchorage areas must, by definition, be
accessible to all the citizens of the United States on an equal and equitable
basis (U.S. ACE, 1990). This equal and equitable access issue is interpreted
by the ACE to mean equal access for allocation of the moorings as well as
equal and equitable access for parking to get to the moorings. The moorings
in Watch Hill Cove are open to all on a first-come, first-served basis (J. Hall,
1990) yet all but approximately two (2) belong to members of the Watch Hill
Yacht Club (Robinson, 1990). Moorings in the cove are usually "handed down"
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or "given over to the yacht club" (Robinson, 1990). Parking for these moorings
is privately controlled and available to general public use by fee only. Public
use and access to the anchorage area is also limited by the lack of public
shorefront property.
8. Outside of the moorings in Watch Hill Cove, the remaining moorings can be
found in the Pawcatuck River estuary (there are no moorings in Little
Narragansett Bay nor in Wequetequock Cove), and then, predominately, at
several marina facilities.
9. The current placement of these marina-associated moorings occurs in areas
adjacent to either side of the federal channel. This pattern of mooring
placement creates the potential for boating accidents. They also appear to be
in conflict with Army Corps of Engineers' (ACE) policies for structures placed
near the channel.
510.6 Boating Safety, Enforcement, and Harbormaster Coordination
A. Boating Safety
1. It is estimated that over 59,000 individuals accessed the estuary in 1989
through recreational boating facilities (Willis, 1991).
2. The Pawcatuck River estuary is the only area to have posted speed zone
and no wake designations. There are three (3) regulated areas, generally
located where there are concentrations of boats at slips and moorings.
3. Speed zones are not uniformly established between the two states. Rhode
Island has designated speed zones in the study area, while Connecticut has not.
4. While accidents are not overly common, increased usage of the estuary has
led to congestion on the waterways during high use periods.
B. Harbormaster Enforcement
1. The Westerly harbormaster, and any authorized assistant harbormaster, is
primarily responsible for the location and safety of all moorings in the waters
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off of the town, and is also responsible for enforcing boating safety and the
patrolling of Little Narragansett Bay and the Pawcatuck River. The
harbormaster also has the authority to enforce all state and federal laws.
2. The Town of Westerly does not currently conduct a mooring permit
program, nor are there formally designated and managed mooring fields.
3. The harbormaster's duties includes the patrolling of an extremely large and
widespread area, from the upper reaches of the Pawcatuck River estuary to the
open ocean areas south of Napatree Point. He additionally patrols west along
the state border near Sandy Point.
4. The Town of Stonington has two separate authorities for managing the
waters of the town: the harbormaster and the police department. These
authorities perform two very different tasks in the management of the estuary.
5. Harbormasters are appointed by the governor of the state and are under the
direction of the Commissioner of the Department of Transportation. There is
currently no state-appointed harbormaster for the Pawcatuck River estuary.
6. The harbormaster's general duties are derived from Connecticut state law
for the supervision of the waters of the town and the safe and efficient
operation of those waters. The harbormaster must exercise his duties in a
manner consistent with any state-approved harbor management plan adopted
by the town. Currently, the town does not have a harbor management plan for
the Pawcatuck River estuary, but has appointed a commission to develop one.
Also, the Commissioner of Transportation may delegate his powers and duties
to the harbormaster and Town Harbor Management Commission (HMC) as
authorized by Connecticut General Statute Section 15-1.
7. Within the Stonington Police Department, a harbor patrol unit has been
established to patrol the entire shoreline of the town. The authority of the
police patrol is broad: law enforcement, safety, rescue, towing, monitoring
shellfish harvesting, and nighttime law enforcement.
8. Because of the expanse of the shoreline, patrols within the estuary usually
occur on an average of once per day. Most of the patrol time is spent in Little
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Narragansett Bay, at and near Sandy Point, where speeding, high
concentrations of boat traffic, and safety problems are present (Sylvia, 1990).
9. When not patrolling the Little Narragansett Bay area of the estuary, the
police unit generally patrols the Pawcatuck River estuary only up to Buoy 19,
although patrols can travel the full length of the river (Sylvia, 1990).
C. Coordination Between the Harbor Management Authorities
1. The necessary authorities and powers exist to provide a comprehensive
management structure for boating safety, mooring management and other
responsibilities related to harbor management within the estuary. However,
these management programs are lacking a policy context to guide
implementation which is based upon a coordinated view of the estuary, lack
several basic programs necessary for effective management, are informally
coordinated, and are under-funded in light of increasing recreational use of the
Pawcatuck River estuary and Little Narragansett Bay.
2. Although there is an informal, working relationship between the various
authorities involved in harbor management and law enforcement in the estuary,
the design and operations of these programs perpetuate the problems of the
estuary's nature as an interstate boundary; the allocation of resources, patrols
and administration takes places differently and independently on either side of
the "line". While the rules and regulations employed by each are similar, and
enforcement across the state line occurs in emergencies, there is not a common
set of rules consistently applied throughout the estuary. This is despite the fact
that the law, historic practice and the nature of the management problems
would support such an approach. Much of this may be due to the fact that the
enforcement programs, traditionally viewed as implementation devices, operate
without a comprehensive policy direction which addresses the estuary as a
whole.
3. The management of moorings and boating safety on the Pawcatuck River
estuary has historically been of an informal nature, possibly due in part to its
relative "quietness" compared to Stonington Harbor and Watch Hill. The lack
of an active mooring permitting program, established siting guidelines, an
administrative mechanism for permits, or even its own Connecticut harbor-
master are quickly becoming insufficient approaches to managing the levels of
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boating on the river and estuary. While boating levels and numbers of moorings
are not constantly at stressed levels or creating significant problems, the peak
periods do place a burden on the enforcement authorities' existing resources.
The patrolling patterns and schedules are not explicitly directed towards the
areas or times of highest use on the estuary, instead they take place on an ad
hoc basis. The lack of formal coordination between the towns fails to capitalize
on improved efficiencies and sharing of enforcement resources that might be
available. It is also unclear as to whether the current division of responsibilities
between the harbormasters in Westerly, and the Police Department and
Harbormaster in Stonington results in more effective use of manpower and
resources; the situation is further complicated by the lack of a formally
assigned harbormaster in Pawcatuck.
4. Both towns receive substantial revenues from boating taxes and mooring
fees. These have not been returned to the enforcement programs in a
proportional manner. The result has been part-time patrols and less of an
enforcement presence in an area of extremely high boating use.
D. Municipal Funding for Harbormasters
1 . Both the Westerly harbormaster and Stonington marine police patrol
programs are funded through the general treasuries of each municipality.
Additionally, both towns are reimbursed from their respective state general
treasuries a percentage of monies that have been collected through each state's
boating safety division as part of the boat registration system. These monies
are based on the property tax levied against all boats registered in each town.
Both towns refer to these monies as a boat tax.
2. Based upon state-returne d monies to each town from boat taxes, the
proportion of money allocated to each harbormaster-police patrol is small; 3%
and 13% in Westerly and Stonington, respectively (Table 5-11). The remaining
monies returned to each town remains in its general treasury.
510.7 Harbor Management Commissions
A. Both Rhode Island and Connecticut have developed programs to promote
coordination between municipal and state activities through local harbor management
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Table 5-11
Local Harbor Management Budgets:
Stonington and Westerly
Actual Estimated Estimated
STONINGTON 1988-89 1989-90 1990-91
Revenues
Boat Tax (Reimbursed) 85,164 85,164 85,164
Mooring Fees 0 100 100
Total Revenues 85,164 85,264 85,264
Expenditures
Harbor Mgmt Comms.
Salaries 100 100
Stonington 352 4,300 4,000
Pawcatuck River 2,250 1,500
Mystic River 1,000 1,500
Police Services
Boating Safety 24,492 28,814 10,905
Total Expenditures 24,844 35,650 18,005
Actual Estimated Estimated
WESTERLY 1988-89 1989-90 1990-91
Revenues
Boat Tax (Reimbursed) 83,200
Total Revenues 83,200
Expenditures
HarbormaBter 2,240 2,336
Total Expenditures 2,240 2,336
Source: Stonington Recommended Budget: Year Ending June 30, 1991
Westerly Recommended Budget: Fiscal Year 1990-1991
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plans. Harbor management planning is voluntary in Connecticut and mandatory in
Rhode Island.
B. A Harbor Management Commission is the local body that is authorized to develop
and administer rules and regulations that pertain to the management of certain uses
of the town's waters, in the context of a comprehensive Harbor Management Plan.
Harbor Management Commissions implement these regulations through the
development of an ordinance(s) which is then enforced by the town's HIVIC through
interaction with other town boards, the state or local harbormaster, as well as
implemented through state and federal regulatory programs. Harbor Management
Plans often involve recommendations on other shoreline uses. The Harbor
Management Commissions can potentially act as the leading municipal agency in
developing policies dealing with a variety of harbor related issues, including moorings
(standards, placements, assignments, removal), speed regulations, pollution
discharges, uses which occur on the water, and removal of abandoned vessels or
structures. Regulatory decisions of by the RICRIVIC and CTDIEP must be consistent
with state-approved, locally adopted HMPs.
C. Factors that a harbor management commission must consider when developing a
harbor management plan are recreational and commercial boating; recreational and
commercial fish and shellfisheries; fish and shellfish resources; conservation of natural
resources; areas subject to high velocity waves,, exposed areas subject to flooding and
erosion; water dependent uses; water quality; recreational uses other that boating;
water dependent educational uses; public access to and along the shore; parking; and,
the rights and privileges of all citizens to use and enjoy the natural resources of the
harbor or waterbody with due regard for the preservation of it's values.
D. A harbor management commission must identify existing and potential harbor
problems, establish goals and make recommendations for the use, development and
preservation of the harbor and its resources. The commission, and the subsequent
harbor management plan, must establish an adequate management structure and
identify officials responsible for the enforcement of the plan, and propose ordinances
to implement the plan.
E. Additionally, the Harbor Management Commissions and their plans have often acted
in a coordinating and integrating role, tying together issues and concerns affecting the
upland and activities in the harbor area. In this way, the plans often act to focus
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municipal and state decisions towards consideration of the interrelationship of the
harbor's resources.
F. Because the HMCs are authorized under specific state statutes and regulations,
their regulatory authority does not extend beyond specific areas defined within the
Harbor Management Plans. In 1989, the Connecticut General Assembly passed
legislation creating a Bi-State Pawcatuck River Commission (CGS 25-160 through
25-164). The statute's intent is to promote the standardization of the rules and
management programs undertaken by the towns on either side of the estuary, and to
provide general review authorities for projects on the river in order to maintain, protect
and restore the river's marine resources. The legislation requires complementary
Rhode Island action to make it effective.
510.8 Dredging
A. Maintenance of navigable channels within the estuary, and adequate water depths
at marina facilities is critical in supporting the recreational boating uses of the area.
Condition surveys conducted by the Army Corps of Engineers and anecdotal
information supplied by marina operators provide significant evidence of the need to
dredge both the federal channel and several of the commercial facilities within the
estuary.
1. Condition surveys conducted in 1983 and 1985 show that the authorized
water depths for the federal channel have been silted in, reducing the depth
below MLW by as much as 3.7 feet in places. The situation is most noticeable
in the Pawcatuck River between Pawcatuck Rock and the Route 1 Bridge (Table
5-12).
2. The federal channel in proximity to Sandy Point has been impacted by the
migration of the barrier island, as well as the deposition of wind-blown sand in
the channel. The barrier has migrated through the channel itself, and has
moved westward approximately 125 feet since 1972.
3. Siltation at the commercial marina facilities has been most notable at those
marinas located in the Avondale-Greenhaven area. Marina operators have
reported that water depth loss for some slip space has resulted in smaller
vessels being located in slips previously utilized for larger, deeper draft vessels.
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Table 5-12
Federal Navigation Channel Survey Conditions. Pawcatuck River: 1971 1983
FEDERAL CHANNEL Depths of Channel in Feet (Average)
Pawcatuck River 1971 Channel Conditions 1977 Channel Conditions 1983 Channel Conditions
(entering from seaward)
Left Mid Right Left Mid Right Left Mid Right
N-18 to G-19 8.5 10.0 9.8
C-1 to N-4 9.7 10.0 10.0 10.0 10.0 10.0
400, seaward of N-8 10.0 10.0 10.0
N-4 to N-10 9.1a 9.7 9.6 9.1a 10.0 10.0
N-10 to N-12 7.8b 10.0 9.1c 8.8 10.0 10.Oa
to N-14 8.3 10.0 10.0a 6.8b 10.0 8.8
7001 upstream of N-14 4.5 7.0 10.0
to N-22 5.0 7.5 6.4 8.3b 10.Ob 9.5
to N-26 8.Ob 10.Oc 7.8
to N-28 6.8 7.8 5.8 6.5d 8.5 6.5 8.1 10.0 7.9
to 36001upstream of
N-28 (at 401 width) 6.3 9.8c 8.1
to 39001 upstream of
N-28 (N. of 401 width) 4.0 5.7 6.0
upstream limit of
Federal Channel 5.2d (available to limit) 7.2e (available to limit) 1 8.8* 9.4* 9.5*
Qualitative Assessment Source: U.S. Army Corps of Engineers
1971 Notes: 1983 Notes:
a: Shoaling to 51 close to channel Limit 3001 upstream of buoy N-10. a: Shoaling to 81 west of N-10; Shoaling to 6.21 just upstream of N-10.
b: Shoaling to 2.71 in area between buoy N-24 and N-26. b: Shoaling to 4.21 at Certain Draw Pt.; Shoaling to 4.8 at Certain Draw Pt.;
c: Shoaling to 9.71 opposite Stanton Weir Pt. and w/in 7001 of buoy N-26. Shoaling to 7.81 at Certain Draw Pt.
d: Shoaling to 3.61 2600 feet seaward of northern channel limit. c: Shoaling to 8.51 north of Westerly Marina; South of marina 10 feet.
1977 Notes:
a: Shoaling to 7.31 500 feet seaward of buoy N-10 on west channel.
b: Shoaling to 6.01 opposite buoy N-10 on west channel; Shoaling to 6.81
500 feet seaward of buoy N-12 on west channel.
c: Shoaling to 8.91 about 100 feet upstream of buoy N-10 on east channel.
d: Shoaling to 5.91 about 300 feet upstream of buoy N-22 on west channel.
e: Shoaling to 6.71 on east channel of upsteam Limit; Shoaling to 4.91
360 feet seaward of limit of channel on west channel; Shoaling to 6.61
860 feet seaward of Limit of channel on west channel.
�
B. In addition to the direct loss of facilities and impairment of the federal channel, the
need to dredge has secondary impacts on uses of the estuary. The loss of water
depths at commercial facilities leads to increased pressure for mooring placement in
open water, requests for extension of structures further seaward within the water
body, and ultimately in diminished access to, and within the estuary. Additionally,
increased pressure on boating traffic due to restricted areas for navigation within the
channel may act to exacerbate congestion related problems.
