[From the U.S. Government Printing Office, www.gpo.gov]
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Operations Plan
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THE FEDERAL COMMITTEE FOR
METEOROLOGICAL SERVICES AND SUPPORTING RESEARCH (FCMSSR)
DR. WILLIAM E. EVANS, Chairman MR. ROBERT H. MORRIS
Department of Commerce Federal Emergency Management Agency
MR. EWEN M. WILSON DR. LENNARD A. FISK
Department of Agriculture National Aeronautics and Space
Administration
DR. GEORGE P. MILLBURN
Department of Defense DR. ROBERT W. CORELL
National Science Foundation
VACANT
Department of Energy MR. WILLIAM G. LAYNOR
National Transportion Safety
DR. WAYNE N. MARCHANT Board
Department of Interior
DR. DENWOOD F. ROSS
DR. LISLE A. ROSE U.S. Nuclear Regulatory Commission
Department of State
MR. H. MATTHEW BILLS
MR. NEAL A. BLAKE Environmental Protection Agency
Department of Transportation
MR. ROBERT L. CARNAHAN
MR. DAVID TORNQUIST Federal Coordinator for Meteorology
Office of Management and Budget
DR. JAMES A. ALMAZAN, Executive Secretary
Office of the Federal Coordinator for
Meteorological Services and Supporting Research
THE INTERDEPARTMENTAL COMMITTEE FOR
METEOROLOGICAL SERVICES AND SUPPORTING RESEARCH (ICMSSR)
MR. ROBERT L. CARNAHAN, Chairman MR. NEAL THAYER
Federal Coordinator U.S. Coast Guard
Department of Transportation
DR. NORTON D. STROMMEN
Department of Agriculture MR. FRANCIS A. SCHIERMEIER
Environmental Protection Agency
DR. RONALD D. McPHERSON
Department of Commerce MR. ROBERT T. JASKE
Federal Emergency Management Agency
COL TED S. CRESS, USAF
Department of Defense DR. SHELBY TILFORD
National Aeronautics and Space
DR. HARRY MOSES Administration-
Department of Energy
DR. RICHARD S. GREENFIELD
MR. LEWIS T. MOORE National Science Foundation
Department of Interior
MR. JAMES C. McLEAN, JR
DR. LISLE A. ROSE National Transportation Safety Board
Department of State
MR. ROBERT A. KORNASIEWICZ
MR. RICHARD J. HEUWINKEL U.S. Nuclear Regulatory Commission
Federal Aviation Administration
Department of Transportation MR. DAVID TORNQUIST
Office of Management and Budget
DR. JAMES A. ALMAZAN, Executive Secretary
Office of the Federal Coordinator for
Meteorological Services and Supporting Research
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FEDERAL COORDINATOR
FOR
METEOROLOGICAL SERVICES AND SUPPORTING RESEARCH
11426 Rockville Pike, Suite 300
Rockville, Maryland 20852
NATIONAL HURRICANE OPERATIONS PLAN
U S. DEPARTMENT OF COMMERCE NOAA
CGASIAL SERVICES CENTER
i'234 SOUTH HOBSON AVENUE
r.,,....~ ChARLESTON SC 29405-2413
FCM-P12-1989
April 1989 Property of CSC Library
Washington, D.C.
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CHANGE AND REVIEW LOG
Use this page to record changes and notices of reviews.
Change Page Date Initial
Number Numbers Posted
3
4
5
6
7
9
10
Changes are indicated by a vertical line in the margin next to
the change.
Review Comments Initial
Date
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FOREWORD
This publication is the 27th edition of the National
Hurricane Operations Plan (NHOP). It reflects the procedures
and agreements reached at the 43rd Interdepartmental Hurricane
Conference (IHC), which was held at the U.S. Air Force
Conference Center, Homestead Air Force Base, Florida, January
10-13, 1989. Details of the conference can be found in the
minutes published by this office.
The conference is sponsored annually by the Working Group
for Hurricanes and Winter Storms Operations, Committee for Basic
Services of the Interdepartmental Committee for Meteorological
. ~Services and Supporting Research. It brings together the
cognizant Federal agencies to reach agreement on items of mutual
interest and concern related to hurricane forecasting and warning
services. The host for the conference was Headquarters, Air
Weather Service, Scott Air.Force Base, Illinois.
The significant changes in content in this edition of the
NHOP reflect the anticipated improvement in aerial reconnissance
sensing of tropical cyclones resulting from the availability of
the Improved Weather Reconnaissance System (IWRS). The first
production article of the IRWS was installed on a 53rd Weather
Reconnaissance Squadron aircraft 65-0966H in December, 1988.
Additional systems are scheduled to be installed during 1989.
Robertarnahan
Federal Coordinator for
Meteorological Services and
Supporting Reseach
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NATIONAL HURRICANE OPERATIONS PLAN
TABLE OF CONTENTS
Page
CHANGE AND REVIEW LOG ..................................... ii
FOREWORD .................................................. iii
TABLE OF CONTENTS ......................................... v
LIST OF FIGURES ........................................... viii
LIST OF TABLES ........................................... x
CHAPTER 1. INTRODUCTION
1.1. General ................................. 1-1
1.2. Scope ................................... 1-1
CHAPTER 2. RESPONSIBILITIES OF COOPERATING FEDERAL AGENCIES
2.1. General ................................. 2-1
2.2. DOC Responsibilities .................... 2-1
2.3. DOD Responsibilities .................... 2-3
2.4. DOT Responsibilities ....................2-4
2.5. Annual Liaison with Other Nations ....... 2-4
2.6. Air Traffic Control/Flight Operations
Coordination ........................... 2-4
CHAPTER 3. GENERAL OPERATIONS AND PROCEDURES OF THE NATIONAL
WEATHER SERVICE HURRICANE CENTERS
3.1. General ................................. 3-1
32Prdcs.............. ..* 3-1
3.3. Designation of Tropical and Subtropical
Cyclones ................. 3.
3.4. Transfer of Warning Responsibility ...... 3-6
3.5. Alternate Warning Responsibilities ...... 3-11
3.6. Abbreviated Communications Headings ..... 3-11
CHAPTER 4. NATIONAL WEATHER SERVICE PRODUCTS FOR THE
DEPARTMENT OF DEFENSE
4.1. General ................................. 4-1
4.2. Observations ............................ 4-1
4.3. Marine Advisories ;:::::::::::::::::::::4-1
v
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CHAPTER 5. AIRCRAFT RECONNAISSANCE
5.1. General ................................. 5-1
5.2. Responsibilities ........................5-1
5.3. Control of Aircraft .. .................... 5-2
5.4. Reconnaissance Requirements ... .......... 5-2
5.5. Reconnaissance Planning and Flight
Notification . ,., , , 5-7
5.6. Reconnaissance Effectiveness Criteria ... 5-15
5.7. Aerial Reconnaissance Weather Encoding,
Reporting, and Coordination ............. 5-16
5.8. Operational Flight Patterns ..... ........ 5-19
5.9. Aircraft Reconnaissance Communications .. 5-24
CHAPTER 6. SATELLITE SURVEILLANCE OF TROPICAL AND SUBTROPICAL
CYCLONES
6.1. Satellites ........ ...................... 6-1
6.2. National Weather Service Support ........ 6-1
6.3. NESDIS Synoptic Analyis Branch .......... 6-4
6.4. AFGWC Support and the Defense Meteor-
ological Satellite Program ..... ......... 6-5
6.5. Satellites and Satellite Data Availability
for the Current Hurricane Season ........ 6-5
6.6. Current Intensity and Tropical Class-
ification Number ........................ 6-5
CHAPTER 7. SURFACE RADAR REPORTING
7.1. General ................................. 7-1
7.2. Procedures .............................. 7-1
7.3. Special Provisions ...................... 7-2
CHAPTER 8. NATIONAL DATA BUOY CENTER REPORTING STATIONS
8.1. General .... ............................. 8-1
8.2. Requests for Drifting Buoy Deployment ... 8-1
8.3. Communications .......... ....................... 8-2
CHAPTER 9. MARINE WEATHER BROADCASTS
9.1. General ................................. 9-1
9.2. Broadcast Procedures .................... 9-1
CHAPTER 10. PUBLICITY
10.1. News Media Releases ................... 10-1
10.2. Distribution .......................... 10-1
APPENDIX A. ABBREVIATIONS ............................... A-1
APPENDIX B. GLOSSARY .................................... B-1
APPENDIX C. BIBLIOGRAPHY OF OFFICIAL INTERAGENCY
AGREEMENTS .................................. C-1
vi
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APPENDIX D. DISTRIBUTION ............................... D-1
APPENDIX E. SAFFIR-SIMPSON HURRICANE SCALE .............. E-1
APPENDIX F. PHONETIC PRONUNCIATION LISTING .............. F-1
APPENDIX G. RECCO, MINOB, AND TEMP DROP CODES, TABLES,
AND REGULATIONS ............................. G-1
APPENDIX H. TELEPHONE AND TELETYPE LISTING .............. H-1
vii
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LIST OF FIGURES
Figure Page
1-1. Tropical cyclone forecast centers' areas of
responsibility . .................................... 1-2
2-1. Hurricane Gilbert, September 13, 1988, 2131 UTC ... 2-6
4-1. Marine advisory format. ............................ 4-3
4-2. Hurricane Joan, October 22, 1988, 0601 UTC. ........ 4-4
5-1. Form 3--Vortex data message. ........................ 5-5
5-2. Form 4--Supplementary vortex data message. ......... 5-6
5-3. Form 1--NHOP coordinated request for aircraft
reconnaissance ..................................... 5-8
5-4. USAF WC-130 weather reconnaissance aircraft equipped
with the Improved Weather Reconnaissance System ... 5-13
5-5. Form 2--Tropical cyclone plan of the day format ... 5-14
5-6. Form 5--Mission evaluation form. ................... 5-17
5-7. Flight patterns ALPHA and modified ALPHA. .......... . 5-20
5-8. Recommended pattern ALPHA execution. ............... 5-21
5-9. Flight pattern DELTA. .............................. 5-23
5-10. Schematic of aircraft to satellite data link
for NOAA P-3 aircraft. ............................. 5-26
5-11. Schematic of aircraft to satellite data link for
USAF WC-130 aircraft. .............................. 5-29
6-1. GOES central data distribution system. ............. 6-4
6-2. Sample satellite tropical disturbance summary. ..... 6-6
v i i i
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6-3. Center fix data form and message format
(satellite) . ....................................... 6-7
8-1. A drifting data buoy. .............................. 8-4
8-2. Drifting data buoy deployment patterns. ............ 8-4
8-3. NDBC buoy locations. ............................... 8-5
8-4. C-MAN sites. ....................................... 8-7
G-1. Reconnaissance code recording form. ................. G-2
G-2. Sample MINOB message. .............................. G-6
ix
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LIST OF TABLES
Table Page
3-1. Watch and warning break points. .................... 3-4
3-2. Atlantic tropical cyclone names. .................. 3-7
3-3. Eastern Pacific tropical cyclone names. .......... 3-8
3-4. Central Pacific tropical cyclone names. .......... 3-9
3-5. Western Pacific tropical cyclone names. .......... 3-10
5-1. Vortex data message entry explanation .......... . 5-9
5-2. Surface pressure as a function of 850-hPa height. 5-22
5-3. ASDL data transmission schedule. ................. 5-28
6-1. Satellite and satellite data availability for the
current hurricane season. ........................ 6-2
6-2. Communications headings for satellite tropical
disturbance summaries . ............................. ......... 6-8
6-3. The empirical relationship between the C.I. number
and the maximum wind speed and the relationship
between the T-number and the minimum sea-level
pressure ......................................... 6-8
7-1. Participating radar stations. ..................... 7-3
8-1. Data buoy locations and configuration. ........... 8-3
8-2. C-MAN sites. ............................. ....... 8-5
8-3. Code forms for moored data buoys, C-MAN stations,
and drifting buoys. ............................ 8-8
9-1. Marine tropical cyclone forecast broadcast
stations . ........................................ 9-1
G-1. Reconnaissance code tables ...................... G-3
G-2. Reconnaissance code regulations. ................. G-5
G-3. MINOB message format and breakdown. .............. G-7
G-4. TEMP DROP code breakdown. ........................ G-8
x
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CHAPTER 1
INTRODUCTION
1.1. General. The tropical cyclone warning service is an
interdepartmental effort to provide the United States and
designated international recipients with forecasts, warnings,
and assessments concerning tropical and subtropical weather
systems. The National Oceanic and Atmospheric Administration
of the Department of Commerce is reponsible for providing
forecasts a-nd warnings for the Atlantic and Eastern and Central
Pacific Oceans while the Department of Defense provides the
same for the Western Pacific and Indian Ocean (see Figure 1-1.)
Interdepartmental cooperation achieves economy and efficiency
in the operation of the tropical cyclone warning service. This
plan provides the basis for implementing agreements of the
Department of Commerce, Department of Defense, and the
Department of Transportation reached at the annual
Interdepartmental Hurricane Conference (combined Atlantic and
Eastern Pacific). The Interdepartmental Hurricane Conference
is sponsored by the Committee for Basic Services of the
Interdepartmental Committee for Meteorological Services and
Supporting Research to bring together cognizant Federal
agencies and achieve agreement on items of mutual concern
related to the Atlantic and Eastern Pacific tropical cyclone
warning services.