C. There is currently no long-term plan for maintenance of the federal channel within
the estuary. While the actual maintenance dredging operations are under the
jurisdiction of the Army Corps of Engineers, the federal programs governing such
operations require a significant financial commitment and participation from local
sponsors. Additionally, the ACE initiates such programs at the express request of local
sponsors, or upon a demonstration of need; justification of the public need and benefits
of the operation must be provided. The bi-state nature of the estuary acts to
complicate these requirements. While siltation in the Pawcatuck River has not severely
restricted the use of the channel yet, the condition surveys to indicate an eventual
need to restore the authorized depths. Dredging of the channel at Sandy Point has
been authorized, however, disagreements between the State of Rhode Island and the
ACE as the appropriateness of established "dredge window" restrictions has prevented
the actual accomplishment of the operation.
D. Disposal of dredged materials within the estuary is problematic. Sediments
dredged from the commercial marina facilities within the Pawcatuck River estuary are
not generally suitable for beach nourishment, one preferred disposal option. Marina
facilities in Rhode Island do not presently have access to an open-water disposal site,
and are often confined to utilizing on-site, upland approaches.
E. The designated nonconforming status of several of the Rhode Island marinas within
the Pawcatuck River estuary has a significa-nt impact on the ability of these facilitie's
to undertake dredging. Only maintenance dredging is allowed under the policies of the
designation. Many of the marinas were built prior to the institution of the state
regulatory program, and have not maintained adequate histories of dredging opera-
tions. The result is that many proposals to dredge within these areas are considered
improvement dredging, and therefore prohibited by the policies of the RICRMP.
F. Dredging regulation in Connecticut utilizes a series of considerations which the
Commissioner of CTDEP (through the OLISP) must give due regard to in making
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decisions on dredging. These are focused primarily on site-specific resource protection
and establishing use guidelines requiring demonstration that navigation channels are
inadequate to provide access, and that the operation is designed to take optimal
advantage of naturally deep water or existing channels. The process does not assess
the cumulative impact of many alterations on an estuary-wide basis. Rhode Island
utilizes a series of Water Type designations, which define on an estuary-wide basis
areas in which dredging is a permissible activity; specific proposals are also subject to
resource protection policies and requirements specific to the site. Neither state utilizes
an explicit mechanism to assess the impacts of concurrent, simultaneous projects.
Coordinated time frames within which dredging may take place have been established
by each state, yet no formal agreement between the states regarding a single
estuary-wide set of windows has been established.
510.9 Protecting Water Dependent Uses
A. Municipal Authorities
1. Increasing shorefront property values and other economic pressures have
acted to alter the face of the waterfront throughout the region. Significant
losses of many water-dependent use have taken place. The size of the
commercial marinas within the estuary, and the traditionally marginal operating
nature of such facilities make them susceptible to conversion should waterfront
redevelopment pressures increase.
2. Municipal land use programs, through Comprehensive Plans, Plans of
Development and zoning ordinances, have a significant effect on the
management, development and protection of water dependent uses within the
estuary. These programs have a controlling influence on types of shoreline
uses, site characteristics, intensity of use and preservation of both cultural and
environmental values.
3. There is currently no particular definition or special protection offered to
water dependent uses by either Westerly's Comprehensive Land Use Plan or
zoning ordinance. Marina facilities are typically located in either residential,
commercial or manufacturing zones, and are considered legal non-conforming
uses. The zoning ordinance allows other uses within each of these zones,
many as priorities over water dependent activities.
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4. The Town of Stonington has developed express policies within the Municipal
Coastal Management Program and zoning regulations which address the
protection of water dependent uses. The sum effect of these policies is to
guide marine commercial development to the Pawcatuck River estuary, and to
provide a high level of protection for existing water-dependent uses and areas
currently zoned for those uses. The zoning ordinance does not, however,
restrict the use of these areas solely to water-dependent uses, and allows other
uses which may compete with or displace the water-dependent uses.
B. State Authorities
1. The Connecticut Coastal Management Act contains several policies which
require state and local regulatory programs to give highest priority and
preference to water dependent uses. Strong policies as to the preemption of
future water dependent activities and adverse impacts to existing activities are
implemented both on the state and municipal level through the Act. However,
these policies do not make a distinction between a wide-class of water-
dependent uses. The potential effect of this is to change the type of waterfront
uses present within the estuary, with a loss of traditional marine industries, the
conversion of commercial boating support facilities, the method of slip
allocation and the economic contributions to the community.
2. The Rhode Island Coastal Resources Management Program designates
several areas throughout the estuary for varying levels of water-dependent
development. However, the program does not contain the strong preemption
policies of the CCMA, and is greatly influenced by the zoning designations of
the Town of Westerly. The potential for the same types of adverse impacts as
described above exists, with the additional impact of total displacement of the
water-dependent use.
520. MANAGEMENT REGULATIONS AND INITIATIVES
The following regulations, initiatives and recommendations are based upon Section
5 10, Findings of Fact, and the goals established in Section 100 of this Plan.
520. 1 Boat Launching Rams
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A. Increasing Low Impact and Local Access to the Estuary
1. Greater access to the estuary that serves local needs and is of a low impact
nature should be developed, It should be provided through the development
and improvement of sma# boat ramps, utilizing public-private agreements for
facility use, improvements to private commercial facilities, improvements to
existing public facilities, and the development of new public ramps, where
appropriate. The Harbor Management Commissions of both Stonington and
Westerly should recognize this access development in their development of
local harbor management plans.
2. Management Policies and Recommendations
(a) The improvement of use at the existing commercial boat ramps
should be pursued so as to increase the amount of small boat access to
the estuary. The Pawcatuck River Association of Marina Operators
(PRAMO) should undertake a program to encourage the improvement of
ramps that are currently in poor condition, and to let the public know
about the availability of the ramps. Additionally, marina operators
should assess the parking constraints of their sites, and identify where
ml .nor rearrangement might provide additional space for trailers. The
Towns and appropriate state agencies should investigate the
appropriateness of using open space funding for financial assistance in
such site improvements, with necessary stipulations established to
ensure public use.
(b) The improvement of the facility and ramp at Barn Island should be
pursued as a priority before any additiona1pubfic acquisition takesplace.
The State of Connecticut should pursue implementation of the
recommendations included in the 1986 State Comprehensive Outdoor
Recreation Plan for improvements to the site, emphasizing increased
efficiency in using space.
(c) The Town of Stonington should enter into an agreement with the
Workingman's Club on Mechanic Street to allow public use of the boat
ramp as a light boat (canoe, kayak) access point. The parking
associated with this use should be handled through the town's parking
for the river park. Further, the agreement should include site operation
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Figure 5-3
0
ExISTING AND POTENTIAL Pawcatuck 0@ 0
BOAT LAUNCHING RAmp SITES 0
Westerly
0
0
0
Stonington Stanton Weir 0
Barn Island Public Boat Ramp
Greenhaven
0 00 00
Sandy Point Little Narragansett Bay Q* Avondale
Watch Hill
Napatree Point
EXISTING BOAT LAUNCHING RAMP SITES
N
,0 Krn 1 Knn 2 Krn, 0 POTENTIAL BOAT LAUNCHING RAMP SITES
10 Miles we
Data sources: RIGS and CT DEP
Map design: WC
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rules that limit use to car-top boats so as not to displace existing parking
with trailers.
(d] The Town of Westerly should investigate the construction of a boat
launching ramp at the Meadowlark Drive street end to the Pawcatuck
River, adjacent to the Municipal Sewage Treatment Plant (STP). The
southern section of property at the STP is well suited for handling
parking associated with the ramp, and the depth of water adjacent to
the site is adequate for launching boats.
(e) A study of the feasibility of public acquisition and development of
a boat ramp at Stanton Weir Point should be undertaken, The study
should include an evaluation of impacts to river traffic and safety during
high use periods.
(f) An investigation of the Riverside Drive (Pawcatuck) ramp should be
undertaken to determine its status as either public or private.
(g) Discussions between the Towns of Stonington and Westerly
concerning use of "Circus Lot" in Pawcatuck should be undertaken to
determine if the town would be willing to develop a portion of the lot as
a light to sma# boat launch area. Although the lot is an excellent site
for a launch area, its use by the Town of Westerly as a major public
drinking supply source must be considered.
520.2 MoqnEn@s
A. Estuary-wide Mooring Program
1. A regulatory and management permitting program should be developed by
each municipality to control the moorings placed in the waters of the estuary,
and ensure the protection of environmental qualities, navigation and public
interests. AH moorings, private and commercial, should be required to gain a
permit. Additionalty, the program should.
(a) Identify each mooring owner and the boat that is using the
mooring,
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(b) Allocate moorings to the general public on a first-come, first
served basis, making provisions for littoral property owners;
(c) Identify all appropriate areas for current and future mooring
placement within the estuary,
(d) Develop siting standards for the placement of moorings in
relation to other activities or structures;
(e) Establish dedicated areas for transient boaters,
(f) Develop standards for mooring tackle,
(g) Allow for an annual mooring renewal process.
(h) Establish a fee schedule, where appropriate
2. Management Policies and Recommendations
(a) A# moorings currently in place within the estuary should be
permitted within the first year of operation of the program. A# such
moorings should be subject to the provisions of the mooring program.
(b) All moorings, except those permitted to fittoral land owners, should
be placed within formal mooring areas. Moorings belonging to littoral
land owners should be allowed in proximity to their property, provided
due consideration is given to issues such as environmental factors and
navigation.
(c) A# moorings should be assessed a fee for use of public waters, and
to support the costs of the harbormaster program. A# fees assessed
should be returned to a dedicated harbor management fund.
(d) Both towns should adopt the same mooring regulations into their
harbor management ordinances to promote consistency throughout the
estuary. The mooring regulations should be part of a comprehensive
Harbor Management Plan, adopted in accordance with existing state
programs.
B. Siting of Mooring Areas and Managing Levels of Mooring Use
1. Mooring placement within the coves of the estuary, near conservation
areas, and within identified shellfish beds and other areas defined as critical
resource areas should be restricted. Mooring placement within the smaller
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coves of the Pawcatuck River estuary and Little Narragansett Bay should be
limited to one mooring per waterfront owner. Other areas where mooring
placement should be limited include Colonel Willie Cove, the shellfish beds
north of Ram Point, adjacent to the Pawcatuck River Wildlife Area, and off Barn
Island Wildlife Management Area, Sandy Point and Napatree Point, consistent
with the environmental character of each of these areas (See also Section 720
Plan of Use).
2. The overall level of moorings within the estuary should be controlled
through the permit program, the requirement that all non-fittoral moorings be
placed within formal mooring areas, and through establishing limited numbers
of these areas. Po ten tial mooring areas are shown in (Figure 5-4). These areas
should be sited adjacent to existing access points, where moorings already
occur, a wa y from the na viga tion channel and resource areas. A dditionafly, the
mooring areas should be sited in proximity to other marine uses in order to
provide for open water spaces utilized for other uses and to protect the scenic
qualities within the Pawca tuck River estuary. The use of these areas shouldbe
phased according to demand, the development and provision of access and
support facilities, and the judgement of the municipal Harbor Management
Commissions, in cooperation with the Bi-State Pawcatuck River Commission,
as to the impact of overall boating levels on boating safety.
3. Formal mooring areas should be established in the A vondale-Greenhaven
area, Colonel Willie Cove, Watch Hill harbor and adjacent to the Westerly Yacht
Club, encompassing the areas currently utilized by moorings. The boundaries
of the mooring areas should incorporate clearsetbacks from the federalchannel
and the structures along the shoreline, consistent with the other
recommendations of this study. All moorings which are currently sited in areas
within the established setbacks adjacent to Avondale and Greenhaven should
be relocated.
C. Access to Mooring Areas
1, The Towns and States should focus land and open space acquisition
programs to increase the amount of public access facilities in proximity to the
formal mooring areas. Because of the general lack of available land,
cooperative arrangements with the marina owners and the Watch Hill Fire
District should also be investigated.
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Figure 5-4
Pawcatuck
Westerly
POTENTIAL
MOORING FIELD LOCATIONS
(u
(5 Stanton Weir
Stonington Pawcatuck Roc
(U
Greenhaven
Avondale
Sandy Point
Little Narragansett Bay Colonel Willie Cove
Watch Hill
Cove
Napatree Point
Watch HiH Point
r-1 Potential t4ooring Fields
N
,0 Km Km 2 Km Not to Scale:
0 Was For Planning Purposes only
Doic sources: RIGIS and CT DEP
Mop design: WC
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2. Commercial mooring operators should be required to provide parking and
sanitary facilities for permitted moorings according to the standards established
for slips. For the purposes of mooring regulation, yacht clubs and other
organizations should be considered commercial.
520.3 Harbor Mang_qement Commissions
A. Municipal Participation in Management of the Estuary
1. Certain regulatory and management responsibilities should be conducted by
locally established Harbor Management Commissions (HMQ, as provided for in
Connecticut and Rhode Island law. Each HMC should be responsible for the
control of moorings placed in the waters of the estuary, and provide for local
public participation in insuring the protection of environmental qualities,
navigation and other issues of public interest. The Town of Westerly should
appoint a Harbor Management Commission consistent with the requirements
of the Rhode Island CRMP, and should also consider assigning this task to the
Conservation Commission. Each HMC should be charged with developing a
comprehensive Harbor Management Plan.
2. Management Policies and Recommendations
(a) The Harbor Management Commissions of each Town should address
the following areas of concern within the Pawcatuck River estuary and
Little Narragansett Bay within their respective Harbor Management
Plans, in addition to those required by statute. The Towns should
coordinate the development of policies and regulations for these issues
through the Harbor Management Commissions, and the Pawcatuck River
Bi-State Commission:
1) Development of a mooring permitting program for the
estuary, as outlined above (see Section 520.2 Moorings); the
HMCs should evaluate the bi-state nature of mooring siting and
use in the development of these programs, and coordinate an
equitable distribution of costs and access as part of a first year
agenda,
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2J Regulation of recreational activities such as water skiing
occurring in the estuary, the HMCs should review potentially
conflicting uses of the estuary as part of a first year agenda, and
evaluate the need for designation of specific reserved areas for
differing uses,
X Removal of derelict vessels, derelict structures and the
re-siting of moorings encroaching within buffer zones or
navigation channels and other federal projects,
4J Development and implementation of a fee structure for
moorings; the HMCs should establish similar mooring fees
throughout the estuary, and evaluate necessary steps to ensure
that an inequitable share of harbor management costs is not
borne by mooring holders,
5J Development of authorities, responsibilities, and duties for the
position of harbormaster, including the areas of mooring area
siting, vessel operation, speed zones, and pollution discharges,
6J Development of plans and studies for the enhancement and
protection of access to and from the estuary,
7J Coordination with other local, state, or federal agencies
regarding the management and future development of the
estuary;
8J Development of appropriate penalties for violations of any
regulations set forth by the commission;
9J Coordination of police and harbor patrols;
10J Coordination with the Coast Guardand U.S. Army Corps of
Engineers in relation to boating safety and the marking of the
federal channel.
MJ The State of Rhode Island should take action to complement the
Connecticut Bi-State Pawcatuck River Commission Act, in order to
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activate this body. The two states and towns should discuss the extent
of the Commission's authorities and the procedures for its operations
within the first year of the Commission's existence. This Commission
should function as a forum for the discussion of policy issues of mutual
concern, regulatory actions before the HMCs and to further coordination
and standardization of management between the towns.
(c) The Harbor Management Commissions for each town should
function independently, however, there should be a high degree of
coordination. The Towns should each appoint members of the Harbor
Management Commissions to the Bi-State Pawcatuck River Commission
as their representatives.