1.2. Scpe The procedures and agreements contained herein
apply to t e Atlantic Ocean, Gulf of Mexico, Caribbean Sea, and
North Pacific Ocean east of the 180th meridian. This plan is
intended to define the role of the individual agencies
participating in the tropical cyclone warning service when more
than one agency is involved in the delivery of service in any
specific area. When a single agency is involved in any
specific area, that agency's procedures should be contained in
internal documents and, to the extent possible, be consistent
with National Hurricane QOerations Plan practices and
procedures.
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JTVCC
WESTERN PACIFIC . ,
AZORS
I-N
Note Places underlined are Tropical Cycludone Forecast Cenrs.ribbean,
Figure 1-1. Tropical cyclone forecast centers' areas Gulf of responsibity.co)
CNRLPACIFIC
EATRN PACIFIC
Me:te Places underlined are , ,,,alCylone Fore sl etes
Figure 1-1. Tropical cyclone foreca-st centers' areas of responsibity.
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CHAPTER 2
RESPONSIBILITIES OF COOPERATING FEDERAL AGENCIES
2.1. General. The Department of Commerce (DOC) is charged with
the overall responsibility to implement a responsive, effective
national tropical cyclone warning service. Many local, state,
a~nd Federal agencies play a vital role in this system--their
cooperative efforts help ensure necessary preparedness actions
are undertaken to minimize loss of life and destruction of
property. The joint participation by the Department of Defense
(DOD) and the Department of Transportation (DOT) with the
Department of Commerce brings to bear those limited and
expensive Federal resources considered essential for storm
detection and accurate forecasting. This cooperative effort has
proven to be a cost effective, highly responsive endeavor to
meet national requirements for tropical cyclone warning
i nformati on.
. ~2.2. DOC Responsibilities. The DOC will
2.2.1. Provide timely dissemination of forecasts,
'warnings, and all significant information regarding tropical and
subtropical cyclones to appropriate agencies, general public,
and marine and aviation interests.
2.2.2. Through the National Weather S~ervice (NWS), provide
the following additional support services to the DOD:
2.2.2.1. Consult, as necessary, with DOD regarding
their day-to-day requirements for cyclone assessments and
attempt to meet these requirements within the capabilities of
the tropical cyclone warning service.
2.2.2.2. Prepare, though the National Hurricane
Center (NHC), and distribute to DOD the coordinated DOC
reconnaissance and other meteorological data requirements to be
provided by DOD on tropical or subtropical cyclones and
disturbances.
2.2.2.3. Provide facilities, administrative support,
and dissemination of weather observation data for Operating
Location G (OL-G), 7th Weather Wing (7WW) as agreed to by DOC
is and DOD.
2-1
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2.2.2.4. Provide DOD with basic meteorological
information, warnings, forecasts, and associated prognostic
reasoning concerning location, intensity, and forecast movement
of tropical and subtropical cyclones in the following maritime
areas and adjacent states and possessions of the United States:
2.2.2.4.1. Atlantic Ocean (north of the equator
including the Caribbean Sea and Gulf of Mexico)--advisories are
the responsibility of the Director, NHC, Miami, FL. The NHC
will consult with the Naval Eastern Oceanography Center,
Norfolk, VA, prior to issuing initial and final advisories and
prior to issuing any advisory that indicates a significant
change in forecast of intensity or track from the previous
advisory. Exchange of information is encouraged on subsequent
warnings when significant changes are made or otherwise
required.
2.2.2.4.g. Eastern Pacific Ocean (north of the
equator and east of 140 W)--advisories are the responsibility
of the Director, NHC. The NHC will consult with the Naval
Western Oceanography Center (NAVWESTOCEANCEN), Pearl Harbor, HI,
prior to issuing initial and final advisories and prior to
issuing any advisory that indicates a significant change in
forecast of intensity or track from the previous advisory.
Exchange of information is encouraged on subsequent warnings
when significant changes are made or otherwise required.
2.2.g.4.3. Central Pacific Ocean (north of the
equator between 140 W and 180�)--advisories are the
responsibility of the Director, Central Pacific Hurricane Center
(CPHC), Honolulu, HI. The CPHC will consult with the
NAVWESTOCEANCEN and Detachment 4, 20th Weather Squadron, Hickam
AFB, HI, prior to issuing initial and final advisories and prior
to issuing any advisory that indicates a significant change in
forecast of intensity or track from the previous advisory.
Exchange of information is encouraged on subsequent warnings
when significant changes are made or otherwise required.
2.2.3. Through the NWS, conduct an annual post analysis
for all tropical cy1lones in the Atlantic and the Pacific
regions east of 180 and prepare an annual hurricane report to
issue to interested agencies.
2.2.4. Through the National Environmental Satellite, Data,
and Information Service operate DOC environmental satellite
systems capable of providing coverage of meteorological
conditions in the tropics during the tropical cyclone season and
monitor and interpret DOC satellite imagery. Obtain, as
2-2
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necessary, National Aeronautics and Space Administration
research and development satellite and DOD operational satellite
data for NWS operational use. Comply with NHC and CPHC
satellite data requirements.
2.2.5. Through the National Data Buoy Center (NDBC),
develop, deploy, and operate environmental data buoy systems and
automated coastal stations to support data requirements of the
NHC and CPHC.
2.2.6. Through the National Oceanic and Atmospheric
Administration (NOAA) Office of Aircraft Operations (OAO),
provide weather reconnaissance flights as specified in Chapter
5, unless relieved of these responsibilities by the
Administrator of NOAA.
2.3. DOD Responsibilities. The DOD will
2.3.1. Provide NWS with timely dissemination of
significant information received regarding tropical and
subtropical cyclones.
2.3.2. Provide NHC and CPHC current DOD requirements for
tropical and subtropical cyclone advisories.
2.3.3. Meet DOC requirements for aircraft reconnaissance
and other special observations as agreed to by DOD and DOC (see
Appendix C).
2.3.4.- Provide at NHC a 24-hr aircraft operation
interface--Chief, Aerial Reconnaissance Coordinator, All
Hurricanes. ]
2.3.5. Designate OL-G, 7WW as the liaison to NHC and the
military point of co'ntact for NHC to request special DOD
observations in support of this plan, i.e., Defense
Meteorological Satellite Program (DMSP) fixes, additional upper-
air observations, etc.
2.3.6.' Provide broadcast facilities of radio station NAM
for tropical storm and hurricane forecasts and warnings.
2.3.7. Provide access to North American Aerospace Defense
Command long-range radar sites (see Chapter 7).
2.3.8. Provide weather reconnaissance data monitor
services to evaluate and disseminate reconnaissance reports.
2.3.9. Provide, through Air Force Global Weather Central,
Offutt AFB, NE, surveillance support and fixes and/or intensity
2-3
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estimates to all United States tropical cyclone warning agencies
through analysis of satellite imagery obtained primarily from
the DMSP system.
2.4. DOT Responsibilities. The DOT will
2.4.1. Provide NWS with timely dissemination of
significant information received regarding tropica'l and
subtropical cyclones.
2.4.2. Provide, through the Federal Aviation
Administration, air traffic control, communications, and flight
assi stance services.
2.4.3. Provide the following through the U.S. Coast Guard:
* Personnel, vessel, and communication supp~ort to the
NDBC for development, deployment, and operation of
moored enviromental data buoy systems;
* Surface observations to NWS from its coastal
facilities and vessels;
* Communications circuits for relay of weather
observations to NWS in selected areas;
* Primary guard Automated Digital Network support to
OL-G, 7WW; and
*Coastal broadcast facilities at selected locations
for tropical storm or hurricane forecasts and
warnings.
2.5. Annual Liaison with Other Nations. The DOD, DOC, and DOT
will cooperate in arranging an annual trip to the Caribbean and
the Gulf of Mexico area to carry out a continuing and effective
liaison of the warning service with the directors of
meteorological services, air traffic control agencies, and
disaster preparedness agencies of nations in those areas.
2.6. Air Traffic Control/Fliqht Operations Coordination. The
operations officers of the principal flying units, the Assistant
Manager for Traffic Management, Traffic Management Branch, Air
Traffic Control Command Center, Central Flow Control Facility,
Washington, D.C., and the assistant managers for traffic
management or assistant manager for military operations, as
appropriate, at key air route traffic control centers (ARTCC)
will maintain a close working relationship on a continuing basis
to ensure mission' success under actual tropical storm
conditions. This will involve visits to each other's0
2-4
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facilities, familiarization flights, and telephone and teletype
communications to improve the understanding of each other's
requirements and capabilities.
2.6.1. The 53rd Weather Reconnaissance Squadron, the 815th
Weather Operations Flight, and OAO operations officers will
maintain a close working relationship with the Air Traffic
Control Command Center, Central Flow Control Facility, and the
appropriate ARTCCs and the Fleet Aerial Control and Surveillance
Facility (FACSFAC) for the coordination of weather
reconnaissance flights in the Gulf of Mexico and over the
Caribbean Sea in particular, and in the United States in
general. The operations officers will
2.6.1.1. Request the assistance of the appropriate
ARTCC/FACSFAC in support of the National Hurricane Operations
Plan.
2.6.1.2. Provide the current operations officer's
name and telephone number to the appropriate ARTCC and FACSFAC.
2.6.1.3. Publish the unit's telephone numbers
(Federal Telephone System (FTS)/Automated Voice Network
(AUTOVON (AV))/ Commercial) and teletype address code for
Service B (Appendix H).
2.6.2. The Air Traffic Control Command Center, appropriate
ARTCCs, and FACSFAC will maintain a close working relationship
with the weather reconnaissance units and provide airspace and
air traffic control assistance to the extent possible. Those
organizations will
2.6.2.1. Provide the current names and telephone
numbers of points of contact to the flying units.
2.6.2.2. Publish telephone numbers
(FTS/AV/Commercial) and teletype code for Service B
(Appendix H).
2-5
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21n1 13E 8 19A-1 0449416401 MA19N82W-1
Figure 2-1. Hurricane Gilbert, September 13, 1988, 2131 UTC.
2-6;
wR | k X | | g~~*7~
E i4
Fly~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~4
Figure 2-1. Hurricane Gilbert, September 13, 1988, 2131 UTC.
2 -6
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CHAPTER 3
GENERAL OPERATIONS AND PROCEDURES OF THE
NATIONAL WEATHER SERVICE HURRICANE CENTERS
3.1. General. This chapter describes the products, procedures,
and communications headers used by the National Hurricane Center
(NHC) and the Central Pacific Hurricane Center (CPHC).
3.2. Products.
3.2.1. Tropical Weather Outlook (TWO). Tropical weather
outlooks are issued by the NHC and CPHC during their respective
hurricane seasons. The NHC writes TWOs in both the Atlantic and
Eastern Pacific. They are transmitted at 0530, 1130, 1730, and
2230 Eastern Local Time in the Atlantic and at 0400, 1000, 1600,
and 2200 Pacific Local Time in the Eastern Pacific. In the
Central Pacific TWOs are transmitted by the CPHC at 1000 and 2200
UTC. The outlook briefly describes both stable and potentially
unstable areas out to 48 hr. A tropical weather summary of
Atlantic tropical cyclone activity will be prepared and issued at
the end of each month during the hurricane season.
3.2.2. Tropical Cyclone Discussion.
3.2.2.1. The NHC will issue a tropical cyclone
discussion on Atlantic tropical cyclones at 0330, 0930, 1530, and
2130 UTC, and on Eastern Pacific tropical cyclones at 0230, 0830,
1430, and 2030 UTC. Discussions will be disseminated for
intragovernmental use only and will contain preliminary prognostic
positions up to 72 hr; will describe objective techniques,
synoptic features, and climatology used; and will provide reasons
for track changes.
3.2.2.2. The CPHC will issue a tropical cyclone
discussion twice daily not later than 0330 and 1530 UTC. The
discussions will describe objective techniques, synoptic features,
and climatology used and will provide reasons for track changes.
3.2.3. Public Advisories. Public advisories are issued by
the NHC for all tropical cyclones in the Atlantic. In the Eastern
Pacific, public advisories are issued by NHC for tropical cyclones
that are expected to affect land within 48 hr. In the Central
Pacific, public advisories are issued by CPHC for all tropical
cyclones within the area of responsibility.
3-1
�
Scheduled public advisories are issued at the same time scheduled
marine advisories are issued. However, when NHC is issuing
advisories every three hours in the Atlantic, the 0400 UTC public
advisory will be issued at 0230 UTC to ensure that the latest
information is available for the heavily-watched evening local
news shows. Watch and warning break points are listed in Table
3-1. [Note: Public advisories use statute miles for distance and
miles per hour for speed. Nautical miles and knots may be added
at the discretion of the centers.]
3.2.4. Marine Advisories. Marine advisories are issued by
the NHC and the CPHC. See Section 4.3 for content and format of
the advisories. Marine advisories will be transmitted to
high-seas shipping according to the details found in Worldwide
Marine Weather Broadcasts, jointly published by the U.S. Navy
and National Weather Service. In the Atlantic, these advisories
should be distributed 30 min before their effective times of 0400,
1000, 1600, and 2200 UTC. In the Pacific the advisories are
scheduled for 0300, 0900, 1500, and 2100 UJTC for position times of
0000, 0600, 1200, and 1,800 UTC, respectively. Pacific advisories
should be transmitted 15 min before the effective time.
3.2.5. Probability of Hurricane/Tropical Storm Conditions.
3.2.5.1. The probability of the storm center passing0
within 50 mi to the right or 75 mi to the left of specific
forecast points within 24, 36, 48, and 72 hr is included in the
public advisories for all named storms in the Atlantic, Caribbean,
and the Gulf of Mexico. Probabilities may also be included for
yet to be named storms that are developing rapidly near a
coastline, dependent upon NHC assessment. Probabilities will not
be included on intermediate public advisories. The probabilities,
which are based on the official forecast track, will be issued
when the 72-hr forecast position approaches the coast and will
continue until the hurricane or tropical storm has made landfall
and is not expected to reemerge over water. For storms forecast
to paralled the coast, the maximum value over water points will be
included. The NHC retains the right to discontinue issuance of
probabilities earlier if other factors arise, such as difficulties
with evacuation orders.
3.2.5.2. The probabilities will be computed shortly
after synoptic times for the periods 0-24, 24-36, 36-48, and 48-72.
hr. A total probability for the next 72 hr will be shown in the
last column and represents a total of all forecast periods. If
the probability of a storm hitting a coastal location within 48 hr
is needed, add the 0-24, 24-36, and the 36-48 hr probabilities.
If the probability for a location is less than one percent, an X
will be indicated in the table.
3 -2
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3.2.5.3. ~When appropriate, specific probabilities will
be computed for the following locations:
Brownsville, TX West Palm Beach, FL
Corpus Christi, TX Fort Pierce, FL
Port O'Connor, TX Cocoa Beach, FL
Galveston, TX Daytona Beach, FL
Port Arthur, TX Jacksonville, FL
New Iberia, LA Savannah, GA
New Orleans, LA Myrtle Beach, SC
Buras, LA Charleston, SC
Gulfport, MS Wilmington, NC
Mobile, AL Cape Hatteras, NC
Pensacola, FL Ocean City, MD
Panama City, FL Atlantic City, NJ
Apalachicola, FL Norfolk, VA
St. Marks, FL New York City, NY
Cedar Key, FL Montauk Point, NY
Tampa, FL Providence, RI
Venice, FL Nantucket, MA
Fort Myers, FL Hyannis, MA
Marco Island, FL Boston, MA
Key West, FL Portland, ME
Marathon, FL Bar Harbor, ME
Mi8mi, FL0 Eastport ,0ME
29 0N 85 0W 28N 93
29N 87 0W 280 950
280 890 27 ON960
28ON 91OW 25 ON 97OW
3.2.6. Tropical Cyclone Updates. Tropical cyclone updates
are brief statements in lieu of or preceding special advisories to
inform of significant changes in a tropical cyclone or the posting
* ~or-cancelling of watches and warnings.
3.2.7. Atlantic and Gulf of Mexico Tropical Cyclone Position
Estimates. The NHC may also issue hourly tropical cyclone
position estimates when the tropical cyclone is under effective
surveillance and within 200 nmi of land-based radar. These
estimates, when issued, will be prepared a short time before each
hour except at hours when advisories are issued. Position
estimates disseminated to the public, DOD, and other Federal
agencies will provide geographical positions in latitude and
longitude and also by distance and direction from a well-known
poi nt.
3.2.8. Special Tropical Disturbance Statement. Special
tropical disturbance statements may be issued to furnish
O ~information on strong formative, non-depression systems.
3-3
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Table 3-1. Watch and warning break points.
1. Brownsville, TX 48. Vero Beach, FL
2. Port Mansfield, TX 49. Sebastian Inlet, FL
3. Baffin Bay, TX 50. Cocoa Beach, FL
4. Corpus Chisti, TX 51. Titusville, FL
5. Port Aransas, TX 52. New Smyrna, FL
6. Port O'Connor, TX 53. St. Augustine, Fl
7. Matagorda, TX 54. Fernandina Beach, FL
8. Freeport, TX 55. Brunswick (Atlamaha Sound), GA
9. High Island, TX 56. Savannah, GA
10. Port Arthur, TX 57. Edisto Beach, SC
11. Sabine Pass, TX 58. Cape Romain, SC
12. Cameron, LA 59. Little River Inlet, SC
13. Morgan City, LA 60. Cape Fear, NC
14. Grand Isle, LA 61. Topsail Beach, NC
15. Mouth of Mississippi River, LA 62. Bogue Inlet, NC
16. Mouth of Pearl River, LA 63. Cape Lookout, NC
17. Gulfport, MS 64. Ocracoke Inlet, NC
18. Mobile, AL 65. Cape Hatteras, NC
19. Pensocola, FL 66. Oregon Inlet, NC
20. Fort Walton, FL 67. Albemarle Sound, NC
21. Panama City, FL 68. Virginia Beach, VA
22. Apalachicola, FL 69. Cape Charles, VA
23. St. Marks, FL 70. North Chesapeake Bay, MD
24. Aucilla River, FL 71. South Chesapeake Bay, MD
25. Steinhatchee River, FL 72. Chincoteague, VA
26. Suwannee River, FL 73. Cape Henlopen, DE
27. Cedar Key, FL 74. Fenwick Island, DE
28. Yankeetown, FL 75. Cape May, NJ
29. Bay Port, FL 76. Brigatine, NJ
30. Anclote Key, FL 77. Sandy Hook, NJ
31. Long Boat Key, FL 78. Manasquan, NJ
32. Venice, FL 79. Fire Island, LI, NY
33. Boca Grande, FL 80. Montauk Point, LI, NY
34. Fort Myers, FL 81. Port Jefferson Harbor, LI, NY
35. Bonita Beach, FL 82. New Haven, CT
36. Everglades City, FL 83. Watch Hill, RI
37. Flamingo, FL 84. Point Judith, RI
38. Seven Mile Bridge, FL 85. Woods Hole, MA
39. Craig Key, FL 86. Chatham, MA
40. Key Largo, FL 87. Plymouth, MA
41. Hallandale, FL 88. Gloucester, MA
42. Deerfield Beach, FL 89. Merrimack River, MA
43. Boyton Beach, FL 90. Portsmouth, NH
44. Lake Worth, FL 91. Portland, ME
45. Jupiter Inlet, FL 92. Rockland, ME
46. Stuart, FL 93. Bar Harbor, ME
47. Fort Pierce, FL 94. Eastport, ME
3-4
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3.2.9. Storm Summaries. Storm summaries are written by the
National Severe Storms Forecast Center after subtropical and
tropical cyclones have moved inland and public advisories have
been discontinued. Storm summaries will continue to be numbered
in sequence with public advisories on named storms. Also, these
summaries will reference the former storm's name and be issued as
long as the remnants of the storm remain a serious flooding
threat. Storm summaries will be transmitted at 0500, 1100, 1700,
and 2300 UTC.
3.2.10. Satellite Tropical Disturbance Summary. These are
issued twice a day by the CPHC to describe significant weather in
the tropical regions of the Central Pacific. World Meteorological
Organization contractions are used.
3.2.11. Satellite Interpretation Message. These are issued
four times a day by the NHC and the National Meteorological Center
in Washington to describe synoptic features and significant
weather areas. Federal Aviation Administration contractions are
used.
3.2.12. Tropical Weather Discussion. These are issued four
* ~times a day by the NHC. They describe significant features from
the latest surface analysis and significant weather areas for 0the
Gulf of Mexico, the Caribbean, and between the eq8ator and 320N in
both the Atlantic and Eastern Pacific east of 140 W. Plain
lanuage is used.
3.2.13. Tropical Disturbance Rainfall Estimates. As
required, the NHC issues satellite based rainfall estimates for
tropical disturbances and tropical cyclones within 36 hr of
expected landfall-for the Caribbean, the Bahamas, and both coasts
of Mexico.
3.3. Designation of Tropical and Subtropical Cyclones.
3.3.1. Numbering of Depressions. Each depression will be
assigned a number that will be retained throughout the life of the
cyclone. This depression number will not, however, be
disseminated on advisories after a depression is named as a
tropical storm or hurricane. For each hurricane center's area,
numbering will begin with ONE at the start of each calendar year.
When forecast responsibility is passed from one warning center to
another, the assi~gned number will be retained.
3.3.1.1. For the Atlantic, Caribbean, and Gulf of
Mexico, depression numbers with the suffix A, e.g., ONE-A, TWO-A,
THREE-A, will be assigned by the NHC after advising the Navy
* ~Eastern Oceanography Center, Norfolk.
3- 5
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3.3.1.2. For the Pacific east of 140�W, depression
numbers, with the suffix E, e.g., ONE-E, TWO-E, THREE-E, will be
assigned by the NHC after advising the Navy Western Oceanography
Center (NAVWESTOCEANCEN), Pearl Harbor.
0 3.3.1.3. For the Pacific west of 140�W and east of
180 , depression numbers, with suffix C, e.g., ONE-C, TWO-C,
THREE-C, will be assigned after advising the NAVWESTOCEANCEN,
Pearl Harbor.
3.3.2. Naming of Tropical Storms and Hurricanes.
3.3.2.1. Atlantic and Eastern Pacific. A different set
of names will be used each year. After a set is used, it will
drop to the end of the list to be used again in six years. Names
of significant hurricanes will be retired and replaced. Lists of
Atlantic and Eastern Pacific names are provided in Tables 3-2 and
3-3, respectively.
3.3.2.2. Central Pacific. When a tropical depression
intensifies into a tropical storm or hurricane between 140 W and
180 , the depression number will be discontinued and replaced by
an appropriate name. The CPHC will select the name from the list
of Central Pacific names in Table 3-4. All of the names listed in
each column, beginning with column 1, will be used before going on
to the next column.
80 3.3.2.3. Western Pacific. For the Pacific west of
180 , tropical storms and typhoons are named by the Joint Typhoon
Warning Center (JTWC), Guam. The names listed in Table 3-5 are
for information only.
3.4. Transfer of Warninq ResDonsibilitv.
o0 3.4.1. When a tropical or subtropical cyclone approaches
140 W, the coordinated transfer of warning responsibility from the
NHC to the CPHC will be made and the appropriate advisory issued.
3.4.2. When a tropical or subtropical cyclone crosses 1800
from east to west, the coordinated transfer of warning
responsibility from CPHC to JTWC through NAVWESTOCEANCEN, Pearl
Harbor, will be made and the appropriate advisory issued.
3.4.3. When a tropical or subtropical cyclone crosses 1800
from west to east, the coordinated transfer of warning responsi-
bility from JTWC to CPHC will be made through NAVWESTOCEANCEN,
Pearl Harbor. The JTWC will append the statement, "Next advisory
by CPHC-HNL." to their last advisory.
3-6
�
Table 3-2. Atlantic Tropical Cyclone Names
1989 1990 1991 1992 1993 1994
ALLISON ARTHUR ANA ANDREW ARLENE ALBERTO
BARRY BERTHA BOB BONNIE BRET BERYL
CHANTAL CESAR CLAUDETTE CHARLEY CINDY CHRIS
DEAN DIANA DANNY DANIELLE DENNIS DEBBY
ERIN EDOUARDQ ERIKA EARL EMILY ERNESTO
FELIX FRAN FABIAN FRANCES FLOYD FLORENCE
GABRIELLE GUSTAV GLORIA GEORGES GERT *
HUGO HORRTENSE HENRI HERMINE HARVEY HELENE
IRIS ISIDORE ISABEL IVAN IRENE ISSAC
JERRY JOSEPHINE JUAN JEANNE JOSE *
KAREN KLAUS KATE KARL KATRINA KEITH
LUIS LILI LARRY LISA LENNY LESLIE
MARILYN MARCO MINDY MITCH MARIA MICHAEL
NOEL NANA NICHOLAS NICOLE NATE NADINE
OPAL OMAR ODETTE OTTO OPHELIA OSCAR
PABLO PALOMA PETER PAULA PHILIPPE PATTY
ROXANNE RENE ROSE RICHARD RITA RAFAEL
SEBASTIEN SALLY SAM SHARY STAN SANDY
TANYA TEDDY TERESA TOMAS TAMMY TONY
VAN VICKY VICTOR VIRGINIE VINCE VALERIE
WENDY WILFRED WANDA WALTER WILMA WILLIAM
*Replacement names determined at the WMO Region IV meeting in April, 1989
will be inserted.
�
Table 3-3. Eastern Pacific tropical cyclone names.