520.4 Harbormasters
A. Need for Increased and Coordinated Enforcement Presence on the Estuary
1. The increasing recreational uses of the estuary, especially boating, should
be managed through a comprehensive and coordinated approach to
enforcement, increased enforcement presence during peak periods and by
establishing consistent regulations throughout the estuary.
2. Management Policies and Recommendations
(aJ The Town of Westerly should petition the Rhode Island state
legislature to create specific enabling legislation establishing the
authority to allow the town to manage and regulate moorings and other
activities that may occur on the waters within the town's jurisdiction,
similar to legislation other municipalities have at GLRI 46-4;
(b) A Connecticut State Harbormaster should be assigned specifically
to the Pawcatuck River estuary and Little Narragansett Bay region. This
position should be part-time, and coordinated with both the Westerly
and Stonington Police Department programs;
(c) The Towns should review their existing ordinances, and where
necessary develop regulations dealing with the following areas: vessel
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operation, speed zones, mooring siting and management, pollution
discharges, removal of derelict vessels and abandoned floating
structures, designation of areas for other recreational uses. These
regulations should be integrated into the Harbor Management Plans and
subsequent ordinances to allow implementation by the harbor masters
and police patrols, addition0y, the appropriate ordinances should be
adopted to ensure that afl enforcement agencies have consistent
authority over afl these issue areas. The Towns should adopt the same
set of regulations to ensure consistency of management throughout the
estuary.
(d) The Towns should enter into a formal agreement authorizing
reciprocal enforcement authority by the harbormasters and law
enforcement personnel in the waters of both towns (Appendix Q.
B. Regionalizing Enforcement Programs
1. The Towns of Stonington and Westerly should develop a coordinated
program for the harbor patrols in order to make more efficient use of the
resources available. The program should focus resources on areas of more
intensive use during peak use periods and minimize unwarranted patrols.
Additionally, more effective use of enforcement resources could be gained by
greater coordination using both Towns'personnel as a single, regional unit,
albeit under separate control,
(a) Enforcement efforts should be reorganized and focused based on
three enforcement zones which reflect the geographic and time patterns
of use within the estuary. The zones should be:
1. Wegueteguock Cove and Little NanVansett Ba Enforce-
ment efforts in this area shalt focus primarily on the channel and
area around Sandy Point. As a focalpoint of vessel traffic, both
entering and exiting Little Narragansett Bay and using Sandy
Point itself, this area is one of the busiest points within the
estuary and should have a specifically assigned patrol
permanently on station during weekends and holidays.
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2. Watch Hill Harbor and Napatree Point. As the primary
destination point within the estuary, this area supports extensive
boating use during the summer. It is also used heavily for other
recreational uses, potentially creating conflicts. A specific
enforcement focus in this area should be the prevention of
overboard discharges of sewage from transient boats anchored
off Napatree.
3. The Pawcatuck River Estuary. Navigational considerations,
increasing low intensity uses and heavy traffic volume on the
River suggest that there be a dedicated enforcement presence
here during high use periods.
(b) Patrol schedules should be coordinated through an assignment of
specific times, especially on the Pawcatuck River estuary. Patrol times
should be split between all relevant enforcement authorities, allowing
constant coverage. The adoption of consistent regulations and
reciprocal enforcement powers will allow each harbormaster or marine
police patrol to effectively patrol the entire river, removing the need to
have both sides provide separate patrols at the same time. Additionally,
this will free up patrol resources from Stonington to focus more on the
Sandy Point and Little Narragansett Bay area during peak periods. Both
harbormasters on the Pawcatuck River estuary should be on the water
during weekends and holidays, effectively providing enforcement along
its entire length.
C. Funding of Enforcement Programs
1, Each town receives more money derived from boat taxes than it expends
on each respective harbor patrol program. The harbor patrol budgets of each
town should be bolstered to adequately administer each program, especially in
light of increasing recreational use of the estuary.
D. Speed Zones and Regulation of Marine Activities
1. In addition to the 5 miles per hour (mph) designated speed zones-no wake
areas already in place in the Pawcatuck River estuary, speed limit zones should
be established at the head of the estuary (above Margin Street), around
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Figure 5-5
Pawcatuck
Westerly
5 mph
15 mph
Stanton Weir
Stonington. 5 mph
15 mph
Greenhaven
10 mph 5 mph
Avondale
Sand4y Po nt
Little Narragansett Bay 15 mph
d
5 mph
Watch Hill
No Wake
Watch Hifl Cove
Napatree Point
RECOMMENDED
SPEED ZONES AND NO WAKE AREAS
N
1 Krn 2 K
10 miles mile
Doic sources: RIGIS and CT DEP
Map design: WC
169
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Osbrook Point, and around the channel at Sandy Point. The remaining
non-designated areas should have a maximum speed limit of 15 mph,
enforceable during the high use periods of weekends and holidays. These
periods should be designated by the Harbor Management Commissions,
coordinated between the two towns, and implemented through regulations
which allow the harbormaster discretion as to enforcement.
2. All speed zones should be marked with floating signs at their respective
limits and be recommended to both the Rhode Island Department of
Environmental Management, and the Connecticut Department of Environmental
Protection for official designation. Those speed zone designations already
established by the RIDEM should be recommended to the CTDEP for official
recognition. Any additional, new speed zonesino wake areas should be
recommended jointly through each harbor management commission to both
state agencies for designation.
3. An officiafly-recognized no wake area should be established in Watch Hill
Cove.
4. The towns of Stonington and Westerly should officialty adopt within their
Harbor Management Plans the State of Connecticut statutes (in regulation form)
that prohibits any vessel from travelling greater than six (6) mph when within
100 feet of the shore, docks, piers, floats, anchored or moored vessels, or
other permanent structures (see 15- 136 C65). This regulation not only assures
safe navigation through congested areas (marina zones, mooring fields, small
coves), but also brings uniformity to harbor regulations, making enforcement
efforts more clear-cut.
520.5 Protecting Water Dependent Uses
A. Existing water dependent uses within the estuary, and sites currently utilized for
water dependent uses should be protected.
1. Management Policies and Recommendations
(a) Westerly is currently in the process of developing a Comprehensive
Land Use Plan that will be subsequently used to revise the existing
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zoning ordinance, The distribution of areas along the Pawcatuck River
estuary where marinas are curren tly sited should be maintained, and
these sites be zoned as marina use zone. Additionally, the Town should
acknowledge the changing character of the river corridor and promote
the development of water dependent industries instead of non-water
dependent through establishing a water-dependency requirement within
the commercial, manufacturing, and industrial designations.
(b) The Town of Westerly should develop more comprehensive zoning
regulations that include descriptions and definitions of each zoning
district and the types of allowable uses that can occur within each.
Further, the intent of each zoning district should be addressed so that
there is no question as to what types of uses and activities will be
allowed in these districts. Additionally, the zoning regulations should
provide strong protection for marine industries, through both a concise
statement of policy and definition of water dependent and marine
commercial uses as priorities along the waterfront in those areas
currently zoned for manufacturing and commercial uses.
(c) The standards found in the Stonington zoning regulations for
"Marinas and Yacht Clubs"shouldbe adopted formally into the Westerly
zoning ordinance to assist in special use reviews, with the exception of
the specific parking requirement, the town should integrate parking
standards established in the RICRMP (0. 75 spaces per slip) into the
zoning ordinance.
(d) The Stonington Zoning Ordinance should be revised to ensure that
no significant changes in the character of, or displacement of existing
marine uses occurs. A policy should be developed that differentiates
between the condominium project which supplies boat slips, and the
commercial boatyards and marinas-yacht clubs. Traditional water
dependent activities should be protected through better zoning
definitions, reassessment of the mixed uses allowed under the
ordinance, andrefinementof itsobjectives and allowances as necessary.
(e) The Stonington zoning regulation parking standard requirement of
1.5 parking spaces for each boat slip and mooring should be revised to
0. 75parking spacesperboat slip andmooring. In so doing, a consistent
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estuary-wide standard will be established, as the RICRMC calls for a
0. 75 parking spaces per boat slip.
(f) The RICRMC should directly adopt the policies of the CCMA
tcontainedin Sections 22a-921a)t3); tb)tl)(A); 22a-93(17)) pertaining to
water dependent uses (Appendix D).
520.6 Coordination of State Authorities
A. Planning for Allowable Uses
1. As a management tool both state CZM programs should adopt a
comprehensive plan of use of the waters of the planning area providing clear
defimitations between areas where specific activities may take place, such a
plan should establish marine commercialdevelopment zones, conservation areas
and low-intensity use areas. The plan should be used to guide reviews for afl
projects according to the policies and standards established for each zone
through incorporation into Municipal Harbor Management Plans, modification
of zoning ordinances and changes to the RICRMP where appropriate. The plan
should be adopted by the CTDEP-OLISP in accordance with authorities
established at CGS 461:22a-96, and 22a:359-363 which allows the
Commissioner of Environmental Protection to adopt an orderly plan of
development for coastal areas by which to reference regulatory decisions.
Such a plan will provide a basis for consistent application of policies between
states, andprovide a mechanism forinterstate reviews and federal consistency.
Within each management zone, specific objectives and initiatives should be
established according to the issues occurring there. The designation of the
management sectors, and the objectives and policies contained within them
should be designed to implement and further the appropriate policies of the
CCMA and the RICRMP and incorporate a proper assessment of cumulative
impacts The Plan of Use is intended to provide an overall context for the
application of existing programs; it should build upon existing authorities,
requirements and policies. Allrecommendations contained within it are subject
to site specific application and regulatory requirements.
2. Both the CTDEPLOLISP and the RICRMC shall observe a common set of
policies pertaining to facilities growth and siting, the use of the water surface
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and the relationship of structures to the channel, and environmental protection
as regards the management of in-water structures, dredging and shoreline
alterations. These policies reflect the current statutory and management
policies of the CCMA and RICRMP, and provide for specificity unique to the
Pa wca tuck River estuary and Little Narragansett Bay. These policies are shown
in Table 5-13, and should also be incorporated into the Harbor Management
Plans for each town.
3. In areas of the estuary where development is currently in place or where
there exists natural or man-made constraints to the placement of in-water
structures, or where safety and navigational concerns related to structures
occur, consistent setbacks from navigation channels should be incorporated
into both states coastal zone management or regulatory programs. Topromote
consistency between state and federal reviews, the recommended setback of
the Arm y Corps of Engineers (A CE) should be adopted as a minimum standard.
Those in-water structures currently adjacent to federal navigation projects, or
within the recommended ACE setback buffer, shalt be required to meet the
minimum required setback when proposing to alter or expand the structure.
This policy should apply to a# structures including fixed and floating docks and
piers, and moorings. Such setbacks should also be incorporated into the Harbor
Management Plans for each town.
4. Consistent and explicit standards pertaining to the provision of parking and
sanitary facilities associated with marina operations should be adopted among
aflgovernmental bodies. The OLISPshould adopt a procedure for reviewing the
level of proposed in water development associated with marina development
to ensure that it is consistent with these. The Towns should review permits
granted to commercial mooring operators to ensure that these meet the
requirements, during the development of the harbor management plans.
B. Review Procedures and Regulatory Coordination
1. The States of Rhode Island and Connecticut should seek the development
of a General Permit by the ACE for the review of structures placement within
the estuary.
2. Both state coastal programs and the local municipal governments should
adopt a coordinated review process for large scale proposals. Theprocedure
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Table 5-13
ESTUARY POLICIES FOR THE MANAGEMENT OF RECREATIONAL BOATING FACILITIES
Facilities Growth and Siting
1. The level of recreational boating use of the estuary, and most particularly
the Pawcatuck River, shall be managed to ensure a safe boating environment and
prevent congestion, to reduce or prevent significant conflicts among the
various users of the river, preserve open water areas and to protect the
environmental values and quality of life along the estuary.
2. Future demand for commercial recreational boating facilities within the
Pawcatuck River estuary and Little Narragansett Bay shall be met through
expansion, reconfiguration and more efficient use of space at existing
facilities.
3. Siting of recreational boating facilities shall avoid creating the need for
dredging operations which would significantly alter the river environment and
associated critical habitat areas; siting and regulation shall focus facili-
ties development requiring dredging operations towards utilizing existing
altered, developed or redevelopment areas.
4. Recreational boating facility development shall not exceed the capability
of upland sites to support that level of use, including the provision of ade-
quate sanitary and parking facilities, and recognition of adjacent uses. Com-
mon standards for parking and sanitation related to slip and marina use levels
requirements shall be established in all management programs.
Use of Water Surface and Relationship of Structures to Channel
1. A reasonable area of public water within the estuary, especially in con-
fined areas, shall be maintained in the public interest to sustain activities
and values not specifically related to simply transiting the area, such as
sailing, fishing and other low-intensity uses, and preserving vistas and
scenic visual qualities.
2. Recreational boating facilities growth shall be managed so as to maintain
The current balance among diverse activities that coexist within the estuary.
3. Private, noncommercial docks shall extend no farther into tidal waters
than necessary; projects requiring significant extensions into public waters
shall be considered an indication of site unsuitability for private dock
construction.
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Table 5-13
(con I t)
ESTUARY POLICIES FOR THE MANAGEMENT OF RECREATIONAL BOATING FACILITIES
4. Commercial recreational boating facilities shall be designed to achieve the
most efficient use of water space and upland areas possible; Regulation of
commercial structures shall, where possible, bring such facilities into
conformance with current municipal, state and federal regulations and
guidelines.
5. There shall be a zone around the federal channel and the commonly used
navigation areas within the Pawcatuck River which shall be protected and kept
clear from structures, including moorings or any other activities which may
interfere with its free use. All recreational boating facilities development
shall observe, at a minimum, the setbacks from the federal channel established
by the Army Corps of Engineers Guidelines.
Environmental Protection
1. Siting and construction of recreational boating facilities shall be managed
and regulated to avoid and prevent to the fullest degree possible, the effects
of direct and indirect impacts on shellfish concentration areas, with sub-
merged aquatic vegetation, critical finfish breeding habitats and anadromous
fish runs, and coastal resources.
2. Significant alterations to submerged habitat and shoreline areas shall be
limited to already altered areas, as identified, and to projects with public
value.
3. The overboard discharge of vessel generated sewage wastes in the estuary
shall be prohibited.
4. Activities and alterations including dredging, dredged materials disposal,
structural shoreline protection, and grading and excavation on abutting shore-
line coastal features in identified critical habitat areas shall be prohibited
unless the primary purpose of the alteration or activity is to preserve or
enhance the area as a conservation area and/or natural buffer against storms.
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should be designed so as not to alter the existing authorities or change the legal
basis or sequence by which permits are issued, agencies will continue to be
constrained b y their specific legisla tive authority to act upon limited aspects of
a proposal, and applicants must continue to meet the requirements and criteria
ofeachagency. The purpose of the cooperative procedure would be to reduce
possible conflicts with regulatory program requirements by making the applicant
aware of what is to be expectedprior to entering the permitting process, ensure
notification and coordination among a# major reviewing agencies, and to
evaluate major development proposals on the basis of shared expertise from
each permitting agency (see Section 220.4).
3. The States of Rhode Island and Connecticut and the Army Corps of
Engineers should exchange public notices on all proposed activities within the
estuary as a matter of standard procedure. These notices should also be sent
to any boards and commissions suggested by the Towns of Stonington and
Westerly, as wefl as to the Harbor Management Commissions.