1989 1990 1991 1992 1993 1994
ADOLPH ALMA ANDRES AGATHA ADRIAN ALETTA
BARBARA BORIS BLANCA BLAS BEATRIZ BUD
COSME CRISTINA CARLOS CELIA CALVIN CARLOTTA
DALILIA DOUGLAS DELORES DARBY DORA DANIEL
ERICK ELIDA ENRIQUE ESTELLE EUGENE EMILIA
FLOSSIE FAUSTO " FEFA FRANK FERNANDA FABIO
GIL GENEVIEVE GUILLERMO GEORGETTE GREG GILMA
HENRIETTE HERNAN HILDA HOWARD HILARY HECTOR
ISMAEL ISELLE IGNACIO ISIS IRWIN *
JULIETTE JULIO JIMENA JAVIER JOVA JOHN
KIKO KENNA KEVIN KAY KNUT KRISTY
LORENA LOWELL LINDA LESTER LIDIA LANE
6 - MANUEL MARIE MARTY MADELINE MAX MIRIAM
NARDA NORBERT NORA NEWTON NORMA NORMAN
OCTAVE ODILE OLAF ORLENE OTIS OLIVIA
PRISCILLA POLO PAULINE PAINE PILAR PAUL
RAYMOND RACHEL RICK ROSLYN RAMON ROSA
SONIA SIMON SANDRA SEYMOUR SELMA SERGIO
TICO TRUDY TERRY TINA TODD TARA
VELMA VANCE VIVIAN VIRGIL VERONICA VICENTE
WINNIE WALLIS WALDO WINIFRED WILEY WILLA
XINA XAVIER XINA XAVIER XINA XAVIER
YORK YOLANDA YORK YOLANDA YORK YOLANDA
ZELDA ZEKE ZELDA ZEKE ZELDA ZEKE
If over 24 tropical cyclones occur in a year, then the Greek alphabet will
be used following ZEKE or ZELDA.
*Replacement name determined at the WMO Region IV meeting, April, 1989,
will be inserted.
�
Table 3-4. Central Pacific tropical cyclone names.
COLUMN I COLUMN 2 COLUMN 3 COLUMN 4
NAME PRONUNCIATION NAME PRONUNCIATION NAME PRONUNCIATION NAME PRONUNCIATION
AKONI ah-KOH-nee AKA. AH-kak -ALIKA ah-LEE-kah ANA AH-nah
EMA EH-mah EKEKA eh-KEH-kak ELE EH-leh ELA EH-lah
HANA HAH-nah ~ HALI HAH-lee 'HUKO HOO-koh HALOLA hah-LOH-lah
10 EE-oo INIKI ee-NEE-kee IOKE ee-OH-keh IUNE ee-00-neh
KELI KEH-lee KEONI keh-OH-nee KIKA KEE-kah KIMO KEE-moh
LALA LAH-lah LI LEE LANA LAH-nah LOKE LOH-keh
MOKE MOH-keh MELE MEH-leh MAKA MAH-kah MALIA mah-LEE-ah
~'NELE NEH-leh NONA NOH-nah NEKI NEH-kee NIAL-A nee-AH-lah
OKA OH-kah OLIWA oh-LEE-Yah OLEKA oh-LEH-kah OKO OH-koh
PEKE PEH-keh PAKA PAH-kah PENI PEH-nee PALI PAH-lee
ULEKI oo-LEH-kee UPANA oo-PAH-nah ULIA oo-LEE-.ah ULIKA oo-LEE-kah
WILA VEE-lah WENE WEH-neh WALI WAH-lee WALAKA wah-LAH-kah
NOTE: Use Column I list of names until exhausted before going to Column 2, etc.
ALL letters in the Hawaiian language are pronounced including double or triple
vowels
�
Table 3-5. Western Pacific tropical cyclone names.
COLUMN I COLUMN 2 COLUMN 3 COLUMN 4
ANGELA ABE AMY AXEL
BRIAN BECKY BRENDAN BOBBIE
COLLEEN CECIL CAITLIN CHUCK
DAN DOT DOUG DEANNA
ELSIE ED ELLIE ELI
FORREST FLO FRED FAYE
GAY GENE GLADYS GARY
HUNT HATTIE HARRY HELEN
IRMA IRA IVY IRVING
JACK JEANA JOEL JANIS
KORYN KYLE KINNA KENT
LEWIS LOLA LUKE LOIS
MARIAN MIKE MIREILLE MARK
NATHAN NELL NAT NINA
OFELIA OWEN ORCHID OMAR
PERCY PAGE PAT POLLY
ROBYN RUSS RUTH RYAN
STEVE SHARON SETH SIBYL
TASHA TIM THELMA TED
VERNON VANESSA VERNE VAL
WINONA WALT WILDA WARD
YANCY YUNYA YURI YVETTE
ZOLA ZEKE ZELDA ZACK
NOTE:
Names will be assigned in rotation, alphabetically. When the last
name, ZACK, has been used the sequence will begin again with
ANGELA.
This entire list was updated at the 1989 Tropical Cyclone Conference.
(~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
�
3.5. Alternate Warning Responsibilities. In the event of
impending or actual operational failure of a hurricane forecast
center, responsibilities will be transferred to an alternate
facility in accordance with existing directives and retained
there until resumption of responsibility can be made. The
NAVEASTOCEANCEN, Norfolk, will be advised by the NHC and Chief,
Aerial Reconnaissance Coordinator, All Hurricanes (CARCAH) of
impending or actual transfer of responsibility by the most rapid
means available. Alternate facilities are as follows:
PRIMARY ALTERNATE
NHC National Meteorological Center,
Meteorological Operations
D Division
Washington, DC
CPHC NHc
CARCAH* Detachment 1, 7th Weather Wing,
(Det 1, 7WW) Keesler AFB, MS
*In the event of the operational failure of CARCAH, direct
communication is authorized between Det 1, 7WW and the forecast
facility. Contact Det 1, 7WW at AUTOVON (AV) 868-2544/Commercial
(COM) 601-377-2544 or through the Keesler AFB Command Post at AV
868-4330/COM 601-377-4330.
3.6. Abbreviated Communications Headinqs. Abbreviated
communications headings are assigned to advisories on tropical and
subtropical cyclones and other advisories based on depression
numbers or storm name and standard communication procedures.
[Note: an abbreviated heading consists of three groups with ONE
space between the second and third groups. The first group
contains a data type indicator (e.g., WT for hurricane), a
geographical indicator (e.g., NT for North Atlantic and Caribbean),
and a number. The second group contains a loction identifier of
the message originator (e.g., KMIA for Miami). The third group is
a date-time group in UTC. An example of a complete header is
WTNT31 KMIA 180400.] Abbreviated communication headers for the
areas of reponsibility follow:
3.6.1. Atlantic
ABNT20 KMIA Tropical Weather Outlook
ABNT30 KMIA Tropical Weather Summary (monthly)
WTNT41-45 KMIA Tropical Cyclone Discussion
3-11
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WTNT31-35 KMIA Public Advisory
WTNT21-25 KMIA Marine Advisory
WWNT21-25 KMIA Marine Subtropical Storm Advisory
WWNT31-35 KMIA Subtropical Storm Advisory
WTNT61 KMIA Tropical Cyclone Update
WTNT51 KMIA Tropical Cyclone Position Estimate
WONT41 KMIA Special Tropical Disturbance Statement
WTXX9O KMIA Tropical Cyclone Discussion for WMO
Region IV Stations
3.6.2. Eastern and Central Pacific.
3.6.2.1. All advisories on hurricanes, tropical storms,
and depressions are under WT abbreviated headings as follows:
ABPZ30 KMIA Tropical Weather Summary
ABPA30 PHNL Tropical Weather Summary
WTPZ21-25 KMIA Marine Advisory
WTPA21-25 PHNL Marine Advisory
WTPZ31-35 KMIA Public Advisory
WTPA31-35 PHNL Public Advisory
3.6.2.2. Depressions are numbered internally and
storms are named internally, but the number in the abbreviated
headings does not relate to either the internal number of the
depression or the name of the storm. The first cyclone would have
21 and 31 in the abbreviated headings, the second cyclone would
have 22 and 32, the sixth cyclone would have 21 and 31, etc. The
abbreviated heading would not change when a depression was
upgraded to storm status.
ABPA20 PHNL Tropical Weather Outlook
ABPZ20 KMIA Tropical Weather Outlook
WTPZ41-45 KMIA Tropical Cyclone Discussion
3-12
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WTPA41-45 PHNL Tropical Cyclone Discussion
WTPZ51 KMIA Tropical Cyclone Position Estimate
WTPA51 PHNL Tropical Cyclone Position Estimate
WTPZ61 KMIA Tropical Cyclone Update
WTPA61 PHNL Tropical Cyclone Update
WOPZ41 KMIA Special Tropical Disturbance Statement
WOPA41 PHNL Special Tropical Disturbance Statement
WWPA21-25 PHNL Marine Subtropical Storm Advisory
WWPZ21-25 KMIA Marine Subtropical Storm Advisory
WWPA31-35 PHNL Public Subtropical Storm Advisory
WWPZ31-35 KMIA Public Subtropical Storm Advisory
3-13
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CHAPTER 4
NATIONAL WEATHER SERVICE
PRODUCTS FOR THE DEPARTMENT OF DEFENSE
4.1. General. The Department of Defense (DOD) and the Department
of Commerce (DOC) weather forecasting, reconnaissance, and distri-
bution agencies share technical information and some responsibities.
Mutually supportive relationships have developed over the years
and have resulted into a mutual dependency. Due to the nature and
distribution of DOD resources and operations, the DOD requires
certain meteorological information beyond that available to the
general public. Accordingly, the DOC provides DOD with special
observations and advisories on tropical and subtropical storms
threatening DOD resources or operations.
4.2. Observations. The National Hurricane Center (NHC)and
Central Pacific Hurricane Center (CPHC) will make available to DOD
. ~all significant tropical and subtropical cyclone observations that
they receive.
4.3. Marine Advisories.
4.3.1. General. The NHC and CPHC will provide to DOD
forecasts and related information for tropical and subtropical
weather disturbances of depression intensity or greater.
Forecasts will include advice as to location, movement, intensity,
and dimension of the disturbances. Marine advisories will be
disseminated through the National Weather Service (NWS)
communications facility at Suitland, MD to the Automated Digital
Weather System hub at Carswell AFB, TX for further relay to DOD
agencies. The DOD forecasters, who must give advice concerning an
imminent operational decision, may contact the appropriate
hurricane center forecaster (see Chapter 2) when published marine
advisories require elaboration. Telephone numbers for the
hurricane centers are in Appendix H.
4.3.2. Marine Advisory Issue Frequency. The first marine
advisory will normally-be issued when meteorological data indicate
that a tropical or subtropical cyclone has formed. Subsequent
advisories will be issued at 0400, 1000, 1600, and 2200 UTC from
the NHC (0300, 0900, 1500, and 2100 UTC from the NHC (for the
Eastern Pacific)) and CPHC. Advisories will continue to be issued
until the system deg enerates below depression level. In addition,
4- 1
�
special advisories will be issued whenever the following criteria
are met. Remarks stating the reason for the special advisory or
the relocation will be mandatory in all special advisories or
advisories that include a relocated position.
*Conditions require a hurricane or tropical storm watch
or warning to be issued.
*A tropical depression becomes a tropical storm or vice
ve r sa .
* A tropical storm changes to a hurricane or vice versa.
*Conditions require initiation or upgrading of an
existing coastal warning.
*A tornado threat develops or becomes non-existant.
*Any other circumstances causing the hurricane
forecaster to believe other significant changes have
occurred.
[NOTE: Tropical cyclone updates are permitted without the
requirement of a special advisory, including when coastal warnings
are cancelled. However, in some cases a special advisory may
follIow.]
4.3.3. Marine Advisory Content. Marine advisories will
contain appropriate information as shown in Figure 4-1.
Advisories will contain 12- and 24-hr forecasts and 36-, 48-,
and 72-hr outlooks valid from times based on the latest 6-hourly
synoptic time.
4.3.4. Numbering of Advisories. All advisories will be
numbered sequentially; e.g.,
Advisory Number 1 on Tropical Depression ONE,
I ~ ~Advisory Number 2 on Tropical Depression ONE,
Advisory Number 3 on Tropical Storm Anita,
Advisory Number 4 on Hurricane Anita,
Advisory Number 5 on Tropical Depression Anita.
The NHC and CPHC will append an alphabetic designator for
intermediate advisories (e.g., 20A).
4 -2
�
TTAAOO KMIA 251535
HURRICANE GLORIA MARINE ADVISORY NUMBER 34
NATIONAL WEATHER SERVICE MIAMI FL
1600Z WED SEP 25 1985
WATCH/WARNING SECTION*
HURRICANE CENTER LOCATED NEAR 27.1N 73.1W AT 25/16002
POSITION ACCURATE WITHIN 20 NAUTICAL MILES BASED ON AIR FORCE
RECONNAISSANCE AND SATELLITE.
PRESENT MOVEMENT TOWARD THE NORTHWEST OR 315 DEGREES AT 13 KT.
MAX SUSTAINED WINDS 130 KT WITH GUST TO 150 KT.
RADIUS OF 64 KT WINDS 75NE 50SE 50SW 75NW.
RADIUS OF 50 KT WINDS 100NE 75SE 75SW 1OONW.
RADIUS OF 34 KT WINDS 200NE 1505SE 150SW 200NW.
RADIUS OF 12 FT SEAS OR HIGHER 200NE 150SE 150SW 200NW.
REPEAT CENTER LOCATED AT 27.1N 73.1W AT 25/16002.
FORECAST VALID 26/0000Z 28.5N 74.5W.
MAX SUSTAINED WINDS 130 KT WITH GUSTS TO 150 KT.
RADIUS OF 50 KT WINDS DOONE 755E 75SW 1OONW.
RADIUS OF 34 KT WINDS 200NE 150SE 1SOSW 200NW.
FORECAST VALID 26/1200Z 31.ON 76.0W.
MAX SUSTAINED WINDS 130 KT WITH GUSTS TO 150 KT.