520.7 Dre
A. Maintenance of the Federal Channel
1. The States, Towns and the Army Corps of Engineers should develop a
coordinated study of dredging the Pawca tuck River estuary, Little Narragansett
Bay, and the Watch Hill Cove reaches of the federaInavigational channel. This
plan would act as the basis for scheduling and undertaking dredging of the
channel in the study area. It should address the need for dredging, scheduling,
interstate coordination in permitting, establish necessary environmental
protection measures (see Critical Habitat Section) and identify disposal options.
Additionafly, a long range dredging plan for Sandy Point should be developed
by the ACE as a chapter, or subset to this overa# plan which would allow the
States to conduct a comprehensive assessment of necessary maintenance
dredging. Such an assessment should be investigated as the basis for
permitting actions on the state level in a manner analogous to the General
Permits issued by the ACE, reducing or removing the need for multiple
regulatory reviews.
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B. Regulation of Dredging at Marine CommercialFacilides
1. The RICRMC should revise the water type designation for all pre-existing
marina facilities in Type 2 designation that recognizes that these tacitfities be
able to continue to maintain their viability as such. The Type 2 designation
should allow forpre-existing marinas to undertake maintenance dredging, allow
for the use of best available technology such as travellift operations, and other
ancillary activities necessary to maintain the operational viability of the
facilities. A# facilities should be required to establish a marina perimeter in
accordance with existing regulations wherein minor repairs and alterations as
defined by the RICRMC should be allowed to occur, and establish the present
capacity on-site for parking in accoardance with current standards. A# future
proposed changes to current capacities should be required to comply with
existing standards for parking and sanitation.
2. Dredging operations associated with maintenance of necessary water
depths at existing commercial marinas should be allowed, improvement
dredging in support of limited expansion should be allowed, however, afl
practicable steps should be taken to minimize the area of disturbance and to
promote the efficient use of space as a priority over expansion. A priority
objective should be the maintenance of the shallow water areas along the
shoreline margin and adjacent to wetland areas.
3. New or deepened dredged channels or basins associated with residential
boating facilities should not be allowed.
C. Dredged Materials Disposal
1. The States of Rhode Island and Connecticut, recognizing the regional nature
of the recreational resources of the Pawcatuck River estuary and Little
Narragansett Bay, should develop and establish an agreement allowing access
of Rhode Island marinas within the study area to the New London open water
disposal site. Necessary procedures for coordinating reviews of proposals in
Rhode Island, the dredging and disposal phases of the operations, and insuring
compliance with disposal regulations and other site management requirements
should be developed.
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2. The State of Rhode Island should participate in any discussions surrounding
the Interim Disposal Management Plan for Long Island Sound, as they may
effect recommendation 520.7. C 1.
520.8 Protection of Oven Water Areas and Structures 6gguladon
A. Protection of Open Water Areas and Channel Buffer
1. The altematingpattem of open water areas and concentrations of more in-
tensive water dependent uses within the estuary is a fundamental aspect of its
character. This relationship between uses provides scenic open space between
groups of structures and heavily utilized boating facilities, allows for areas
where low impact uses such as small boat sailing and fishing can take place,
andprovides open water and undisturbed areas for wildlife within the estuary.
2. Management Policies and Regulations
(a) The Connecticut Department of Environmental Protection and the
Rhode Island Coastal Resources Management Council shall require that
all structures maintain a minimum setback from the federal channel
limits for in-water structures development of at least 30 feet. Aff future
structures development, redevelopment or reconfiguration of existing
facilities shall be required to adhere to this standard, at a minimum.
Private and commercial docks shall extend no further seaward than is
necessary to gain reasonable access to navigable waters, projects
requiring significant extensions into public waters to reach navigable
waters shall be considered an indication of site unsuitability for
structures andlor dock construction. The CTDEP and RICRMC shall re-
quire the evaluation of less intrusive alternatives, such as the combined
use of shorter piers and moorings, in the evaluation of such proposals.
(b) The Connecticut Department of Environmental Protection and the
Rhode Island Coastal Resources Management Council shall protect the
scenic, recreational and wildlife values of open water areas within the
Pawcatuck River estuary and Little Narragansett Bay through the Plan
of Use (Section 720), and the appropriate regulation of structures and
activities as recommended therein.
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lAke _0
Ar,
4-m. FR7
@jl
CHAPTER VI:
PUBLIC ACCESS, OPEN SPACE
AND PROTECTION OF SCENIC VALUE
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610. FINDINGS OF FACT
610.1 Introduction
A. Public access to the Pawcatuck River estuary and Little Narragansett Bay occurs
in many different forms. The beaches of Sandy Point and Napatree Point provide
access for beachgoers, birdwatchers and bathers. Boaters gain access to the estuary
through the boat ramps at the Barn Island Wildlife Management Area and the
commercial marinas, as well as transients coming from other areas and canoeists from
access sites upriver. The Wildlife Management area provides almost 600 acres of open
space for the public, much of it available through trails and walking paths. The
Pawcatuck River Park, the Riverbend Cemetery and various bridges provide scenic
views and fishing and shoreline access to the river in the urban areas of the estuary.
Roads ending at the shoreline are often traditional rights of way, providing for low
impact access to the water for fishermen and others. Additionally, undeveloped open
space and vistas from shoreline highways and roads provide visual access to the
estuary for many residents as well as tourists.
B. While there are significant, small scale avenues of access to the estuary, outside
of the Barn Island WMA there are no large pieces of public property supporting public
use within the estuary. There are, however, several pieces of shorefront property
which are owned by the municipalities.
C. Physical access to the water is primarily through private facilities such as the
commercial marinas and private yacht and beach clubs. The limited "gateways" for
access act to concentrate people in environmentally sensitive areas, such as Napatree
Beach and Sandy Point.
D. Access to the estuary, both physically and visually is most constrained within the
urban sections. The Pawcatuck River is hidden behind a screen of commercial
development, and not an integral part of the downtown area.
E. Significant visual access is gained from the main highways and roads that parallel
the lower estuary and Little Narragansett Bay.
F. There are several potential access sites at street ends which abut the water,
however, there are no local programs to identify, maintain or develop these areas.
Many of the Rhode Island potential Right of Ways (ROWs) have not been designated
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by the RICRIVIC under its program, and therefore, are not protected from possible
blocking or infringement.
G. Neither the towns nor the state governments require the development or dedication
of public access as an established condition of permit approvals, even where the
applicant proposes to utilize public waters. However, the CTDEP-OLISP does often
require the provision of access as a condition of meeting its water dependency
requirements, and the RICRIVIC in the past has required public access at marina
developments.
H. Parking and other support facilities are generally lacking at public access sites, and
most of the sites are undeveloped. There are no comprehensive policies or guidelines
within the estuary for public access development, or standards to guide projects
proposing access. Additionally, there is no comprehensive plan for access within the
estuary to provide a context for individual permit decisions.
610.2 Scenic Qualities
A. The Pawcatuck River estuary and Little Narragansett Bay contain a variety and
diversity of shoreline types, land forms and uses which contribute to the scenic beauty
of the area, and are an integral part of the estuary's character. These include barrier
beaches, bluffs, wetlands, farms, forests, coves, traditional maritime industries,
villages and the historic downtown.
B. The open water areas of the estuary provide spacing between the concentrations
of development, diversifying the visual character of the system and providing a balance
of use.
C. The Pawcatuck River forms the central artery of the downtown area, providing an
open space corridor through the most densely developed portion of the watershed.
620. MANAGEMENT REGULATIONS AND INITIATIVES
The following regulations and initiatives are Based on Section 6 10, Findings of Fact,
and the goal of protecting and increasing public access to the estuary.
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620.1 Protectittel aVdIncreasing Access
A. General Public Access Policies
1. The state and local governments should protect and increase public access,
both physical and visual, to the Pawcatuck River estuary and Little Narragansett
Bay through adoption and adherence to common policies and standards,
protection and development of existing public sites, or sites where there exists
an easement running to the public, and requiring the dedication of access where
appropriate as a condition of new development or redevelopment.
2. Management Policies and Regulations
(a) Appropriate public access should be incorporated in ayprivate and
public developments subject to the CSPR of the Town of Stonington and
the jurisdiction of the RICRMC, with the following exceptions:
(b) Coastal access facilities should be located where they safely
accommodate public use, and should be distributed throughout the
estuary to prevent crowding, parking congestion and misuse of coastal
resources. A ccess-ways and trails should be sited and designed: (1) to
minimize alteration of natural landforms, conform to the existing
contours of the land, and be subordinate to the character of their
setting; (2) to prevent unwarranted hazards to public safety,. (3) to
provide for the privacy of adjoining residences and to minimize conflicts
with adjacent or nearby uses, (4) to prevent misuse of environmentally
sensitive habitat areas.
(c) Federal, state, and municipal jurisdictions, special districts and the
Pawcatuck River Bi-State Commission should cooperate to provide new
public access. It is recommended that these bodies endeavor to link the
entire series of shoreline access areas and scenic overlooks, parks and
existing public access areas to the extent feasible, without additional
filling or adversely affecting natural resources. State, regional and local
agencies that approve ptojects should assure that provisions are
included as conditions of approval to promote this objective and should
ensure that access is consistent with the requirements and guidelines
outlined in this section.
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(d) Public access to environmentally sensitive habitat areas such as
wetlands, tide pools, or to riparian areas should be evaluated on a case
by case basis. Such access-ways should be consistent with existing
policies concerning these areas and such access-ways should be
designedand constructedso as to avoid adverse effects on the resource
and, where possible, enhance the resource. Environmentally sensitive
areas should be developed and managed in a manner that does not
increase hazard potential and, where appropriate, access-ways should
be designed to correct abuses resulting from existing use.
(e) Use and development of publicly owned shorelines should be limited
to water dependent andjoubfic recreational uses, otherwise such estuary
and bay front properties should remain protected open space. The
Pawcatuck River Wildlife Management Area is a good example where
public access opportunities exist at state-owned properties. Anypubfic
access development should be consistent with the site's designation as
a wildlife management area.
(f) Public access afforded by street ends, public utilities and Rights of
Way should be maintained, developed and preserved.
(g) Development, uses and activities on or near the estuary and bay
should not impair or detract the public's visual or physical access to the
water from roads or public access areas.
(h) Roads near the edge of the water should be designated as scenic
parkways. The roadway and a right of way design should maintain,
preserve and enhance visual access for the traveler, discourage through
traffic and provide for safe, separate and improved physical access
along the shore. Public transit use and connections to the shoreline
should be encouraged where appropriate.
N Public access facilities should be designed to provide for public
safety and to minimize potential impacts to private property and
individual privacy.
(j) There should be a physical separation of the public and private space
so the public clearly will know the extent of open areas, and know when
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they are not infringing on private rights, This separation can be achieved
byadequate spaceand through screeningsuch asbylandscapeplanting,
fencing and the restriction of use to daylight hours.
(k) Whenever public access is provided as a condition of development,
on fill or on or along the shoreline, the access should be permanently
guaranteed. This should be done wherever appropriate by requiring
dedication of fee or easement at no cost to the public.
(V Factors such as topography andproximity of the access-way should
be considered in relation to the development of the site and to its
support facilities. A ccess tacilitiesprovided on access easements should
be no wider than necessary to accommodate the numbers and types of
users that can be reasonably expected.
B. Improvement and Development of Municipally Owned Sites
1. The Towns should identify and prioritize municipally owned shoreline sites
for development and use as access sites. This assessment should evaluate site
specific characteristics and suitability for use, and integrate the areas into
existing Plans of Development, Comprehensive Plans and other recreationplans,
as appropriate. Such actions should aid in focusing open space funding
requirements.
2. The Town of Stonington should undertake discussions with the Army Corps
of Engineers concerning expanding public access along the hurricane dike in
Pawcatuck. Any public use of the site should be consistent with safety
concerns.
C. Expansion of Access to the Urban Section of the Estuary
1. Expanding access to the urban section of the Pawcatuck River estuary, and
reestablishing a linkage to the downtown should be a primary focus of
regulatory and acquisition efforts by both the towns and the states. All new
development, or redevelopment in this area should be required to provide public
access along the waterfront, aiming to develop a linear access way through the
downtown. This walkway should link existing public areas, and potential
acquisition sites as identified in Section 720.2.
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2. The Towns and the States should develop consistent development design
standards for public access provided within this area.
D. Designation, Development and Management of Public Rights of Way
1. The Towns of Stonington and Westerly should designate appropriate street
ends which end at, or near the shore as loca1pubfic access-ways. Theseareas
should be developed or improved to the extent necessary to support
neighborhood and local, passive use. The Town of Stonington should
investigate what steps are necessary to establish the legal status of these
areas, while the Town of Westerly should work with the RICRMC to designate
the areas as Rights of Way. A listing of these areas is included in inventory and
assessmentof actualandpotentialshorefine access sites (Technical Report #4).
2. The Towns should establish aspoficy that afldesignatedpublic access-ways
must be kept open and clear for the use of the public, and investigate what
actions are necessary to prevent or remedy the unlawful blocking or posting of
these areas.
3. The Towns should make arrangements with their respective public works
departments to maintain these sites.
4. No street ends or roads at the shoreline should be abandoned by the towns
until such time as a comprehensive evaluation establishes that the area cannot
be used as a viable access-way to the shore, or as part of a boat launching site,
park, or viewpoint.
5. The use of volunteers in maintaining local access points should be
investigated.
6. The development of support facilities, such as parking, should be
investigated at each appropriate Public Right of Way site. ,
7. Signs identifying the Public Right of Ways should be developed, and
information about them promoted by the local Chambers of Commerce.
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620.2 Utiliziag the Shoreline Access Inven
A. The Towns should utilize the Inventory and Assessment of Actual and Potential
Shoreline Access Sites (Technical Report #4) as a basis for developing a
comprehensive program for protecting and increasing access to scenic viewpoints
within the estuary. Many of these sites are currently in private ownership, and the
towns should investigate approaches to protecting the scenic views from construction
related impacts through appropriate development controls.
B. While most of the open space sites identified in the inventory are small, their
protection will help to maintain the diversity and scenic qualities of the shoreline, and
may provide low intensity access sites for neighborhood use.
620.3 Protectiag the Scenic Qualities of the Open Water
A. The Estuary Policies (Table 5-13) establish basic policies on the development of the
estuary. A primary purpose of these is to guide management decisions about siting
of facilities, use of the water surface and environmental protection actions in order to
preserve the qualities of the estuary in place now.
B. The Plan of Use (Section 720) establishes recommended management areas to
guide the character of development and use along the estuary's shores. That section
establishes Conservation, Low Intensit and Marine Commercial management sectors
to provide for a separation of uses of the estuary with differing characters, and to
preserve the diversity of the visual character of the area.
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"'XXs
041 1"
WOW
low
CHAPTER VII:
PLAN OF USE
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710. FINDINGS OF FACT
710.1 Introduction
A. Managing for Coordination and Cumulative Impacts
1. As a mechanism for coordinating the ongoing regulatory programs of either
state, and to account for and properly manage cumulative changes in the
estuary, both state CZM programs should adopt a comprehensive Plan of Use
for the planning area which provides clear delimitations between areas where
specific activities may take place; such a plan should establish marine
commercial development zones, conservation areasand low-intensity use areas.