RADIUS OF 50 KT WINDS 1OONE 75SE 755W 10ONW.
RADIUS OF 34 KT WINDS 200NE 150SE 150SW 200NW.
FORECAST VALID 27/00002 35.0N 75.5W.
MAX SUSTAINED WINDS 110 KT WITH GUSTS TO 130 KT.
RADIUS OF 50 KT WINDS 100NE 75SE 755W 100NW.
RADIUS OF 34 KT WINDS 200NE 1SOSE 150OSW 200NW.
STORM TIDE SECTION*
HEAVY PRECIPITATION SECTION*
THE FOLLOWING FORECAST SHOULD BE USED ONLY FOR GUIDANCE
PURPOSES BECAUSE ERRORS MAY EXCEED A FEW HUNDRED MILES.
FORECAST VALID 27/1200Z 39.ON 7S.OW.
MAX SUSTAINED WINDS 80 KT WITH GUSTS TO 95 KT.
RADIUS OF 50 KT WINDS SONE SOSE 25SW 25NW.
FORECAST VALID 28/12002 46.0N 73.0W.
MAX SUSTAINED WINDS 40 KT NEAR CENTER.
REQUEST FOR 3 HOURLY SHIP REPORTS WITHIN 300 MILES OF 27.1N 73.1W.
NEXT ADVISORY AT 25/2200Z.
NOTE...PROBABILITIES OF HURRICANE/TROPICAL STORM CONDITION ARE
AVAILABLE IN THE PUBLIC HURRICANE ADVISORY. SEE AFOS HEADER
CCCTCPAT3 OR WMO HEADER WTNT33 KMIA.**
*To be used when appropriate.
**Atlantic only.
Figure 4-1. Marine advisory format.
4 --3
�
0601220C8 3E-Z'012 20321 MF2
Figure 4-2. Hurricane Joan, October 22, 1988, 0601 UTC.
4-4
�
CHAPTER 5
AIRCRAFT RECONNAISSANCE
5.1. G eea, All Department of Commerce (DOC) tropical and
subtropical cyclone aircraft reconnaissance needs will be
requested and provided in accordance with the procedures of this
chapter. As outlined in the U.S. Air Force (USAF)/National
Oceanic and Atmospheric Administration (NOAA) Memorandum of
* ~Understanding (see Appendix C), DOC has identified a requirment
for, and the Department of Defense (DOD) maintains aircraft to
support, up to five sorties per day. Requirements exceeding five
sorties will be accomplished on a "resources permitting'' basis.
Congress has directed the DOD to maintain a combined active and
reserve Air Force flying hour program of 1600 hours in support of
hurricane reconnaissance coverage. In times of national emergency
or war, some or all DOD reconnaissance resources may not be
available to fulfill DOC needs.
. ~5.2. Responsibil ities.
5.2.1. The DOD is responsible for:
5.2.1.1. Providing operational aircraft for vortex
fixes and data, synoptic tracks, and investigative flights in
response to DOC needs.
5.2.1.2. Developing operational procedures to deploy
data buoys to satisfy DOC needs.
5.2.2. The DOC is responsible for aircraft operations that
may be requested to:
5.2.2.1. Augment USAF operational aircraft recon-
naissance with high-density, high-accuracy (HD/HA) data when
storms are within 24 hr of landfall of the continental United
States.
5.2.2.2. Augment USAF aircraft reconnaissance when DOC
needs exceed the capabilities of DOD resources. This includes the
provision of quick response to National Hurricane Center (NHC)
requests for reconnaissance on developing tropical cyclones
(normally east of 80OW) from August I through September 30 on a
* ~resources permitting basis.
5-1I
�
5.2.2.3. Assume responsibility for hurricane reconnaissance
over foreign airspace that may be restricted for military
operations.
5.2.2.4. Conduct research flights that assume an
operational responsibility to the hurricane centers.
5.3. Control of Aircraft. Operational control of aircraft flying
tropical and subtropical cyclone reconnaissance will remain with
the operating agencies of DOD or DOC as appropriate.
5.4. Reconnaissance Requirements.
5.4.1. Meteorological Parameters. Data needs in priority
order are as follow:
* Geographical position of the flight level vortex
center (vortex fix) and relative position of the
surface center if known
* Center sea-level pressure determined by dropsonde or
extrapolation from within 1,500 ft of the sea surface
or from the computed 850-hPa height.
* Minimum 700 or 850-hPa height, if available
* Wind profile data for surface and flight level
Temperature at flight level
Sea-surface temperature
* Dew-point temperature at flight level.
5.4.2. Required Meteorological Reconnaissance Data, Ranges,
and Accuracies. Required reconnaissance data accuracies are as
follows:
5.4.2.1. Geographic position.
� Aircraft position: within 3 nmi
* Storm surface center (wind/pressure): within
6 nmi
* Flight level storm center (wind/pressure):
within 6 nmi
5.4.2.2. Wind direction.
* Surface: within 10 deg
* Flight level for winds greater than 20 kt:
within 5 deg
�
5.4.2.3. Wind speed.
* Surface: within 10 kt
* Flight level: within 4 kt
5.4.2.4. Pressure height.
* Surface: within 2 hPa
* Flight level above 500 hPa: within 20 m
* Flight level at or below 500 hPa: within 10 m
5.4.2.5. Temperature.
* Sea surface: within 1o
* Flight level: within 1 C
5.4.2.6. Dew-point temperature.
* Range from -20�C to +40�C. within 1�C
* Less than -20� C: within 3C
5.4.2.7. Absolute altitude: within 10 m
5.4.2.8. Vertical sounding.
* Pressure: within 2 hPa
* Temperature: within 1�C
* Dew-point temperature:
Range of -20 g to +40�C: ithin 1�C
Less than -20 C: within 3 C
* Wind direction: within 10 deg
* Wind speed: within 5 kt
5.4.2.9. NOTE: Present weather reconnaissance
capabilities do not completely satisfy these requirements; data
will be collected as close to stated requirements as possible.
5.4.3. Required Frequency and Content of Observations.
5.4.3.1. Horizontal observations. Standard RECCO
Section 1 or Section 3, plus 4ddff and 9ViTwTwTw, if applicable,
(9-groups are not required for WC-130s in the storm or invest
area). Section 3 RECCO will not be used if HD/HA data are being
transmitted. The format is as specified in Military Airlift
Command Regulation (MACR) 105-25, Weather Reconnaissance
Observations, and Appendix G of the NHOP.
5.4.3.1.1. Enroute. Horizontal observations will
be taken and transmitted every 200 nmi over water enroute to and
from the stormarea. Data from the 500-hPa level are preferred,
5-3
�
if possible, otherwise other levels are acceptable. If an
automated system is not in use, encode observations every 15 min
when over water within 15 degrees of the tasked coordinates, and
transmit hourly.
5.4.3.1.2. Fix missions. One horizontal
observation is required midway between the outbound leg and
inbound leg of the Alpha and modified Alpha flight patterns. This
is not required if HD/HA data are available.
5.4.3.1.3. Invest missions. See para 5.8.2.
5.4.3.2. High-density/high-accuracy data. The HD/HA
data include time, latitude, longitude, flight-level wind,
pressure altitude, radar altitude, D-value, flight-level wind
speed and direction, temperature, and dew-point temperature.
These observations are collected every minute (MINOBS) and
transmitted every 20 min (WC-130) or 30 min (WP-3). See Appendix
G for the format of the MINOBS or para 5.9.4.1. for the ASDL data
format.
5.4.3.3. Vortex and supplemental vortex observations.
Vortex and supplemental vortex observations are collected,
encoded, and transmitted in accordance with NHOP pattern
requirements (see para 5.7.). Supplementary vortex observations
are not required when HD/HA data are transmitted. See Figures 5-1
and 5-2 for data formats. NOTE: Non-automated systems are
marginal in satisfying these requirements. Data will be collected
as close to stated requirements as possible, and will be
considered satisfactory as long as observations are accomplished
every 30 min.
5.4.3.4. Vertical observations. The frequency of
vertical observations enroute to and from the storm or invest area
will be approximately every 400 nmi over water in accordance with
MACR 105-25, unless otherwise specified. the frequency will be as
specified (NHOP flight patterns or TCPOD) within the tasked area.
The format for all vertical observations is WMO TEMP DROP code (FM
37-VII). See Appendix G for the format.
5.4.4. High Density/High Accuracy Requirements. The DOC
requires rapid acquisition and transmission of tropical cyclone
data, especially within the last 24-hr period prior to landfall.
Since only a limited number of aircraft currently have a high-
density, high-accuracy (HD/HA) capability, DOC reconnaissance
requests should specify which tropical cyclone reconnaissance
sorties should use HD/HA aircraft. The HD/HA aircraft will be
provided on a "resources permitting" basis only.
Is
5 -4
�
VORTEX DATA MESAGE
E~lPOADING (PRECEDENCE IMMEDIATEI
MISSION IDENTIFIER AND0 O1SEAVArION NUMBER
(ABBREVIATED) (DETAILED) VORTEX DATA MESSAGE
A Z DATE AND TIME OF FIX
DEG MIN N S LATITUDE OF VORTEX FIX
B.
* ~~~~ ~~~~~~~~ ~~~~DEG MIN B W LONGITUDE OF VORTEX FIX
C Ms M MINIMUM HEIGHT AT STANDARD LEVEL
D KT ESTIMATE OF MAXIMUM SURFACE WIND OBSERVED
E DEG M M BEARING AND RANGE FROM CENTER OF MAXIMUM SURFACE WIND
F DEG KT MAXIMUM FLIGHT LEVEL WIND HEAR CENTER
G DEG M M BEARING AND RANGE FROM CENTER OF MAXIMUM FLIGHT LEVEL WIND
H M s ~~~~~ MINIMUM SEA LEVEL PRESSURE COMPUTED FROM DROPSONDE OR EXTRAFOLA-
H ME T~~~~~~ED FROM WITHIN 1500 FT OF SEA SURFACE
I C/ M MAX FLT LVL TEMPYPRIESSURE ALT OUTSIDE EYE
j C/ M MAX FILT LVL TEMP/PRIESSURE ALT INSIDE EYE
K Cf C DEWPOINT TEMF /SEA SURFACE TEMF INSIDE EYE
L EYE CHARACTER: Clo...d ..II, pooly d.fi..d, oP.. SW.,~
EYE SHAFE/ORIENTATION/DIAMETER. Cod. .y. hI~pF -o C - Ciroolor; CO - Coo-
coti;E - EllI~icol-. Trnfi ohi.nlo ofm .o il, in tons of do .I.o...
01.-01010t ,190; 1-170E 0350. T-ansif diarrolor in nolo i... Cn. o..C-
M Cidlr.oBrdin r...r. E09/15/5 - ElliFti-o oyo. nbojor ooi. 090-270. l.ngtfI
of mb .oI. 15 NMM, longlih of hinor .o. SNM. COBI-IA - C .... 0. di.,or
n...ry a INIM.ot, ..IY. Id NM.
DEG MIN N S CONFIRMATION OF FIX: Coodino.., and Tin..
N DEG MIN ER
z
FIX DETERMINED BY/FIX LEVEL FIX DETERMINED BY: 1 - Fn... 0.ti..; 2 -
o ~~~~~~~~Rod.,; 3 - Wind; A - FPo....... 5 - T-p-F.-ooo FIX LEVEL( lodioot. ou...oo
/ ~~~~if '!.thl.; ininobot, ...ac F..nd flight lono on... nl w ho..I ha..:0 Soro."
/'~~~~ 1- 1000F#; B -RS8r0f; 7 -70Dmb; 5 - 500b; A - 400 b; 3 -300,nb; 2-
200 rb; 9 - Oth-.,
F NM NAVIGATION FIX ACCURACY/METEOROLOGICAL ACCURACY
Q ~~~~~~RAKS1
INSTRUCTIONS: Ito... A throgh, G lond H hia.olooa.do. rnmtd fro 1h1oroof i-nmdio.I.y follwing If. Ii..
Ths. -onind., of th. ioso I tr-n-itt.d ooa -nilsbi. fo o,.o fioo ond ot Ito ARW~o' di .... tio Ior
nnf.dl.Id fIntnrdoa I....d~.
Figure 5-1. Form 3--Vortex data message.
�
SIIPPLEMENIARY VORTEX DATA MESSAGE
MACOP HEADING (C.-pw.I*bT.@I6 f.n
MISsION IDENTIFIER AND OBSERVATION NUM�ERt (c 6p1,dA I~I*I& **.~I -AX.IHU-l)
SUPPLEMENTARY VORTEX DATA MESSAGE LAG11NO
01 I I 1 C~~~~~~~~~~~~~~~~t INDICATOR PON DATA COLLECTED
APPRO"IMATELY I" am fROcM STORIA
02 2 2 2 LY 11M RMCNTRIUBUO
3 3 3 ~~~~~~~~~~~~~~~~~~~OTHER INDICATORS INC2, 021/U.I FOR
03 3 3 ~~~~~~~~~~~~~~~~~~DATA AT APPROCIMATELT 11M O ITERt-
VAL" INBOUND ON OUTBOUND FROM
0114 4 14 STORM CENTER. INDICATORS NAY be
EXPANDED MayOND B? IC. ASC..)A
NECESAR AT APPROIMATELY ICNM
05 5 5 5 INTERVALS.
MN INDICATOR FOR EACIMUN FLIGHT
066 LEVEL WIND SISERVED
07~~~~~~~~~~~~~~~~~~~~~O 7 N SPEC* OF WIND 19 KNOTS
07 7 7 7 V~~~~~~~~~~~~~~~ TRUE DIRECTION OF 7 LIGHT LEVEL
WIND SPEED Old TENS OF DEGREES
TT~d 7 TIEWPIDERPOINT IN DEGREES
CELSIUS: ADO SC FOR NEGA-
TIVE VALUES
WNHO PRESSURE9 HEICIIT DATA IN REcco
FORMAT
LL,1, - LATITUDE U DGROEES/TEMTCS
INL.~ (L.LL) OfI. .LNS. -LONDITDEa IN OEDREES/
NP N F TEMTN9
06501 AT~~~~~~ DCC AT 01301~~w a SFC wNo: ~ /DATA UNKNO"NUMROBTAINAGLEt
01 L . L .L 1 (IDv) H AMPLE uIESSAGE
URNT is KNIA 241751
02 2 ~ ~~~~~~~~~~~~~~~~~~~~A 211 241 AFA AI RODICOB: Ian
02 2 2 2 ~~~~~~~~~~~~~~~SUPPLENEN1TARY WON"TEX DATA MESSAGE
Oaait" 10111 13111 la"O mm0
03 3 3 3 03,17' 20511* 23105 a0ct' 3804
04177 "WRS 4=w 4050 ISM7
014 14 14 14 0517C $0RS 523M 509 3MC
06114 an AIMA 03 1:1101 O146
07,17170577 7305 7121 S20
05 5 5 5 MF171 mom? or...
Gas *I AT 1680Z GRIM' AT loc00
06 6 6 6 OBSCICFCBND2NOCC 1 181
07 7 7 7 03170 3302 2"u5 340M logo0
CS77 mu55413036 140M I?04
OS '7S 00554 AilM bgoes IlCI
S7117 70`44 73114 70502 16021
(L.A. 1 - L. ,L. L.) (Iff) NFII? M0672 NFI20
UP 009 G l B I AT 15002 0OBIR? AT 17001
OBs 07 ScC WIND 146211
09301' AT: AT I 'l,,Sl~ 07 ~ NV O ENAROS "EAVYr RAIN OUTBOUND A
PREPARED GY~ TRANMIMSSION TIME:j
Figure 5-2. Form 4--Supplementary vortex data message.
5-6
�
5.4.5. High Level Synoptic Track Profile Data Requirements.
When required, the NHC will request mid-tropospheric reconnais-
sance data on the periphery of systems approaching the United
States. The NHC will provide a specific track profile including
control point and control time to Chief, Aerial Reconnaissance
Coordinator, All Hurricanes (CARCAH) for coordination with the
reconnaissance units.
5.5. Reconnaissance Planninq and Fliqht Notification.
5.5.1. DOC Requests for Aircraft Reconnaissance Data.
5.5.1.1. The National Hurricane Center (NHC) will
coordinate with the Central Pacific Hurricane Center (CPHC) to
determine a list of the total DOC requirements for data on
tropical and subtropical cyclones or disturbances for the next
24-hr period (0500 to 0500 UTC) and an outlook for the succeeding
24-hr period. This coordinated request will be provided to CARCAH
as soon as possible, but not later than 1630 UTC each day in the
format of Figure 5-3). Amendments will be provided as required.
5.5.1.2. From the above coordinated DOC request, CARCAH
will publish the Tropical Cyclone Plan of the Day (TCPOD). When
DOC reconnaissance needs exceed DOD and DOC resources, CARCAH will
coordinate with the NHC to establish priorities of requirements.
5.5.1.3. The following reconnaissance requests can be
anticipated for a forecast or actual storm location:
5.5.1.3.1. The Atlantic, Gulf of Mexico,
Caribbean, Eastern and Central Pacific:
* up to four 6-hourly fixes per day when a
storm is within 500 nmi of landfall west of
55� W and north of 080 N
* up to eight 3-hourly fixes per day when a
storm is forecast to be within 300 nmi of
the U.S. coast, Hawaiian Islands, Puerto
Rico, Virgin Islands, DOD installations, and
other DOD assets when specified.
5.5.1.3.2. Investigative flights may be requested
for disturbances in areas defined in paragraph 5.5.1.3.1., above,
i.e., one or two flights per day dependent upon proximity of
landfall and upon known or suspected stage of development.
5.5.1.3.3. Exceptions may be made when additional
reconnaissance is essential to carry out warning responsibilities.
5-7
�
NHOP COORDINATED REQUEST FOR AIRCRAFT RECONNAISSANCE
_ Original
Amendment
(Check One)
I. ATLANTIC REQUIREMENTS
HIGH
STORM NAME FIX OR ON DENS NHC
DEPRESSION # STATION COORDI- FLIGHT FCST ACCY PRI-
SUSPECT AREA TIME NATES PATTERN KMmn REQT ORITY
SUCCEEDING DAY OUTLOOK
REMARKS
II. EASTERN AND CENTRAL PACIFIC REQUIREMENTS
HIGH
STOMI NAME FIX OR ON DENS NHC
DEPRESSION # STATION COORDI- FLIGHT FCST ACCY PRI-
SUSPECT AREA TIME NATES PATTERN MVMT OT ORITY
SUCCEEDING DAY OUTLOOK
REMARKS
III. DISTRIBUTION
A. TO CARCAH BY 1630Z OR AMEND AT ANY TIME
B. DATE TIME FCSTR INIT
Figure 5-3. Form 1--NHOP coordinated request for
aircraft reconnaissance.
5-8
�
Table 5-1. Vortex data message entry explanation
DATA ITEM ENTRY
MISSION IDENTIFIER As determined in Chapter 5, paragraph 5.7.6.
OBSERVATION NUMBER A two digit number determined by the
sequential order in which the observation is
transmitted from the aircraft.
(ABBREVIATED) An abbreviated message has at least item ALPHA
(DETAILED) VORTEX through GOLF, item HOTEL (when extropolated
DATA MESSAGE from flight level) and a maximum flight level
wind remark in item QUEBEC.
A (ALPHA) Date and time (UTC) of the flight level center
fix. If the flight level center cannot be
fixed and the surface center is visible, enter
the time of the surface center fix.
B (BRAVO) The latitude and longitude of the center fix
associated with item ALPHA. NOTE: If the
surface center is fixable, enter bearing and
0 range from the center in item QUEBEC, e.g.,
SFC CNTR 270/15 NMI, if the centers are
separated by over 5 nmi.
C (CHARLIE) Indicate the standard atmospheric surface
e.g., 850 hPa or 700 hPa.
The minimum height of the standard surface
observed inside the center. If at 1,500 ft
or below or not within 1,500 ft of a standard
surface, enter NOBS (not observed).
D (DELTA) The maximum surface wind observed during the
inbound leg associated with this fix.
E (ECHO) Bearing and range of the maximum surface wind
observed (item DELTA) from the coordinates
reported in item BRAVO.
F (FOXTROT) The maximum flight level wind observed during
the inbound leg associated with this fix.
5-9
�
Table 5-1. Vortex data message entry explanation (continued)
G (GOLF) Bearing and range of the maximum flight level
wind observed (item FOXTROT) from the
coordinates reported in item BRAVO.
H (HOTEL) The minimum sea level pressure (SLP) to the
nearest hectopascal observed at the
coordinates reported in item BRAVO. Preface
the SLP with "EXTRAP" (extrapolated) when the
data are not derived from dropsonde or when
the SLP is extrapolated from a dropsonde that
terminated early. Clarify the difference in
remarks (e.g., SLP EXTRAPOLATED FROM BELOW
1500 FEET/850 HPA/DROPSONDE)
I (INDIA) MAX FLT LVL TEMP--This temperature is taken
just outside the central region of a cyclone
(i.e., just outside the eyewall or just beyond
the maximum wind band). This temperature may
not be the highest recorded on the inbound leg
but is representative of the environmental
temperature just outside the central region of
the storm.
PRESSURE ALT--Pressure altitude data (meters)
are taken at the same location as the maximum
temperature data reported in item INDIA
J (JULIET) MAX FLT LVL TEMP--The maximum temperature
observed within 5 nmi of the center fix coord-
inates. If a higher temperature is observed
at a location more than 5 nmi away from the
flight level center (item BRAVO), it is
reported in item QUEBEC including bearing and
distance from the flight level center.
PRESSURE ALT--Pressure altitude data (meters)
are taken at the same location as the maximum
temperature data reported in item JULIET.
K (KILO) These data are collected at the same location
as the maximum temperature reported in item
JULIET. Enter "NOBS" if not observed.
5-10
�
Table 5-1. Vortex Data Message Entry Explanation (Continued)
L (LIMA) Only report if at least 50 percent of the
center has an eyewall, otherwise enter "NOBS."
Closed wall--if the center has 100 percent
coverage with no eyewall weakness.
Open XX--if the center has 50 percent or
more but less tha~n 100 percent coverage.
State the direction of the eyewall weakness.
M (MIKE) Self explanatory. Report only if item LIMA
.is reported, otherwise enter "NOBS."
N (NOVEMBER) Flight level center coordinates (same as
item BRAVO).
O (OSCAR) Fix determined by: Always report 1. Report 2
if radar indicates curvature or banding
consistent with fix location. Report 3 if
recorded or observed winds indicate a closed
center. Report 4 if the fix pressure is at
least lower than any reported on the inbound
0 ~~~~~~leg. Report 5 if the fix temperature is at
least higher than any reported on the inbound
leg.
Fix level: Report 0 alone if fix is made
solely on surface winds. Report 0 and the
flight-level code if the centers are within 5
nmi of each other.
P (PAPA) Navigational and meteorological accuracy are
reported as the upper limit of probable error.
Meteorological accuracy is normally reported
as one-half of the diameter of the light and
variable wind center.
Q (QUEBEC) Remarks to enhance the data reported above.
The aircraft crew should report the maximum
flight level winds observed and the time of
observation on their latest pass through any
of the four quadrants during the mission in
the remarks section of the detailed/
abbreviated vortex message.
�
5.5.2. DOD Reconnaissance Aircraft Responsiveness.
5.5.2.1. Notification of requirements must precede
tasked-on-station time by at least 16 hr plus enroute time to the
area of concern.
5.5.2.2. The "Succeeding Day Outlook" portion of the
TCPOD provides advance notification of requirements and authorizes
units to preposition aircraft to forward operating locations. For
missions requiring prepositioning, the "Succeeding Day Outlook"
may not provide adequate advance notification. In this situation,
an "Additional Day Outlook" may be included in the TCPOD to
authorize units to preposition aircraft.
5.5.2.3. When circumstances preclude the appropriate
notification lead time, the requirement will be levied as
resources permitting." When a "resources permitting" requirement
is levied in an amendment, the NHC will indicate the priority of
all existing or remaining requirements.
5.5.2.4. If a storm develops unexpectedly and could
cause a serious threat to lives and property within a shorter time
frame than provided for in the paragraphs above, CARCAH will
contact the reconnaissance units, or higher headquarters, as
appropriate, and request assistance in implementing emergency
procedures not covered in this plan. The NHC and CPHC directors
have authority to declare an emergency.
5.5.3. Reconnaissance Tropical Cyclone Plan of the Day.
5.5.3.1. Preparation. The CARCAH will coordinate the
TCPOD (Figure 5-5) daily during the period from June 1 to November
30 and at other times during the year as required. Transmitted
TCPODs will be serially numbered each season.
5.5.3.1.1. The CARCAH will coordinate the TCPOD
with the NHC, 53rd Weather Reconnaissance Squadron, 815th
Weather Operations Flight, and the Office of Aircraft Operations
before publication.
5.5.3.1.2. The TCPOD will list all DOC and DOD
required tropical and subtropical cyclone reconnaissance
operational missions. The remarks section of the TCPOD will
include appropriate comments whenever research and operational
flights overlap.
5.5.3.1.3. The DOD-required tropical or
subtropical cyclone reconnaissance missions in the Atlantic or the
Pacific west to 1800 will be identified in the TCPOD as USN or
USAF requirements.
5-12
�
Figure 5-4. USAF WC-130 weather reconnaissance aircraft equipped
with the Improved Weather Reconnaissance System.
5.5.3.1.4. Amendments to the TCPOD will- be
published only when requirements change. When amended, the impact
on each listed flight will be identified (i.e., No Change, Change
Added, or Cancel)
5.5.3.2. Dissemination. The TCPOD will be made
available to appropriate agencies that provide support to or
control of reconnaissance aircraft or are a part of the tropical
cyclone warning service. Under normal circumstances, the TCPOD
will be disseminated by 1800 UTC each day. Amendments will be
disseminated as required.
5.5.3.3. NOTE: the TCPOD will not be disseminated by
message on weekends or holidays if there are no current-day or
succeeding-day reconnaissance requirements. The CARCAH, however,
will still coordinate with concerned agencies by telephone as in
paragraph 5.5.3.1.1., above.
5.5.4. Air Traffic Control (ATC) Clearances.
5.5.4.1. Air traffic control agencies will provide air
traffic control separation between all aircraft operating on storm
missions and between storm aircraft and nonparticipating aircraft
operating on instrument flight rules within controlled airspace.