2. The plan should be utilized to guide reviews for all projects according to the
policies and standards established for each zone through incorporation into
Municipal Harbor Management Plans, modification of zoning ordinances, and
changes to the RICRMP where appropriate. The plan should be adopted by the
CTDEP-OLISP in accordance with authorities established at CGS 461:22a-96,
and 22a: 359-363, which allows the Commissioner of Environmental Protection
to adopt an orderly plan of development for coastal areas by which to reference
regulatory decisions. Such a plan will provide a basis for consistent application
of policies between states, and provide a mechanism for interstate reviews and
federal consistency. Within each management zone, specific objectives and
initiatives should be established according to the issues occurring there.
3. The Plan of Use is intended to provide an overall context for the application
of existing programs; it builds upon existing authorities, requirements and
policies. All recommendations contained within it are subject to site specific
application and regulatory requirements.
720.1 Estuary Sectors, Oboectives and Policies
A. Pawcatuck River Sector #1 - Urban Waterfront Redevelopment-
Low Intensity Use
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1. Description
This area extends from the Stillmanville dam, through the downtown
Pawcatuck-Westerly area, to above the marine commercial area at Mechanic
and Margin Streets. The Pawcatuck River is extremely narrow through this
section, and navigation is restricted. The federal channel in many places is 40
feet or less in width. Although the shoreline has historically been extensively
altered, the area still supports critical habitat for several fish species and is part
of the anadromous fish way. Land uses along this section of the river are
urban-commercial and industrial, non-water dependent (with the exception of
the Pawcatuck Boat Yard) and some residential in the lower part of the section.
Several large, vacant parcels of land do exist within the sector. Public
recreational use is extremely limited, consisting primarily of the Pawcatuck Park
and the river walk above the Route 1 Bridge, although the area is increasingly
used by canoeists from up river, and by boaters from down river using the
stores downtown. Several derelict vessels and deteriorating bulkhead
structures do exist, creating some interference with other uses of the water
body and navigability.
2. Objectives
(a) Due to the narrowness of the river, the primary management objective
should be to protect the navigable channel and the buffer area around it; this
will not only protect existing uses, but ensure that should redevelopment in the
downtown urban area bring more people up river, that safe navigation
conditions will exist.
(b) Increasing public access and linkages between the river and the downtown
area of Westerly and Pawcatuck in support of the redevelopment of the
waterfront should be encouraged; developing access for users from the
freshwater portion of the system should also be pursued.
(c) Protection of existing fisheries habitat and the area's role as a migration
corridor for anadromous species are primary objectives also. This will
necessitate controlling alterations of the river bottom, minimizing off-site
impacts associated with shoreline and bridge construction, and strictly
regulating the reconstruction of bulkheads and support structures of riverfront
buildings in the urban section. Reconstruction of shoreline protection facilities
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to modern standards should also be promoted.
(d) The presently existing derelict structures and vessels should be removed
from the water body.
(e) In-water development should be managed to prevent impacts to the scenic
and open space qualities the river corridor creates in the urban setting, as well
as to promote public access.
3. Policies, Man-agement Re-oulations and Initiatives
(a) The sector is inappropriate for additional large-scale marine commercial
development, due to the immediate and cumulative impacts on navigation,
boating traffic levels and restricted water depths. The water-dependency
requirements recommended in Section 520.5 should be met by the provision
of public access along the waterfront, rather than through in-water structures
development. Exceptions regarding marine commercialdevelopment shouldbe
considered for access landings which are developed in public ownership, which
are predominately public in nature, or private projects which support the
downtown redevelopment process. In these instances, structures should be
parallel to the orientation of the river, meet a# appropriate setback standards,
and be for transient usage only. Municipal actions as regards changes in land
use regulation should reflect these limitations and recommendations, and the
Harbor Management Plans of Stonington and Westerly should affirm this.
(b) The RICRMC should redesignate its classification of this area, from the
Route I bridge south to the Viking Marina from Type 6 Commercial and
Industrial Waterfronts to Type Z Low Intensity Uses this same classification
shouldbe extendednorth to the dam at Stillmanville Street, the northern extent
of tidal influence within the estuary, currently unclassified.
(c) Both the RICRMC and CTDEP should restrict the dredging and alteration of
the river bottom in this sector, as well as disallowing the further encroachment
of structural shoreline protection into the river itself during reconstruction and
maintenance activities. Reconstruction of the deteriorating bulkheads should
be required during the consideration of proposals on adjacent properties.
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(d) The maintenance, repair and reconstruction of the Route 1 Bridge requires
special consideration on minimizing impacts to the smelt habitat, and
coordinating dredging and other operations which could potentiafly create
siltation impacts to anadromous fish migrations. Both CZM agencies should
coordinate the review of such projects with their respective Departments of
Transportation, requiring that these concerns be addressed, interstate
coordination should be undertaken at the time of any proposed work. Any
substantial reconstruction of the bridge should be required to provide public
access such as scenic overlooks and fishing platforms.
(e) Increased recreational linkages with the freshwater portion of the
Pawcatuck River should be encouraged by pursuing the development of new
public access sites and small boat landings in this area. Potential sites include:
1) The "Working Man's Club" boat ramp through a cooperative
arrangement with the owners. The use of the landing should be
restricted to light, non-motorized boats, with associatedparking handled
at the Town's river park,
2) The "Circus Lot", wellhead site owned by the Town of Westerly in
Pawcatuck. Parking associated with this site must be accommodated
in a manner that does not pose problems or conflicts with the site's
nature as a wellhead for Westerly's drinking water,
3) The Hanley-Williams Lumber Co. Site is now vacant. While previous
attempts by the State of Rhode Island to acquire this site have been
unsuccessful, efforts should continue to successfully acquire it. The
size of the site presents opportunities for multiple uses, and could form
the centerpiece of reestablishing a connection between the downtown
area and the river. Concerns over additional traffic congestion resulting
from sma# boat launches at this site need to be addressed when
evaluating the use of this site in downtown re-development.
(f) The Towns of Stonington and Westerly should revise their zoning
ordinances to require the dedication of public access along the river front during
any development or redevelopment.
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(a) A five (5) mile per hour speed zone should be established within this sector,,
the zone should be established within the Harbor Management Plans for both
towns and recommended to the RIDEM, and the CTDEP for state designation.
B. Pawcatuck River Sector #2 - Marine Commercial Development
1. Description
The area extends from the northern boundary of Viking Marina to the southern
boundary of Nor'West Marine. It contains the largest concentration of marinas
in the estuary, as well as the greatest percentage of vessels. The river is
relatively narrow, and the marina construction typically extends to within the
buffer area around the federal channel. The land uses are predominately
commercial and industrial. There is a large wetlands complex on the eastern
side of the river, designated for preservation.
2. Objectives
(a) Due to the historical marina use of this area, the primary management
objectives should be to protect commercial marine use. This area is one of the
primary existing focal points for access to the estuary, through the commercial
marinas; increasing and guiding future access opportunities within this area is
a primary objective while addressing the issues of maintaining safe boating
operations and necessary upland support facilities in a congested area. These
are closely linked to the encroachment of existing structures into the
recommended buffer zone, and insuring consistent implementation of
recommended setbacks.
(b) Protection of existing fisheries habitat and the area's role as a migration
corridor for anadromous species are primary objectives also. The extension of
structures into the mainstern of the river must be managed for potential
impacts to fish migrations.
3. Policies, Managitment Regulations and Initiatives
(a) The Town of Westerly should adopt zoning provisions designating the
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upland areas within this section currently used for marinas explicitly for marine
commercial uses in accordance with Section 520.5. The Town of Stonington
should maintain its present zoning designations, given the restricted availability
of upland support facilities outside of the current MC 80 zone.
(b) The Town of Westerly property on which the sewage treatment plant is
sitedpresents one of the best opportunities within the estuary for establishing
new public access. The property is adjacent to a platted street, Meadowlark
Road which dead-ends into the water. The street is already informally used as
a smafl boat launching site. The southern section of the property is well suited
for handling parking associated with the ramp, and the water depth is sufficient
to accommodate most boats. This use is currently consistent with the RICRMP
policies. The Town has recently acquired the property to the north of the STP
in order to provide for future expansion needs, any future site design should
accommodate public access to the shoreline, primarily for visual access on the
northern site. The site'sproximity to existing marina development, andpotential
upland access andparking facilities, also make it an appropriate site for a small
scale public mooring area; however, boats utilizing this area will have to have
extremely shallow draft, because of the depth limitations. The Department of
Environmental Management should investigate the development of a marine
boat launch at this site, in cooperation with the Town of Westerly. The Town
of Westerly Harbor Management Commission, when constituted, should
investigate further the designation of a formal mooring field in this area.
(c) The RICRMC should require the development of public access at the STP
site during any redevelopment or expansion, consistent with operational and
safety concerns. Such a requirement is consistent with the Rhode Island State
Guide Plan recommendations of evaluating and accommodating public access
where possible where public funding is utilized.
(dJ Dredging operations associated with maintenance of necessary water
depths at existing commercial marinas should be allowed, improvement
dredging in support of limited expansion should be allowed, however, all
practicable steps should be taken to minimize the area of disturbance, as well
as to minimize impacts to fisheries and wildlife habitat and to promote the
efficient use of space as a priority over expansion. A priority objective should
be the maintenance of the shallow water areas along the shoreline margin and
adjacent to wetland areas.
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(e) New or deepened dredged channels or basins associated with residential
boating facilities should not be allowed; shoreline alterations and structural
protection in association with such facilities should not be permitted.
C. Pawcatuck River Sector #3 - Low Intensity
1. Description
This area extends from the marina concentration of Sector #2 south to the
northern boundary of the marina concentration in Avondale-Greenhaven. This
is one of the most diverse sections of the estuary containing residential land
uses, valuable fisheries and wildlife habitat, extensive tidal wetland areas,
several marinas and open water areas used for low intensity activities. It is
also one of the most scenic stretches of the estuary, with the low intensity
shoreline uses and open water areas in juxtaposition to the marine commercial
concentrations at either end.
2. Objectives
(a) The primary management objectives should focus on protection of the
natural, scenic and low intensity resource values in this area. Specific
objectives include prevention of conflicts between uses, insuring safe boating,
regulation of environmental alterations, and preservation of scenic values.
(b) The area should support a level and mix of uses consistent with its
designation as low intensity, including residential docks, low impact recreational
activities and maintenance of the federal channel, consistent with the policies
established under Section 520.6 (Table 5-13).
(c) While commercial marinas and moorings do exist within this section, their
expansion must be assessed in relation to potential impacts on both in-water
and upland resources, including protection of open water areas for scenic
purposes and low impact uses such as recreation.
3. Policies, Management Regulations and Initiatives
(a) To protect the potential future utilization of shellfish resources within this
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sector, docks should not be allowed to extend to distances where they may
interfere with access to identified shellfish concentrations. New or deepened
dredged channels or basins associated with residential boating facilities should
not be allowed, shoreline alterations, structural protection and filling in tidal
waters in association with such facilities should not be permitted.
(b) Dredging operations associated with maintenance of necessary water
depths at existing commercial marinas should be allowed; improvement
dredging in support of limited expansion should be allowed, however, all
practicable steps should be taken to minimize the area of disturbance, as we#
as to minimize impacts to fisheries and wildlife habitats, and to promote the
efficient use of space as a priority over expansion. A priority objective should
be the maintenance of the shallow water areas along the shoreline margin and
adjacent to wetland areas.
(c) New or deepened dredged channels or basins associated with residential
boating facilities should not be allowed, shoreline alterations and structural
protection in association with such facilities should not be permitted.
(d) The mooring of houseboats, floating homes and floating businesses outside
of marinas, as well as industrial and commercial structures and operations
(excluding fishing and aquaculture) should a# be prohibited.
(e) Public launching ramps should permitted, although aflpossible steps should
be taken to minimize the disturbances associated with their construction and
operation. The site at Stanton Weir, to the north of the State of Connecticut's
property, is an optimal site for a public boat launching ramp within this area,
the upland area is sufficient to provide parking and its location away from the
main marina concentrations minimizes boating safetyproblems. Such a facility
could be constructed with a minimum of environmental alteration and provide
a maximum of public access. Special care should be taken in the design and
operation of such a facility due to the relationship of the area to the channel,
and possible traffic problems during peak use periods.
(f) An appropriate fairway from the commercial marina facilities within Ram
Cove should be designated by the RICRMC and incorporated into the Westerly
Harbor Management Plan. This fairway shouldbe sufficient to protect ingress
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and egress from these facilities to the federal channel Maintenance dredging
of this channel should be allowed.
(g) Moorings should not be placed in proximity to the Pa wca tuck River Wildlife
Area. Moorings for waterfront owners should be located in proximity to their
properties, and avoid the shellfish concentration area between Ram Point and
Pawcatuck Rock. Anymoorings associated with the commercial marinas or the
Westerly Yacht club should be regulated by the respective towns, in
accordance with the recommendations of Section 520.2 Moorings These
mooring areas should also have formally established boundaries to manage
expansion.
(h) A fifteen (15) mile per hour speed zone should be established within this
sector; the speed restrictions should only be applicable during the high peak use
periods of weekends and holidays, or in other instances as determined
appropriate by the harbormaster. The zone should be established within the
Harbor Management Plans and ordinances for both towns and recommended
to the Rhode Island Department of Environmental Management, and the
Connecticut Department of Transportation for state designation. The existing
"No Wake" areas should be maintained, and if not currently formally
designated, should be.
D. Pawcatuck River Sector #4 - Marine Commercial Development
1. Description
This section includes the marinas of the Avondale and Greenhaven areas, as
well as their associated mooring areas. The area is the second largest
concentration of vessels within the estuary, and therefore an important access
center. Although an area of historic maritime-oriented use, the marinas are sited
in close proximity to private residences, with little, if any, land area for
expansion of support facilities such as parking. The commercial moorings
operated by the marinas are sited directly abutting the federal channel, creating
an area of intense activity aggravated by the relative narrowness of the river.
The physical characteristics of the river have created sedimentation problems
which have affected the ability of the marinas to operate.
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2. Objectives
(a) A primary objective for this section is to allow adequate maintenance of the
commercial marina facilities, while insuring that any expansion which occurs is
consistent with upland capacities to support the increased use.
(b) Additional objectives are to maintain an appropriate buffer zone around the
federal channel, and to minimize conflicts with other uses through the control
of the seaward extension of the facilities.
(c) The public use of the mooring area should be increased, outside of
commercially available moorings.
3. Policies, Management Regulations and Initiatives
(a) The areas presently dedicated to mooring space should be formally
established and regulated by the Towns through the Harbormasters and the
Harbor Management Plans in accordance with Section 520.2 Moorings Any
moorings currently located within the recommended channelbuffer area should
be relocated.
(b) The regulation of marina development in this sector should minimize the
extension of structures into the river to the greatest degree possible, while
allowing for a reasonable use of the water area necessary to support the
operation of the tacfflties. As a matter of policy, the states should require
permit applicants to address and demonstrate consideration of reconfiguration
and more efficient use of space within areas currently utilized by the marina
facilities as a preferred alternative to the seaward extension of structures,
including consideration of upland-rack storage, Future commercial structures
development, redevelopment or reconfiguration of existing facilities, should
extend no further seaward than the general line of structures now in place.
Both states should utilize existing statutory powers to establish seaward
construction lines which limit significant seaward expansion of the structures
and interference with the proposed mooring field.
(c) Dredging operations associated with maintenance of necessary water
depths at existing commercial marinas should be allowed; improvement
dredging in support of limited expansion should be allowed, however, a#
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practicable steps should be taken to minimize the area of disturbance, as well
as to minimize impacts to fisheries and wildlife habitats, and to promote the
efficient use of space as a priority over expansion. A priority objective should
be the maintenance of the shallow water areas along the shoreline margin and
adjacent to wetland areas.
(d) New or deepened dredged channels or basins associated with residential
boating facilities should not be allowed, shoreline alterations and structural
protection in association with such facilities should not be permitted.
E. Pawcatuck River and Little Narragansett Bay Sector #5 - Low Intensity
1. Description
This sector includes the portion of the Pawcatuck River estuary from south of
the Greenhaven-Avondale area to Little Narragansett Bay. The management
sector contains the large expanse of -open water associated with Little
Narragansett Bay, which supports a variety of commercial and recreational
activities while maintaining very valuable fish and wildlife habitat. This area is
also adjacent to Watch Hill Harbor and Wequetequock Cove, which support
water-dependent commercial and high-intensity recreational activities. The area
contains one commercial marina, Watch Hill Boat Yard, with an associated
mooring area. The Pawcatuck River estuary widens significantly in this area as
it enters the Bay. The shoreline uses within the estuarine portion are low
density residential, and agricultural. Little Narragansett Bay is the site of
intensive recreational use, being both an area where boaters congregate and a
transit area for those destined for the marinas upriver, and an active fishing,
sailing and waterskiing area. The area around Sandy Point where the federal
channel enters Fishers Island Sound is an especially active and congested area,
as boats leaving and entering the Bay must utilize this point. Little Narragansett
Bay is classified as a wetland of statewide significance by the State of
Connecticut, and supports extensive submerged aquatic vegetation, shellfish
beds and other fisheries habitats. The areas surrounding Barn Island Wildlife
Management Area, Sandy Point, Napatree Point and Watch Hill Harbor have
been excluded from this description.
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2. Objectives
(a) The primary objectives for this area include maintaining a balance among
the diverse activities found there, insuring boating safety in light of increasing
use, and protecting important fishery and wildlife habitats, especially the coves
and wetland systems.
3 Policies, Management Regulations and Initiatives
(a) The mooring field within Colonel Willie Cove should be formally established
and regulated by the Town of Westerly, through the Harbormaster and Harbor
Management Plan, All moorings currently located there should be required to
gain municipal permits, subject to the standards and regulations established in
accordance with the recommendations of Section 520.2 Moorings Given the
environmental characteristics of this area, it is an important fishery and wildlife
habitat, additional mooring growth should be assessed against potential
environmental impacts, Mooring levels should be limited to 1 mooring per
waterfront property owner who can establish a need for a mooring, and to
existing commercial mooring levels. Expansion beyond these levels should not
be allowed until an assessment of environmental impacts can be developed.
Any commercial moorings within the areas should be subject to theparking and
sanitary standards established under the Harbor Management Plans.
(b) Dredging operations associated with maintenance of necessary water
depths at the existing commercial marina should be allowed, improvement
dredging in support of limited expansion should be allowed, however, afl
practicable steps should be taken to minimize the area of disturbance, as well
as to minimize impacts to fisheries and wildlife habitats, and to promote the
efficient use of space as a priority over expansion. A priority objective should
be the maintenance of the shallow water areas along the shoreline margin and
adjacent to wetland areas.
(c) Within this management sector the associated mooring area should not be
considered part of the commercial marina operation for purposes of dredging,
rather, proposals for dredging the mooring area should be reviewed andjudged
upon a site specific environmental assessment of impacts and potential
benefits.
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(d) The mooring of houseboats, floating homes and floating businesses outside
of marinas, industrial and commercial structures and operations (excluding
fishing and aquaculture) and filling should all be prohibited.
(e) New or deepened dredged channels or basins associated with residential
boating facilities should not be allowed, shoreline alterations and structural
protection in association with such facilities should not be permitted. Dredging
within Little Narragansett Bay which is not associated with the maintenance of
the federal channel or for the purposes of preserving or enhancing the area as
a conservation area or fishery habitat should not be permitted.
(f) A ten (10) mile per hour speed limit should be established around the
northwestern tip of Sandy Point, for the purposes of controlling vessel traffic
through the channel at this point. The zone should be established far enough
away from the turning point to allow for safe and orderly navigation. The
speed restrictions should only be applicable during the high peak use periods of
weekends and holidays, or in other instances as determined appropriate by the
harbormaster. The zone should be established within the Harbor Management
Plans and ordinances for both towns and recommended to the RIDEM, and the
CTDEP for state designation.
F. Watch Hill Harbor Sector #6 - Marine Commercial Development
1. Description
Watch Hill Harbor is the most popular transient anchorage within the study
area. Land uses adjacent to the Harbor support a mixture of residential,
tourist-oriented and commercial uses. The Watch Hill area is predominately
summer use oriented, being adjacent to the beaches of Westerly. The Harbor's
relationship to Fisher's Island Sound and Block Island, as well as the protection
afforded by Napatree Beach, make it a favorite anchorage and destination point
for cruising boats. The federal anchorage within the harbor has become utilized
to capacity by seasonal moorings, precluding its general use for transient
anchorage and creating a waiting list of requests for access; approximately 300
transient vessels per season are accommodated at private dock facilities within
the Harbor. Public access to the harbor is very limited by the nature of property
ownership in the area, and parking constraints.
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2. Objectives
(a) The primary objectives for this area include insuring the equitable and most
efficient use of the anchorage space within the harbor, providing for a balance
of transient, public and resident usage. Protecting water quality from potential
discharges by transient vessels is a principle environmental concern.
3. Policies, Manamemen t Re-gula tions and Initiatives
(a) A# mooring use within the federal anchorage should be required to obtain
a permit from the Westerly harbormaster, and be regulated subject to the
standards andregulations establishedin accordance with the recommendations
of Section 520.2 MooL,@s through the Harbor Management Plan. Specific
allocation policies should be established which provide for an equitable
distribution of available mooring and anchorage space between transient,
private and public use within the harbor. These policies should be implemented
through the permitting process, and address the following issues:
1. There is a distinct need to expand the amount of area within the
harbor dedicated to free transient use. The State of Rhode Islandshould
consider reestablishing the Guest Mooring program within the harbor, to
ensure available transient moorage. The Town of Westerly, as a
condition for approval of the Harbor Management Plan, should be
required to develop an approach for making space available for transient
use or anchorage. A potential approach is to formalize the policy of the
Watch Hill Yacht Club of allowing overnight use of unoccupied private
moorings; this should be formalized and included within the HMP. A
nominal fee should be allowed to cover launch costs.
2. The availability of moorings to the general public from areas of the
town outside Watch Hill should also be expanded, however, this is
complicated by the lack of dedicated public access to the harbor and
public support facilities such as parking. The Town of Westerly and the
State of Rhode Island should make the acquisition and development of
land for these needs a priority; aninvestment in the upland increases the
potential public use of the water-side resources greatly.
3. Moorings have recently been established outside the harbor area
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proper, the RICRMC should require that these be maintained for open,
free transient use in the HMP and ordinance. The mooring tackle should
be removed during the winter, and winter stakes set to mark the
location of the bottom gear.
4. The Harbor Management Plan should establish requirements that the
commercial marina facilities and yacht clubs in Watch Hill dedicate a
specific number of parking places for use by the mooring holders who
are not patrons of the marina, as a condition of acquiring commercial
mooring permits. Access through the facility to the mooring area should
also be provided. The number of parking places required should be
related to the numbers of commercial permits granted.
5. Any commercial moorings within the area should be subject to the
parking and sanitary standards established under the Harbor
Management Plans.
6. The RICRMC should require the adoption and integration of these
recommendations into the Westerly Harbor Management Plan as a
condition of its approval.
(b) The RICRMC should establish an explicit setback for structures within the
Cove from the boundaries of the federal anchorage.
(c) The Westerly harbormaster should evaluate the efficiency of the current
mooring field arrangement, significant gains in available space may be
achievable by rearranging current mooring placement to more closely reflect
draft and swing requirements.
(d) Options for managing transient boat sewage should be explored, in
accordance with the recommendations of Section 320 Managing Boat Sewage.
G. Little Narragansett Bay, Napatree Point Sector #7 - Conservation
1. Description
Napatree Point is a privately owned, one mile long barrier beach, located south
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of Watch Hill Cove. It is an extremely important and valuable natural habitat,
as well as a popular recreational site. The barrier functions as a important
migratory bird stopover, and contains a variety of coastal habitats as well as
habitat for species of bird classified as federally threatened and Species of
Special Concern. The water areas to the north of Napatree Point are used
extensively as an anchorage by transient vessels, with concurrent use of the
shore for recreation. Water quality monitoring has shown that bacterial levels
increase during summer months in proximity to this area, with overboard
discharges from transient vessels as the most probable source. The area also
provides one of the most scenic views on the estuary, with both the expanse
of Little Narragansett Bay and the Sounds in sight from the barrier. This
section includes the waters surrounding Napatree Point to a distance of 500
feet offshore.
2. Objectives
(a) The overriding objective for the management of Napatree Point is to
preserve and protect this area from activities and uses that have the potential
to degrade its scenic, wildlife, and plant habitat values, or which may adversely
impact water quality and to restore impacted or degraded habitat values. The
proper management of the recreational uses offshore of Napatree Point, and of
the barrier system itself are essential to achieving these objectives.
3. Policies, Management Regulations and Initiatives
(a) The establishment of new mooring fields, the construction of recreational
boating facilities, either private or commercial, filling below mean high water,
the discharge of substances other than runoff water and the placement of
industrial or commercial structures or operations (excluding fishing and
aquaculture) should a# be prohibited in this area.
(b) Activities and alterations including dredging, dredged materials disposal,
structural shoreline protection, and grading and excavation of this area should
afl be prohibited unless the primary purpose of the alteration or activity is to
preserve or enhance the area as a conservation area and natural buffer against
storms.
(c) The mooring of houseboats, floating homes and floating businesses in this
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area should be prohibited, and made an action subject to enforcement and fines
under the Harbor Management Plan and Ordinance.
(d) Further study of the conflicts between human uses of the barrier and
wildlife habitat and utilization requirements should be undertaken to identify
potential solutions and management actions.
H. Little Narragansett Bay, Sandy Point, Sector #8 - Conservation
1. Description
Sandy Point is a low, uninhabited barrier island, located in the approximate
center of Little Narragansett Bay, which separates Fisher's Island Sound and
the Bay. It is a historic site of several rare and endangered wildlife species,
however, significant recreational use of the area has resulted in habitat
degradation and subsequent loss of these species in this area. The area is
heavily used in the summer by boaters and beachgoers, being readily accessible
from Stonington and Westerly. The barrier is migrating in a northwesterly
direction, necessitating dredging at the northern end to maintain the federal
channel. This sector includes the waters surrounding Sandy Point to a distance
of 500 feet offshore.
2. Objectives
(a) Management actions and initiatives pertaining to Sandy Point should aim
to protect this area from activities and uses that have the potential to degrade
its scenic, wildlife and recreational values, and to restore impacted or degraded
habitat values.
3. Policies, Managitment ftgulations and Initiatives
(a) The placement of moorings, seasonal houseboats, floating homes or
permanent structures within this sector should be prohibited to prevent
conflicts with general public recreational use of the area.
(b) Activities and alterations including dredging, dredged materials disposal,
structural shoreline protection, and grading and excavating in this area should
207
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be prohibited unless the primary and dominant purpose of the alteration or
activity is to preserve or enhance the area as a conservation area and-or natural
buffer against storms. This requirement shall not apply to maintenance
dredging of the federal channel. The RICRMC should require that the disposal
of dredged materials from the federal maintenance dredging activity of the Little
Narragansett Bay channel be carried out in such a way as to restore and
enhance wildlife habitat in accordance with the requirements of Section 420.3
Restoring Wildlife Habitat.
(c) Further study of the conflicts between human uses of the barrier and wildlife
habitat and utilization requirements should be undertaken to identify potential
solutions and management actions.
1. Little Narragansett Bay, Barn Island Sector #9 - Conservation
1. Description
The Barn Island Wildlife Management Area contains high quality wildlife habitat,,
including extensive tidal and brackish wetlands. The Management Area
provides significant breeding areas for wildlife, as well as being a significant
research and scientific area. The area is the largest holding of undeveloped
land within the study area. Additionally, the boat ramp facility provides access
to the largest numbers of users within the estuary. This sector generally
extends to a distance of 500 feet offshore.
2. Objectives
(a) To preserve, maintain and where possible restore and expand the
conservation and wildlife management status of the area.
3. Policies, Managiment Regulations and Initiatives
(a) The placement of moorings, seasonal houseboats of permanent structures
within this sector should be prohibited to prevent conflicts with general public
recreational and conservation use of the area.
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(b) Activities and alterations including dredging, dredged materials disposal,
structural shoreline protection, and grading and excavating on abutting
shoreline or coastal features should be prohibited unless the primary and
dominantpurpose of the alteration or activity is to preserve or enhance thearea
as a conservation area and natural buffer against storms.
(c) The State of Connecticut should continue its efforts to expand the area
under protection through the acquisition of adjacent lands. Additional efforts
should be made to acquire conservation easements along the wetlands corridor
between the Davis Farm property and the Pawcatuck River estuary.
J. Wequetequock Cove, Sector #10 - Low Intensity
1. Description
Wequetequock Cove encompasses an area generally north of Little Narragansett
Bay and Ledwoods Island. The Cove is approximately one and one-half miles
long. The Cove supports both marine commercial uses and some of the most
extensive wetland resources in the study area. Other land uses are
predominantly low density residential. Water depths within the Cove are
extremely shallow, and the area is subject to continuous siltation. The
AMTRAK causeway limits access to the area by all but smaller vessels. These
factors indicate that significant expansion or further development of marine
commercial uses within the Cove is inappropriate.
2. Objectives
(a) Maintain an intensity and character of use within the Cove that is
consistent with its resources, surrounding uses and physical limitations.
3. Policies, Management Regulations and Initiatives
(a) Dredging operations at the commercial marinas should be limited to that
necessary to maintain existing water depths, and to maintain the accessibility
of the existing channel; significant expansion or improvement dredging should
not be permitted.
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(b) The Cove should be evaluated for inclusion in the "Coves and Embayments
Program" of CTDEP.
(c) The Town of Stonington should maintain its present zoning designations as
regards marine commercial development within Wequetequock Cove.
(dJ Conservation easements should be sought, where appropriate, to expand
the upland buffers adjacent to the wetland areas of the Cove.
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i
REFERENCES
NOTE: Chapters 1, 11, VI, VII do not have references.
�
CHAPTER THREE
Connecticut Dept. Env. Protection, "Water Quality StandardSn. 1990
Deacutis, Chris. Rhode Island Department of Environmental Management. Personal
Communication, 1991.
Desbonnet, Alan. 1991. An Assessment of the Current Status of Water Quality and
Pollution Sources in the Pawcatuck River Estuary and Little Narragansett Bay. University
of Rhode Island, Coastal Resources Center. Prepared for the Pawcatuck Estuary
Interstate Management Project.
Doering, P., et. al., Unpublished data. MERL. University of Rhode Island, GSO, Narragansett,
RI.