Mission commanders are reminded that nonparticipating aircraft may
be operating. near storm areas; thus, adherence to ATC clearances
is mandatory for safety. The CARCAH will indicate in the TCPOD if
clearance into warning areas is required.
5-13
�
TROPICAL CYCLONE PLAN OF THE DAY FORMAT
--ATLANTIC, EASTERN, AND CENTRAL PACIFIC OCEANS--
FM OL-G, 7WW CORAL GABLES FL/CARCAH
TO (MAC-APPROVED ADDRESSEES)/(NOAA-APPROVED ADDRESSEES)
SUBJECT TROPICAL CYCLONE
RECON POD FROM _ Z (MONTH) (YEAR) TO _ Z (MONTH) (YEAR) FOLLOWS
I. ATLANTIC
1. (STORM NAME, DEPRESSION, SUSPECT AREA) or (NEGATIVE RECON REQUIREMENTS)
FLIGHT ONE (NHC PRIORITY, if applicable)
A. Z FIX TIMES/ON STATION TIMES,
(Resources Permitting if applicable)
B. MISSION IDENTIFIER
C. Z ETD
D. DEPARTURE STATION
E. FORECAST POSITION/STORM NAME
F. DESTINATION STATION
G. FLIGHT PATTERN
H. FORECAST MOVEMENT
I. : RIARKS
FLIGHT TWO (if applicable, same as FLIGHT ONE)
2. (SECOND SYSTEM, if applicable, same as in 1. above)
3. OUTLOOK FOR SUCCEEDING DAY (NHC PRIORITY, if applicable)
A. POSSIBLE (Unit) ON STATION REQUIREMENT NEAR (Location)
AT (Time) Z.
II. EASTERN AND CENTRAL PACIFIC (Same as in ATLANTIC)
Figure 5-5. Form 2--Tropical Cyclone Plan of the Day format.
5-14
�
5.5.4.2. When storm aircraft cannot maintain assigned
altitudes due to turbulence, ATC should be advised. Normal
verti cal separati on of 1,000O ft at flight level (FL) 290 and below
and 2,000 ft above FL 290 will be provided by ATC to aircraft
operating in the storm area. Unless otherwise coordinated with
ATC, the altitudes between storm-mission aircraft may be used by
ATC for nonparticipating aircraft. Any procedure desired by
storm-mission aircraft commanders thlat is outside these parameters
must be coordinated with the appropriate ATC facility.
5.5.4.3. Dropsonde releases will be coordinated with
the appropriate Air Route Traffic Control Center and participating
aircraft if within controlled-airspace, and with participating
aircraft only, if outside controlled airspace. Contact between
participating aircraft will be made using the frequencies listed
in paragraph 5.9.3.
5.6. Reconnaissance Effectiveness Criteria.
5.6.1. General. Specified reconnaissance times are
established to allow sufficient time for the forecaster to analyze
the data before issuing an advisory. Every effort should be made
to obtain data at scheduled times. The following criteria will be
. ~used to assess reconnaissance mission effectiveness:
5.6.1.1. Tropical cyclone fix mission.
5.61.11.ON-TIME. The fix is made not earlier
than 1 hr before nor later than 1/2 hr after scheduled fix time.
5.6.1.1.2. EARLY. The fix is made from I hr
before scheduled fix time to one-half of the time interval to the
apreceding scheduled fix, not to exceed 3 hr.
5.6.1.1.3. LATE. The fix is made within the
interval f-rom 1/2 hr after scheduled fix time to one-half of the
time interval to the succeeding scheduled fix, not to exceed 3 hr.
5.6.1.1.4. MISSED. Data are not obtained within
the parameters specified for on-time, early, or late.
[NOTE: Appropriate credit will be given when the aircraft arrives
in the requested area but is unable to locate a center due to
storm dissipation or rapid movement. Credit will also be given
for radar fixes if penetration is not possible due to geographic
or other flight restrictions.
�
5.6.1.2. Tropical cyclone investigative missions.
5.6.1.2.1. ON-TIME.' An observation must be taken
within 250 nmi of the specified coordinates by the scheduled time.
5.6.1.2.2. LATE. An observation is taken within
250 nmi of the specified coordinates after the scheduled time but
not later than the scheduled time plus 2 hr.
5.6.1.2.3. MISSED. When the aircraft fails to be
within 250 nmi of the specified coordinates by the scheduled time
plus 2 hr.
5.6.2. The NHC or CPHC will provide CARCAH a written
assessment of the reconnaissance mission anytime its timeliness or
quality is outstanding or substandard (see Figure 5-6). Require-
ments levied as "resources permitting" will not be assessed for
timeliness, but may be assessed for quality of data gathered.
5.6.3. The CARCAH will maintain monthly and seasonal
reconnaissance summaries detailing missions actually flown to
satisfy NHC-levied requirements.
5.7. Aerial Reconnaissance Weather Encoding, Reporting, and
Coordination.
5.7.1. Vortex Data. The detailed vortex data message (Form
3, Figure 5-1) will be prepared with all observed vortex fix
information for all scheduled fixes. For intermediate fixes,
either an abbreviated or detailed vortex data message may be
transmitted, depending upon availablility of information and
forecaster requirements.
5.7.2. Center Fix Data. When proximity to unfriendly
territory, air traffic control restriction, or other factors
prevent actual penetration of the vortex by the reconnaissance
aircraft, it is permissible to fix the cyclone by radar. All
aircraft radar fix reports will be made in plain text and appended
to a RECCO observation taken at fix time or to a supplementary
vortex data message completed up to the time of the radar fix,
e.g., RADAR CENTER FIX 21.5N 83.0W, POOR RADAR PRESENTATION, NAV
ACCURACY 5NMI. The remark stating the type of radar fix and
quality of the radar presentation is in accordance with Chapter 7,
paragraph 7.2.2.
5.7.3. Supplementary Vortex Data. Penetration and collection of
supplementary vortex data will normally begin at a radius of
approximately 105 nmi from the center as determined by the flight
meteorologist. The required supplementary vortex data are as
�
MISSION EVALUATION FORM
DATE:
TO: OL-G, 7WW/CARCAH
FROM: (Director, NHC, CPHC)
SUBJECT: Mission Evaluation
(Mission Identifier)
PUBLISHED REQUIREMENTS:
Permission Coordinates (As Updated Prior to TKO) N W
Flight Pattern
Mission Requirements Times__
RECONNAISSANCE MISSION PERFORMANCE:
Flight Flown: Completely Partially Other
Horizontal Data Coverage: _ Complete Timely Accurate
Incomplete Untimely Inaccurate
Vertical Data Coverage: _Complete _ Timely _ Accurate
Incomplete _ Untimely _ Inaccurate
Requirements Accomplished: On Time Early Late
Missed
Remarks: __.
[.-,
OVERALL MISSION EVALUATION:
Outstanding Satisfactory Unsatisfactory
Equipment:
Accuracy:
Timeliness: _ _
Procedures:
Completeness: __ _
Remarks:______ _-________
Figure 5-6. Form 5--Mission evaluation form.
5-17
�
shown in Figure 5-2 (Form 4). Supplementary vortex data are
not required when HD/HA data are received or available at
CARCAH or NHC. [NOTE: Present weather reconnaissance equipment
is inadequate to provide full data for 15 nmi supplementary vortex
data; data will be collected as close to stated requirements as
possible and within the capabilities of the flight crew.] If a
fix is not possible and supplementary vortex data have been
collected, transmit the inbound leg as a complete observation and
add clarifying remarks, e.g., "FIX NOT MADE, CLOSED CIRCULATION
NOT FOUND, INVESTIGATIVE PROFILE BEGUN AT 23/1522Z."
5.7.4. Mission Coordination. Mission coordination for all
missions will be accomplished through CARCAH. Meteorological
discussions for Central Pacific missions may be accomplished
directly with the CPHC; however, any changes to tasking will be
accomplished through CARCAH.
5.7.5. Post-flight Debriefing. Unless otherwise directed,
the flight meteorologist will provide either an airborne or
post-flight debriefing to the appropriate hurricane center to
ensure all observations were received and understood.
5.7.6. Mission Identifier. Each reconnaissance report will
include the mission identifier as the opening text of the message.
Regular weather and hurricane reconnaissance messages will include
the five-digit agency/aircraft indicator followed by the CARCAH-
assigned mission-storm system indicator. Elements of the mission
identifier follow:
Agency/Aircraft Mission Storm System
Indicator Indicator
Agency + Aircraft Number of Depression number Storm
Number* mission or XX if not a name or
this storm depression or words
system greater CYCLONE or
INVEST
*AF plus last 3 digits of tail number
*NOAA plus last digit of aircraft registration number
-EXAMPLES-
AF985 01XXA INVEST (USAF aircraft 985 on the first mission to
investigate a suspect area.)
AF987 0503C CYCLONE (USAF aircraft 987 on the fifth mission on
depression number 3. Invest or fix as
specified in TCPOD.)
5-18
�
NOAA2 0701A AGNES (NOAA aircraft 42RF on the seventh mission
to fix depression number 1, which has
acquired the name AGNES.)
5.7.7. Observation Numbering and Content.
5.7.7.1. The first weather observation will have
appended as remarks the International Civil Aviation Organization
(ICAO) four-letter identifier for the departure station, time of
departure, and estimated time of arrival (ETA) at the coordinates
or storm.
-EXAMPLE-
AF966 0308A EMMY OB 01
97779 TEXT TEXT... DPTD KBIX AT 10/2100Z ETA 31.5N 75.0W AT
11/0015Z
5.7.7.2. All observations (RECCO, vortex, supplemental,
and dropsonde) from the first to the last will be numbered
sequentially. The Improved Weather Reconnaissance System (IWRS)
will automatically number MINOBS sequentially, but separately from
other observations. When an aircraft is diverted from its
original mission to fulfill NHC requirements, conclude the
original mission by using the last report remark. The next
observation from the diverted aircraft will be labeled OB 01, will
use the CARCAH-assigned mission identifier, and will include time
of diversion and ETA of coordinates of interest.
-EXAMPLE-
AF968 01XXA INVEST OB 01
97779 TEXT ...
DPTD AF968 1005A CINDY MISSION AT 05/1235Z ETA 18N 85W AT 05/1630Z
5.7.7.3. Append to the final weather observation a
remark that includes ETA, destination, number of observations
(excluding MINOBS), and monitor(s) that copied the observations.
-EXAMPLE-
AF963 0317A JOAN OB 16
97779 TEXT TEXT ... ETA KBIX 15/2030Z, LAST REPORT, OBS 01 THRU 16
TO KMIA.
5.8. Operational Flight Patterns. This section includes
operational flight patterns that provide vortex and peripheral
5-19
�
data on tropical and subtropical cyclones including two 6-hourly
and intermediate fixes.
5.8.1. Flight Pattern ALPHA Operational Details
5.8.1.1. Flight levels will normally be at 1,500 ft,
850 hPa, or 700 hPa, depending on data requirements and flight
safety. The flight sequence is shown in the figure. The pattern
sequence can be entered at any point and then repeated for the
mission duration. See Figure 5-7.
FLIGHT PATTERN (i MODIFIED
"ALPHA", NORTH "ALPHA" Jib* NORTH
OR3*1-*+4 *' 3
FLIGHT SEQUENCE
1- 3- 42.3- 1-.2- 4-1 1 LGTSQEC
0R3-1 -2-4-1 -3-4-2-3
OR4-2-3ol-2-4-1-3-4 ,s1---5
Figure 5-7. Flight patterns ALPHA and modified ALPHA.
5.8.1.2. Reconnaissance code (section I plus 4ddff)
is required for each transit of a triangle (A) position in Figure
5-8. These data are transmitted immediately. Groups with the
indicator 4 are included in observations only when surface winds
are discernible. Open circle (0) positions indicate the
beginning or ending of supplementary vortex data on inbound or
outbound radials.
5.8.1.3. Supplementary vortex data are required for
each radial flown inbound or outbound. Transmit data to the
appropriate monitor at the end of each pair of inbound or outbound
legs flown. When HD/HA data are available at CARCAH or NHC, the
supplementary vortex data message is not required from the
aircraft. The CARCAH or NHC will prepare and disseminate the
sea-level pressure using Table 5-2 or an approved computer
program.
5-20
�
5.8.1.5. Dropsonde data, when required in the periphery
of the storm will be determined on a case-by-case basis and
coordinated through the TCPOD.
5.8.1.6. The entry and exit track should be on one of
the cardinal directions (see recommended pattern "A" execution,
Figure 5-8). Prior to starting an inbound or an outbound track
the aircrew should evaluate all available data, e.g., radar
presentation, satellite photo, and select a course within plus or
minus 20 deg of the cardinal direction. Once started on the
course, every effort should be made to maintain a straight track
and the tasked altitude unless flight safety becomes a factor.
V~~~~~~~~~~~~
ST
\ORTEX t
/ 105 NM \ I
S DETAILED VORTEX DATA
am ~~~~~PLUS CENTER DROP \ _ N \ /
\ / 6 D~~~~~ETAILEEIARBRIVATEED - -- -o - -
\ / ~~~~~~~VORTEX DATA 1 *
\ / O~~~~ SUPPLEMENTARY VORTES DATA | I
I /
RECCO ISECTN I) .