Quinn, J.G., J.S. Latimer, C.G. Caney and E.J. Hoffman, 1987. A study of the water quality
of the Pawcatuck River: Chemical monitoring and computer modeling of pollutants. Vol.
1: Chemical monitoring of pollutants in the Pawcatuck River. RIDEM., Division of Water
Resources, Providence, RI.
Rhode Island Department of Environmental Management. Division of Water Resources "Water
Quality Regulations for Water Pollution Control", 1990.
United State Food and Drug Administration. 1984
CHAPTER FOUR
Alfieri, Daniel J. 1975. Organismal Development on an Artificial Substrate 1 July 1972 - 6
June 1974. Estuarine and Coastal Marine Science, Vol. 3 pp.465-472.
Boule, Marc and Ken Bierly. 1987. "History of Estuarine Development and Alteration: What
Have We Wrought?" In: The Northwest Environmental Journal, 30) Winter 1987,
pg.43-61.
Carlton, James T. 1990. Introduced Marine and Maritime Sr)ecies of Little Narragansett Bay,
Rhode Island. Unpubl. report. Maritime Studies Program, Williams College - Mystic
Seaport Museum, Mystic Connecticut.
213
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Champ, Michael A., and David F. Bleil. 1988. Research Needs Concerninq Organotin
Comoounds Used in Antifouling Paints in Coastal Environments. U.S. NOAA. Science
Applications international Corporation, Rockville, Maryland.
Chmura, Gail L. and Neil W. Ross. 1978. The Environmental Impacts of Marinas and Their
Boats: A Literature Review with Management Considerations. RIDEM Marine Advisory
Service. NOAA/SeaGrant URI Marine Memorandum 45. 32 pg.
Citak, James. Connecticut Department of Environmental Protection, Hartford, Connecticut.
Personal Communication, 1989.
Cortright, et. al. 1987. The Oregon Estuary Plan Book. State of Oregon, Department of Land
Conservation and Development. 126 pp.
Demos, Catherine J. 1986. Environmental Assessment, Finding of No Significant Impact,
Section 404 (b)(1) Evaluation: Proposed Maintenance Dredging of Little Narragansett Bay
Rhode Island and Connecticut. Attachment 2. New England Division, U.S. ACOE,
Waltham, Massachusetts. 15 pg.
Desbonnet, Alan. 1991. An Assessment of the Current Status of Water Quality and Pollution
Sources in the Pawcatuck River Estuary and Little Narra-gansett Bay. University of Rhode
Island Coastal Resources Center. Prepared for the Pawcatuck Estuary Interstate
Management Project, Rhode Island Coastal Resources Management Council, Wakefield,
Rl.
Gaines, Jack L. 1982. Sanitary Quality of the Shellfish Growing Waters of Little Narragansett
Bay, Rhode Island and Connecticut. Northeast Technical Services Unit, U.S. FDA.
Ganz, Arthur. RIDEM Division of Fish and Wildlife, Marine Fisheries Division, Shellfish. Personal
Communication, 1989 and 1990.
Gibson, Mark. RIDEM Division of Fish and Wildlife, Marine Fisheries Division, Great Swamp
Management Area, Kingston, Rhode Island. Personal Communication 1990.
Guthrie, Richard C., et. al. 1979. A Strategic Plan for the Restoration of Atlantic Salmon to the
Pawcatuck River. RIDEM Division of Fish and Wildlife, U.S. Fish and Wildlife. 30 pg.
Howard-Strobel, et. al. 1987. The Narrow River Special Area Management Plan. Adooted
December 8, 1986. Coastal Resources Management Council. 146 pg.
214
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IEP, Inc. 1989. Comprehensive Plan Revision, Working Paper No.1: Natural and Cultural
Resources. Prepared for: Westerly Comprehensive Plan Advisory Committee.
MacConnell, William P., et al. 1974. Rhode Island Map Down, Land-use and Vegetative Cover
Mapping Classification Model. Circular No. 169, Cooperative Extension Service, URI,
Kingston, RI.
McConnaughey, Bayard H. and Evelyn McConnaughey. 1985. Pacific Coast. Audubon
Society Nature Guides. New York: Knopf.
Merola, Paul. Connecticut Department of Environmental Protection, Franklin Wildlife
Management Area, North Franklin, Connecticut. Personal Communication, 1989.
Miller, William R. and Frank E. Egler. 1950. Vegetation of the Weciueteguock-Pawcatuck Tidal
Marshes, Connecticut. Connecticut Fish and Game Service. Reprinted from Ecological
Monographs, 20: 143-172.
Narragansett Times. 1986. "Coyote: A Problem in North Kingston". In: Narragansett Times,
September 12.
Pellegrino, P.E. and W.A. Hubbard. 1983. Baseline shellfish data for the assessment of potential
environmental impacts associated with energy activities in Connecticut's coastal zone.
Southern Connecticut State University Foundation, Inc. New Haven, Connecticut. 177
pg-
Rosza, Ron. Connecticut Department of Environmental Protection, Hartford, Connecticut.
Personal Communication, 1990.
Sisson, Richard T., et. al. 1987. Marine Sport Fisheries Investigations: Svortfish Por)ulation
Surveys in RI Marine Waters. Draft Report. RIDEM Division of Fish and Wildlife.
Sisson, Richard T. RIDEM Division of Marine Fisheries, Wickford, Rhode Island. Personal
Communication, 1990.
Sposato, John. Staff biologist, Rhode Island Coastal Resources Management Council,
Wakefield, Rhode Island. Personal Communication, 1989.
Swimmer, Evelyn, et. al. 1984. Wood-Pawcatuck Rivers Study. Technical Report 1. National
Park Service, Mid-Atlantic Region.
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U.S. Environmental Protection Agency. 1985. Coastal Marinas Assessment Handbook. U.S.
EPA, Region IV, Atlanta, Georgia.
Vlaun, Marcia A. and Robert J. Birmingham. 1982. Town of Stonington Coastal Area
Management Municioal Coastal Plan. Town of Stonington, Connecticut and Connecticut
DEP Coastal Area Management Program.
Visel, Tim. University of Connecticut Seagrant, Avery Point, Connecticut. Personal
Communication, 1989 and 1990.
Warren, R. Scott, William Niering, et.al. 1985. Barn Island Management Study. Unpubl. report.
Connecticut DEP. 38 pg.
White, 1972.
Whitlach, Robert B. 1982. The Ecology of New England Tidal Flats: A Community Profile. U.S.
Fish and Wildlife Service, Biological Services Program, Washington, D.C.
FWS/OBS-81/01. 125 pp.
Williams, Jack E., James E. Johnson, et. al. 1989. Fishes of North America Endan_qered,
Threatened, or of Special Concern: 1989. Fisheries, Vol. 14, No. 6. Nov-Dec 1989. pp
2-20.
Willis, Jeffrey M. 1991. Technical Report #2. An Assessment of the Current Status of
Recreational Uses on the Pawcatuck River Estuary and Little Narra-gansett Bay.
Pawcatuck Estuary Interstate Management Project.
CHAPTER FIVE
Carpenter, Ben. Stonington Harbor Management Commission. Stonington, Connecticut.
Personal Communication, December 7, 1989.
Hall, John. Frank Hall Jr. Boatyard and Assistant Harbormaster, Westerly, Rhode Island.
Personal Communications, December 14,1989; January 11 and 24, 1990; and February
27, 1990.
Hall, Roger. Lotteryville Marina. Westerly, Rhode Island. Personal Communication, December
14, 1989.
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Hetu, Henry. Cove Edge Bait and Tackle. Westerly, Rhode Island. Personal Communication,
February 12, 1990.
McNeil, Eileen. Executive Director, Stonington Community Center, Stonington, Connecticut.
Personal Communication, December 11, 1989.
Medeiros, Thomas. R.I. Coastal Resources Management Council. Wakefield, Rhode Island.
Personal Communication, August 1 and October 16, 1990.
New Shoreham, Rhode Island, Draft Harbor Management Plan, 1990.
Pichette, Edward. Wequetequock Cove Boat Company. Stonington, Connecticut. Personal
Communication, November 24, 1989.
Robinson, Neil. Manager, Watch Hill Yacht Club. Personal Communication, May 1, 1990.
Sylvia, Francis, Sgt. Stoningtion Police Department. Town of Stonington, Connecticut.
Personal Communications, May 1 and June 25, 1990.
Steadman, Larry. Assistant Harbormaster, Westerly, Rhode Island. Personal Communications,
November 12, 1989; March 15 and 16, and June 25, 1990.
Stonington, Connecticut, Shellfish Commission meeting, 1989.
United States Army Corps of Engineers, New England Division. 1989. Guidelines for the
Placement of Fixed and Floating Structures in the Navigable Waters of the United States.
U.S. Army Corps of Engineers, NED. Waltham, Mass.
Watsky, Josh. Coveside Marina. Stonington, Connecticut. Personal Communications,
December 6, 1989 and March 13, 1990.
Willis, Jeffrey M. 1991. An Assessment of the Current Status of Recreational Uses on the
Pawcatuck River Estuary and Little Narragansett Bay. Rl Coastal Resources Management
Council, Wakefield, RI, developed for the Pawcatuck Estuary Interstate Management
Project.
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APPENDIX A
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File No. 433
Substitute Senate Bill No. 440
State cticut
S E
Senate, April 12, 1990. The Committee on
Government Administration and Elections reported
through SEN. ATKIN, 25th DIST., Chairman of the
Committee on the part of the Senate, that the
substitute bill ought to pass.
AN ACT ESTABLISHING THE BI-STATE PAWCATUCK RIVER
COMMISSION, THE HOUSATONIC RIVER ESTUARY
COMMISSION, THE BI-STATE FARMINGTON RIVER
COMMISSION AND CONCERNING BANTAM LAKE AND THE
SHEPAUG BANTAM RIVER PROTECTION COMMISSION.
Be it enacted by the Senate and House of
Representatives in General Assembly convened:
I Section 1. (NEW) In order to provide for the
2 maximum enhancement of the marine resources of the
3 Pawcatuck River, the legislature hereby finds that
4 the best interest of the people of the state and
5 the communities involved will be served by the
6 establishment of a Connecticut-Rhode island
7 Bi-State Pawcatuck River Commission to make
8 specific recommendations concerning the
9 maintenance, protection and restoration of such
10 marine resources.
11 Sec. 2. (NEW) There is hereby established a
12 Bi-State Pawcatuck River Commission. The
13 commission shall consist of ten members, five of
14 whom shall be residents of Connecticut and five of
15 whom shall be residents of Rhode Island. The
16 Connecticut members shall be as follows: Three
17 members appointed by the board of selectmen of
18 Stonington, one member appointed by the member of
19 the state senate representing the district which
A-1
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2 File No. 433
20 includes Stonington and one member appointed by
21 the member of the state house of representatives
22 representing the district which includes
23 Stonington.
24 .-Sec. 3. (NEW) The commission may make such
25 recommendations as may be necessary to effectuate
26 the purposes of sections 1 to 4, inclusive, of
27 this act. In furtherance of its responsibilities
28 under this act, the commission shall coordinate
29 and recommend standardization of all laws relative
30 to the Pawcatuck River including, but not limited
31 to, standardization of jurisdiction of coastal
32 waters by harbor management commissions, municipal
33 waterfront authorities, municipal conservation
34 commissions, municipal port authorities and
35 municipal shellfish commissions. The commission
36 shall consider the adverse impact any action
37 proposed in or for the Pawcatuck River may have
38 upon the marine resources of said river. The
39 commission shall prepare and submit a report to
40 the governors and the legislatures of the
41 respective states on or before February fifteenth,
42 annually.
43 Sec. 4. (NEW) The commission may request and
44 receive from any department, division, board,
45 bureau, commission or other agency of the state of
46 Connecticut or the state of Rhode Island, or any
47 political subdivision thereof or any public
48 authority such data as may be necessary to enable
49 the commission to carry out its responsibilities
50 under this act.
51 Sec. 5. (NEW) (a) The towns of Shelton,
52 Derby, Ansonia, Orange, Stratford and Milford may
53 by ordinance establish a.Housatonic River Estuary
54 Commission. The ordinance shall set forth the
55 number of members of the commission, their method
56 of selection, terms of office and procedure for
57 filling any vacancy. The commission may employ
58 expert and such other assistants as it judges
59 necessary and may accept funds from any source.
60 Notwithstanding any other provision of the general
61 statutes, funds appropriated to the commission, or
62 received by the commission from any other source,
63 shall be held in the custody of the.-commission and
64 expended by the commission for the purposes set
65 forth in subsection (b) of this section.
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File No. 433 3
66 (b) The commission may study any issues
67 relating to the Housatonic River and may make such
66 recommendations as may be necessary to maintain,
69 protect and restore the resources of the estuary
70 of the Housatonic River. The co'mmission shall
71 consider the adverse impact any action proposed in
72 or for the Housatonic River estuary may have upon
73 the marine resources of said river. The commission
74 may prepare and submit a report to the local
75 legislative body of the towns represented on said
76 commission. .
77 Sec. 6. (NEW) There is hereby established a
78 Bi-State Farmington River Commission. Such
79 commission shall consist of eighteen members, nine
80 of whom shall be residents of Connecticut and nine
81 of whom shall be residents of Massachusetts. The
82 Connecticut members shall be as follows: one
83 member representing the department of
84 environmental protection, appointed by the
85 governor, one representative from each of the
86 towns of Barkhamsted, Hartland, Colebrook, New
87 Hartford and Canton, each appointed by the local
88 legislative body of such towns, and one member who
89 shall be appointed jointly by the speaker of the
90 house of representatives and the majority leader
91 of the house of representatives, one member who
92 shall be appointed jointly by the president pro
93 tempore of the senate and the majority leader of
94 the senate and one member who shall be appointed
95 jointly by the minority leader of the senate and
96 the minority leader of the house of
97 representatives. Members of the general assembly
98 may be appointed to said commission. T h;8 P, * Wtcv@
00 a mem rs of the Mass chu tt n.r 1
01 a s b e r pre nta ve ro e h
02 o n t T lla B ket nd S n 's i a
03 e emb e e e i g a achu et s
105 Sec. 7. (NEW) The commission may make such
106 recommendations as may be necessary to effectuate
107 the purposes of sections 6 and 7 of this act. In
108 furtherance of its responsibilities, the
109 commission shall consider any action proposed for
110 the area of the Farmington River bordering on the
ill towns identified in section 6 of this act and
112 being considered for designation under the wild
113 and Scenic Rivers Act. The commission shall
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114 consider the impact of such proposed action upon
115 the wild, scenic, recreational and historic values
116 of said river and shall act to protect and enhance
117 such values. The commission shall prepare and
118 submit a report to the local legislative bodies of
119 the respective towns, if requested by such towns.
120 Sec '- 8. Section 26-19 of the general statutes
121 is repealed and the following is substituted in
122 lieu thereof:
123 No person shall operate a boat propelled by
124 an internal combustion engine upon the waters of
125 that part of Bantam River in the town of
126 Litchfield between the demarcation lines
127 established under the provisions of section 26-110
128 at the mouth OR OUTLET of said river where it
129 enters Bantam Lake and the outlet OR INLET at
130 Little Pond. Any person who violates any provision
131 of this section shall be fined not more than one
132 hundred dollars. Any conservation officer shall
133 have the power to enforce the provisions of this
134 section.
135 Sec. 9. (NEW) Notwithstanding the provisions
136 of section 25-102uu of the general statutes, the
137 Shepaug Bantam River Protection Commission shall
138 review and comment on all applications affecting
139 the Shepaug River or the Bantam River, or both,
140 which are received by the inland wetlands agencies
141 of the towns of Litchfield, Morris, Roxbury,
142 Warren and Washington.
143 Sec. 10. Sections 1 to 4, inclusive, of this
144 act shall take effect upon the enactment by the
145 state of Rhode Island of legislation having like
146 effect as said sections of this*act.
147 Sec. 11. Sections 6 and 7 of this act shall
148 take effect upon the enactment by the state of
149 Massachusetts of legislation having like effect as
150 said sections of this act.
151 Committee Vote: Yea 13 Nay 1
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File No. 433 5
"THE FOLLOWING FISCAL IMPACT STATEMENT AND BILL
ANALYSIS ARE PREPARED FOR THE BENEFIT OF MEMBERS OF THE
GENERAL ASSEMBLY, SOLELY FOR PURPOSES OF INFORMATION,
SUMMARIZATION AND EXPLANATION AND DO NOT REPRESENT THE
INTENT OF THE GENERAL ASSEMBLY OR EITHER HOUSE THEREOF
FOR ANY PURPOSE."
FISCAL IMPACT STATEMENT BILL NUMBER sSB 440
STATE IMPACT See explanation below
MUNICIPAL IMPACT minimal Cost, can be absorbed, see
explanation below
STATE AGENCY(S) Environmental Protection,
Legislative management
EXPLANATION OF ESTIMATES:
STATE IMPACT: Although the legislation doesn't
explicitli -state that the Depar.tment of Environmental
Protection shall staff the Bi-State Commissions, it has
been the experience of the DEP that when such
commissions are established approximately 10-15 staff
days a year are spent on each commission at a cost of
approximately $1500 to $2000 per commission (based on
an average agency salary of $36,000 a year).
MUNICIPAL IMPACT: Any increased costs to municipalities
due to th6- -establishment of the various commissions
(Bi-State Pawcatuck River Commission, Housatonic River
Estuary Commission, and the Bi-State Farmington River
Commission) are anticipated to be absorbed within
municipal resources as are any cost incurred due to
reviewing applications by the Shepaug Bantam River
Protection Commission.
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APPENDIX B
227
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Coordination of Harbor Management Authorities
- MEMORANDUM OF AGREEMENT -
DRAFT
Memorandum of Agreement by and bewteen the
Town of Stonington, Connecticut and the Town of Westerly, Rhode Island
WHEREAS, the Town of Stonington, CT and the Town of Westerly, RI have
mutually determined that coordination of harbor management,
harbormaster, and enforcement activities within the area of the
Pawcatuck River and Little Narragansett Bay would be mutually
advantageous and would be consistent with the goals and objectives
of the Pawcatuck Estuary Interstate Management Plan; and,
WHEREAS, coordination of harbor management, harbormaster, and police
patrol enforcement capabilities between the Town of Stonington, CT
and Westerly, RI currently does not formally exist; and,
WHEREAS, each town's harbor management, harbormaster, and police patrol
enforcement activities at times currently overlap and/or result in
areas of the Pawcatuck River or Little Narragansett Bay not being
patrolled; and,
WHEREAS, concerns over boating and recreational uses safety are increasing
as the number of recreational uses increases in the Pawcatuck River
and Little Narragansett Bay.
NOW, THEREFORE, the Town of Stonington, CT and the Town of Westerly, RI do
hereby mutually agree to coordinate harbor management, harbormaster,
and enforcement activities within the Pawcatuck River and Little
Narragansett Bay areas according to the following stipulations:
STIPULATIONS
1. The harbormasters and police patrols of each town, and their
respective designates, shall have mutual harbor management
jurisdiction as provided in each town's harbor management plan, and
then only in the areas of common jurisdiction as outlined in
Stipulation 2 (below) . The harbormasters are authorized to enforce
all elements of both town's harbor management plans.
2. The common jurisdictional area for each town is the Pawcatuck River
from the Stillmanville Bridge south to its confluence into Little
Narragansett Bay, and the entire area known as Little Narragansett
Bay, inclusive of all coves named or otherwise. This common
jurisdiction extends beyond these areas only so much as to properly
enforce the provisions of each harbor management plan.
3. Enforcement action occurring within the areas of common jurisdiction
will be enforceable by each town's harbormaster and police patrols
and shall be governed by the ordinance of the town where the
enforcement action occurred.
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MEMORANDUM OF AGREEMENT
Coordination of Harbor Management Authorities
Town of Stonington, Connecticut and the Town of Westerly, Rhode Island
Page 2
4. Any monies levied under the provisions of either harbor management
plan and/or its respective ordinance by either town shall be
deposited Hin a joint harbor management fund dedicated for the
continued and future management of the common jurisdiction area) OR
(divided into equal parts between the two town's harbor management
programs)].
5. Activities of mutual concern, such as moorings placements, sailing
regatas, and marine parades, shall be coordinated through each
towns' harbor management program and the harbormasters and police
patrols of both towns.
6. Upon notification and coordination between each town's harbormaster
or police patrol, each harbormaster and police patrol is authorized
to place, redesignate, move, and remove any mooring or structure
which creates a safety hazard, is determined to be illegal,
encroaches upon the federal navigation channel, or has been
determined to be in violation of either town's harbor management
program.
7. The harbor management commissions for the towns of Stonington, CT
and Westerly, RI shall be responsible for the implementation of this
Memorandum of Agreement for the Coordination of Harbor Management
Authorities.
This Memorandum of Agreement for the Coordination of Harbor Management
Authorities will become effective upon the signing of this document.
FOR THE TOWN OF STONINGTON, CT:
Date:
Chair, Pawcatuck River Harbor Management Commission
FOR THE TOWN OF WESTERLY, RI:
Date:
Chair, Wersterly Harbor Management Commission
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APPENDIX C
231
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1A
JOINT LETTER OF AGREEMENT
BETWEEN
STATE OF RHODE ISLAND AND PROVIDENCE PLANTATIONS
COASTAL RESOURCES MANAGEMENT COUNCIL
AND
STATE OF CONNECTICUT
DEPARTMENT OF ENVIRONMENTAL PROTECTION
COASTAL RESOURCES MANAGEMENT DIVISION
The purpose of this joint letter is to develop and formalize an agreement
between the State of Rhode Island, Coastal Resources Management Council
(RICRMC) and the State of Connecticut, Department of Environmental Protection
(CTDEP) as it pertains to coordinating the management and regulation of
dredging within the Pawcatuck River estuary and Little Narragansett Bay. The
initial step to formalize and achieve this coordination is to assure that the
policies, directions and planning efforts of the two states, within these
waterbodies, are mutually buttressed, reinforced and coordinated. This letter
of understanding provides guidance on how to achieve understanding and
facilitate such coordination and to assure mutually supportive working
arrangements between RICRMC and CTDEP.
In order to insure a logical, sequential and coordinated implementation
of a unified plan for uses of the Pawcatuck River estuary and Little
Narragansett Bay as established with the adopted management plan for that area,
it is hereby agreed between RICRMC and CTDEP that:
1. All dredging operations within the Pawcatuck River estuary and Little
Narragansett Bay, within the limits defined on the attached maps, shall be
conducted solely during the following periods:
a). Within Little Narragansett Bay, between September 1 and January 30;
b). Within the Pawcatuck River estuary, between November I and January 15;
2. All dredging operations must be completed during this period; operations
which cannot be completed during this period must be conducted during
sequential seasons. However, approved projects may extended for a period of up
to two weeks upon approval by both agencies.
3. All applications for dredging operations shall be submitted in a timely
fashion such that all necessary approvals are "in-hand" by June 1 prior to the
first season in which the applicant wishes to dredge. The RICRMC and CTDEP
shall meet and decide upon an allowable number of dredging operations which may
be conducted that season, with advice and comment from the state fish and
wildlife and water quality divisions of the Rhode Island Department of
Environmental Management and Connecticut Department of Environmental
Protection.
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4. The RICRMC and CTDEP agree to exchange notice and final copies of all
permits issued for dredging operations within the Pawcatuck River estuary and
Little Narragansett Bay, and to integrate these policies and restrictions
within all maintenance or general permits issued within the estuary.
The Coastal Resources Management Council and the Department of
Environmental Protection will continue to work towards expanding mutually
supportive aspects of programs, plans and regulatory functions during planning
and implementation of same. These will address aspects of mutual concern,
including protection, preservation and restoration of the Pawcatuck River
estuary and Little Narragansett Bay in accordance with legislative mandates and
coordination of regulatory activities.
Chairman, Rhode Island Coastal Resources Management Council
Commissioner, Connecticut Department of Environmental Protection
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APPENDIX D
235
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RHODE ISLAND COASTAL RESOURCES MANAGEMENT PROGRAM
WATER TYPE DESIGNATIONS
The following list is a simplification of the allowed and prohibited uses of specific
water areas under the Rhode Island Coastal Resources Management Program (RI
CRMP). In many cases, a certain use may be allowable only with restrictions. This
section attempts only to provide general guidance to where differing uses might be
allowed. A detailed description of the policies and prohibitions for each water type can
be found in the appropriate sections of the RI CRMP.
1. TYPE 1 WATERS: Conservation Areas
The Council's goal is to preserve and protect Type 1 waters from activities and
uses that have the potential to degrade scenic, wildlife, and plant habitat
values, or which may adversely impact water quality and the diversity of
natural shoreline types.
Included in this category are water areas that are within the boundaries of
designated wildlife refuges and conservation areas, water areas that have
retained undisturbed natural habitat or maintain scenic values of unique or
unusu6I significance, and water areas that are particularly unsuitable for
structures due to their exposure to severe wave action, flooding, and erosion.
Fishing, swimming, shellfishing, aquaculture, wildlife areas, conservation uses,
and low intensity recreational uses are allowable uses in Type 1 waters.
Maintenance and improvement dredging, recreational mooring areas,
commercial operations other than fishing and\or aquaculture, structural
shoreline protection facilities, residential boating facilities, marinas, and
launching ramps are all prohibited uses in Type 1 waters.
2. TYPE 2 WATERS: Low Intensity Use Areas
The Council's goal is to maintain and, where possible, restore the high scenic
value, water quality, and natural habitat values of these areas, while providing
for low-intensity uses that will not detract from these values.
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This category includes water in areas with high scenic values that support
low-intensity recreational and residential uses. These waters include seasonal
mooring areas where good water quality and fish and wildlife habitat are
maintained.
Fishing, swimming, aquaculture, conservation areas, non-commercial
recreational mooring areas, maintenance of existing navigational channels,
transient anchorage areas, residential boating facilities, and launching ramps are
allowable uses in Type 2 waters.
Commercial mooring areas, improvement dredging, and marinas are prohibited
uses in Type 2 waters.
3. TYPE 3 WATERS: High Intensity Recreational Boating Areas
The Council's goal is to preserve, protect, and where possible, enhance Type
3 areas for high-intensity boating and the services that support this activity.
Other activities and alterations will be permitted to the extent that they do not
significantly interfere with recreational boating activities or values.
This category includes intensely utilized water areas where recreational boating
activities dominate and where the adjacent shorelines are developed as marinas,
boatyards, and associated water-enhanced and water-dependent businesses.
Commercial and recreational mooring areas, public launching ramps, boatyards,
marinas, houseboats (in marinas), channels, fairways, turning areas, structural
shoreline protection facilities, and maintenance and improvement dredging are
allowable uses in Type 3 waters.
Swimming areas, aquaculture, and low-intensity recreational areas are
prohibited use in Type 3 waters.
4. TYPE 4 WATERS: Multipurpose Areas
The CRIVIP policies for multi-purpose waters are to maintain a balance among
the diverse activities that coexist in Type 4 waters; therefore, allowable and
non-allowable uses for these areas will be measured against the degree to
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which they impair other activities such as fishing, water quality, navigation and
recreational uses.
5. TYPE 5 WATERS: Commercial and Recreational Harbors
The Council's goals are to maintain a balance among diverse port-related
activities, including recreational boating, commercial fishing, restaurants, and
other water-enhanced businesses; to promote the efficient use of space; and
to protect the scenic characteristics that make these areas valuable to tourism.
These waters are adjacent to waterfront areas that support a variety of tourist,
recreational, and commercial activities.
Berthing, mooring, servicing of recreational crafts, commercial fishing vessels
or ferries, water-dependent, water-enhanced commerce, maintenance of
navigational channels and removal of obstructions to navigation are allowable
uses in Type 5 waters.
Conservation areas, recreational areas, and fishing or other exclusionary use are
prohibited in Type 5 waters.
6. TYPE 6 WATERS: Industrial Waterfronts & Commercial Navigational Channels
The Council's goals for Type 6 waters and adjacent lands under Council
jurisdiction are to encourage and support modernization and increased
commercial activity related to shipping and commercial fisheries. These water
areas are extensively altered in order to accommodate commercial and industrial
water-dependent and water-enhanced activities.
Modernization and increased commercial fisheries, berthing, loading and
unloading, and servicing of commercial vessels, construction and maintenance
of port facilities, navigational channels & berths, and construction and
maintenance of support facilities for commercial fishing are allowable uses in
Type 6 waters.
Activities which substantially detract from or interfere with the above listed
priority use are prohibited in Type 6 waters.
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APPENDIX E
241
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THE CONNECTICUT COASTAL MANAGEMENT ACT:
CHAPTER 444
Relevant Statutory Sections Only
SECTION 22A-92. Le-gislative Goals and Policies.
(a) The following general goals and policies are established by this chapter:
(3) To give high priority and preference to uses and facilities which are
dependent upon proximity to the water or the shorelands immediately adjacent
to marine and tidal waters.
(b) In addition to the policies stated in subsection (a), the following policies are
established for federal, state and municipal agencies in carrying out their
responsibilities under this chapter:
(1) Policies concerning development, facilities and uses within the coastal
boundary are: (A) To manage uses in the coastal boundary through existing
municipal planning, zoning and other local regulatory authorities and through
existing state structures, dredging, wetlands and other state siting and
regulatory authorities, giving highest priority and preference to water-dependent
uses and facilities in shorefront areas;
SECTION 22-93
(16) " Water-de pendent uses" means those uses and facilities which require direct
access to, or location in, marine or tidal waters and which therefore cannot be located
inland, including but not limited to: Marinas, recreational and commercial fishing and
boating facilities, finfish and shellfish processing plants, waterfront dock and port
facilities, shipyards and boat building facilities, water-based recreational uses,
navigation aides, basins and channels, industrial uses dependent upon water-borne
transportation or requiring large volumes of cooling or process water which cannot
reasonably be located or operated at an inland site and uses which provide general
public access to marine or tidal waters;
(17) "Adverse impacts on future water-dependent development opportunities" and
"adverse impacts on future water-dependent development activities" include but are
not limited to (A) locating a non-water-de pendent use at a site that (i) is physically
suited for a water-dependent use for which there is a reasonable demand or (ii) has
been identified for a water-dependent use in the plan of development of the
municipality or the zoning regulations; (B) replacement of a water-dependent use with
a non-water-dependent use, and (C) siting of a non-water-dependent use which would
substantially reduce or inhibit existing public access to marine or tidal waters.
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