DIRECTION OF FlEHT I /
V
Figure 5-8. Recommended pattern ALPHA execution.
5-21
�
Table 5-2. Surface Pressure as a Function of 850-hPa Height for
Normal Tropical Temperature in Summer.
850-hPa Ht Sfc Press 850-hPa Ht Sfc Press 850-hPa Ht Sfc Press
(meters) (hPa) (meters) (hPa) (meters) (hPa)
1626 1025 1403 999 1183 974
1618 1024 1394 998 1174 973
1609 1023 1386 997 1165 972
1601 1022 1377 996 1156 971
1592 1021 1368 995 1147 970
1584 1020 1359 994 1138 969
1575 1019 1351 993 1129 968
1567 1018 1342 992 1120 967
1558 1017 1333 991 1111 966
1550 1016 1324 990 1102 965
1541 1015 1316 989 1093 964
1532 1014 1307 988 1084 963 0
1524 1013 1298 987 1075 962
1515 1012 1289 986 1066 961
1507 1011 1280 985 1057 960
1498 1010 1272 984 1048 959
1489 1009 1263 983 1039 958
1481 1008 1254 982 1030 957
1472 1007 1245 981. 1021 956
1464 1006 1236 980 1012 955
1455 1005 1227 979 1003 954
1446 1004 1218 978 993 953
1438 1003. 1209 977 984 952
1429 1002 1201 976 975 951
1421 1001 1192 975 966 950
1412 1000
Log P(Sfc) = 0.00005Z = Log 850, where Z = 850hPa height in meters
5-22
�
5.8.1.7. Lack of an automated data collection system on
DOD aircraft may preclude complete and timely satisfaction of all
requirements.
5.8.2. Operational Flight Pattern DELTA. Operational flight
pattern Delta provides a suggested (but not the only) approach to
the investigation of a disturbance to ascertain the existence or
nonexistence of a closed circulation, supply RECCO observations in
required areas, and locate the vortex center. This pattern is
normally not tasked when a closed circulation has been identified
and scheduled fixes are required. See Figure 5-9 for the
pattern.
5.8.2.1. Flight level will normally be at or below
1,500 ft absolute altitude but may be adjusted as dictated by data
requirements, meteorological conditions, or flying safety factors.
During day or night operations when flying safety conditions
dictate, an 850-hPa or higher altitude may be flown.
5.8.2.2. Reconnissance observations (Section 1 or 3,
plus 4ddff and 9ViTwTwTw if applicable--see para 5.4.3.1.) are
required approximately every 15 min and at major turn points.
Section 3 observations will be appended to the next RECCO Section
1 observation and data will be transmitted at least every 30 min.
If HD/HA data are available, transmit a Section 1 observation
approximately every 15 min. The 4- or 9- group will not be
reported if data are unavailable.
5.8.2.3. A detailed vortex data message is required if
a vortex fix is made.
Owl 4V5,/ FORECAST \
Figure 5-9. Flight pattern DELTA.
5-23
�
5.8.2.4. The DELTA pattern is designed to provide the
flexibility required in the investigation of a distrubance as
follows:
5.8.2.4.1. The pattern is converted west-east to a
mirror image if entry is to be made from the east.
5.8.2.4.2. The length of the legs is to be
adjusted during the pattern to coincide with cyclonic circulation
wind shifts, i.e., turn points are selected by the flight
meteorologist after observing appropriate sustained w'ind shifts.
5.8.2.4.3. If observed data indicate that the
aircraft is on the southern side of the circulation, the pattern
is converted south-north to a mirror image pattern to enable
investigation in the proper areas.
5.8.2.4.4. If data indicate to the flight
meteorologist that the aircraft is far' north of any existing
cirulation, the pattern is extended (as shown by the dashed lines)
to allow further investigation.
5.8.2.4.5. If the location of the center becomes
obvious, the pattern may be broken off to accomplish a vortex fix.
Forecast agencies may'request changes in the pattern as dictated
by their data requirements.
5.9. Aircraft Reconnaissance Communications.
5.9.1. General. The USAF and NOAA aircraft will normally
transmit reconnaissance observations via the Air Force Satellite
Communications System (AFSATCOM), Aircraft-to-Satellite Data Link,
or high frequency (HF) radio phone patch. Flight meteorologists
should attempt to make voice contact with the CARCAH following the
first fix and periodically throughout the mission, especially
during invests.
5.9.2. Air-to-Ground Communications (HF Radio). The weather
reconnaissance crew will relay weather data via direct telephone
patch to the weather data monitor. Monitors will evaluate these
reports and disseminate them to either the Automated Digital
Weather Switch or the weather communications facility at Suitland,
Maryland. When requested, aeronautical stations will provide a
discrete frequency for mission use, if possible. Specific radio
procedures and terminology will comply with Allied Communications
Publication 125, Standard Telephone and Radio Procedures. Because
of the perishable nature and potential operational impact of
weather data, USAF has authorized the use of IMMEDIATE precedence
for transmission of hurricane reconnaissance data. Data will be
routed as follows:
5-24
�
* Primary. Direct phone patch between the aircraft and
Miami Weather Monitor (Atlantic and Eastern Pacific)
or Hickam Weather Monitor (Central Pacific).
* Secondary. Direct phone patch between the aircraft
and any weather monitor.
5.9.3. Air-to-Air Communications. When more than one
reconnaissance aircraft is known to be operating in a particular
area of interest, the following frequencies will be used& for
airplane-to-airplane communications and coordination unless
otherwise directed by Air Traffic Control:
* Primary: VHF 123.05 MHz
* Secondary: UHF 304.8 MHz
* Back-up: HF 4701 KHz USB
5.9.4. Aircraft-to-Satellite Data Link (ASDL) Equipped
Aircraft. Aircraft equipped with ASDL have the option to utilize
the ASDL system using the following procedures (See Figure 5-10):
5.9.4.1. Data format. The following format will be
used for data transmission by the ASDL system.
* One minute observation--all locations
(Message Header) (Date/Time)
URNT40 KMIA 291630
(Platform Identifier) (Date/Time-NESDIS)
15C9419C 23012 3220
(Mission Identifier)
NOAA2 0401A ANA
(Time) (Latitude) (Longitude) (Press Alt) (D Value)
1233 2803 08037 06173 +0436
(Wind) (Temperature) (Dew Point)
213010 +138 +096
(End of Message)
NNNN
* RECCO Observation--Atlantic Area
(Message Header) (Date/Time)
URNT40 KMIA 291630
(Platform Identifier) (Date/Time-NESDIS)
15C9419C 23012 3220
(Observation MANOP Heading)
URNT11 KMIA
(Mission Identifier)
NOAA2 0401A ANA OB 03
(RECCO Text)
97779 12428... 93275
(End of Message)
NNNN
5-25
�
ASDL UPLINK - 405 MHz
Of
ASDL DOWNLINK
1614 MHz
(ASDL =AIRCRAFT TO SATELLITE
DATA LINK)
USER CALL IN CIRCUITS
(NHC)
GROUND TRACKING STATION
Figure 5-10. Schematic of aircraft-to-satellite data link for
NOAA P-3 aircraft.
5-26
�
* RECCO Observation--Eastern and Central Pacific.
This is the same as the one above except that the
observation MANOP heading is URPN11 KMIA. [NOTE:
11 is used for routine tropical cyclone
observations; 12 is used for vortex reports,
etc.]
(Message Header) (Date/Time)
URPN11 KMIA 291630
(Platform Identifier) (Date/Time-NESDIS)
15C9419C 23012 3220
(Observation MANOP Heading)
UPRN11 KMIA
(Mission Identifier)
NOAA2 0401A ANA OB 03
(RECCO Text)
97779 12428... 93275
(End of Message)
NNNN
5.9.4.2. Data tranmission schedule. To aid the
transmission of data from several aircraft through one circuit,
each aircraft will be assigned a specific block of time within the
30-min interval for transmission of its data. The schedule is
shown in Table 5-2.
5.9.4.3. Data transmission test. Prior to the
beginning of the hurricane season, each ASDL-equipped aircraft
will perform a ground or airborne test of the equipment and data
ground handling procedures to determine the equipment reliability,
transmission errors, and time lapse between transmission of the
data from the aircraft and receipt of the data by the hurricane
forecaster. Test data will be forwarded to the Chairman, Working
Group for Hurricane and Winter Storms Operations.
5.9.5. Improved Weather Reconnaissance System (IWRS)
Equipped Aircraft. The USAF aircraft equipped with IWRS will use
the AFSATCOM data link with Keesler AFB, MS to relay data to the
NHC via the AWN. Figure 5-11 depicts these communication links.
5-27
�
Table 5-3. ASDL data transmission schedule.
TIME PERIOD TRANSMITTER
0-+5
+ 5 - +10 OAO 42RF P-3(A)
+10 - +15 OAO 43RF P-3(B)
+15 - +20
+20 - +25
+25 - +30
+30 - +35
+35 - +40 OAO 42RF P-3(A)
+40 - +45 OAO 43RF P-3(B)
+45 - +50
+50 - +55 Radar
+55 - +60 Radar
[NOTE: Because only 4 min 28 sec of each 5-min time block can be
used for data transmission, roughly 1/2 min is left in each trans-
mission block. This schedule is designed to eliminate diagnostic
statements that would appear at the NESDIS computer if data from
specific sources arrived at the computer at unscheduled time.]
5-28
�
AFSATCOM AFSATCOM
WC-130
with IWRS
ADWS
Keesler AIFB NHC
(Backup) (Primary)
Figure 5-11. Schematic of AFSATCOM data link for USAF WC-130
aircraft.
5-29
�
CHAPTER 6
SATELLITE SURVEILLANCE OF TROPICAL AND SUBTROPICAL CYCLONES
6.1. Satellites.
6.1.1. Geostationary Operational Environmental Satellite
(GOES). The GOES system Surrently consists of one operational
spacecraft, GOES-7 at 108 W. The GOE~-7 will move to 98 W in
late spring of 1989 and return to 108 W in November, 1989. The
principal GOES products are one-half hourly pictures with
implanted grids automatically applied to all sectors. During
daylight hours, approximately 1-, 2-, and 4-km resolution fixed
standard sectors are produced. During the night (and during
daylight) the same geographical coverage standard sectors are
produced with 7-km resolution in infrared (IR). The IR data may
be enhanced to emphasize various features. Also, 14-km
resolution sectors of water vapor are available half-hourly.
Floating sectors, which are scheduled by the Satellite Field
Distribution Facilities (SFDF), are produced to augment the
standard sector coverage. All products are delivered in near
real time to the National Environmental Satellite, Data, and
Information Service's (NESDIS) Synoptic Analysis Branch (SAB),
the SFDF's, and Weather Service Forecast Offices (see Table
6-1).
6.1.2. National Oceanic and Atmospheric Administation
(NOAA) Polar-orbiting Satellites. These Television Infrared
Observation Satellites cross the United States twice daily near
the equatorial crossing times indicated in Table 6-1. Data are
available via direct readout--high resolution picture transmission
(HRPT) or automatic picture transmission (APT)--or central
processing. Data from the Advanced Very High Resolution
Radiometer (AVHRR) are available on a limited basis through the
GOES distribution system (Figure 6-1). The Air Force Global
Weather Central (AFGWC), Offutt AFB, NE, receives global NOAA
imagery data direct from central readout sites on a pass-by-pass
basis. Data are processed in mapped and unmapped form for use
internally.
6.2. National Weather Service (NWS) Support.
6.2.1. Station Contacts. The GOES imagery is available in
support of the Surveillance of tropical and subtropical cyclones
6-1
�
at specific NWS offices. Satellite meteorologists can be
contacted at these offices; phone numbers are in Appendix H.
____ ___------_------------------- ---------------_
Table 6-1. Satellite and satellite data availability for the,
current hurricane season.
�--------------------------------------_
SATELLITE TYPE OF DATA LOCAL TIME PRODUCTS
GOES-7 VAS Every 30 min 1. 1-, 2-, and 4-km
(24 hr/day) resolution visible standad
Limited scan sectors covering Western,
for short- Midwest, and Eastern
interval viewing United States.
available.) 2. 7-km resolution
equivalent IR stand-
ard sectors for U.S.
(night)
3. Equivalent IR-
e-nhanced imagery.
4. Floating sectors at 1-
2-, and 4-km resolution
(visible) (equivalent to
7-km resolution IR)
5. Full disc IR (day
and night)
6. 14-km resolution
water vapor sectors (day
and night)
7. Wind analysis
8. Cloud top heights
9. VDUC-derived products:
Deep layer mean wind, wind
analysis, and moisture
imagery.
10. Moisture analysis
___ __ _ _--�--..--. --..e _ _ __ _ _ _ _ _ _ _ _ _ _ _ _
NOAA-10 AVHRR 0740/1940 1. Mapped imagery
GAC and LAC 2. Unmapped imagery (all
(recorded) data types) at DMSP sites.
HRPT and APT 3. Sea-surface temperatue
(direct) analysis
TOVS 4. Soundings
NOAA-11 GAC and LAC 1340/0140
(recorded)
HRPT and APT
(direct)
TOVS
6-2
�
Table 6-1. Satellite and satellite data availability for the
current hurricane season (continued).
SATELLITE TYPE OF DATA LOCAL TIME PRODUCTS
DMSP F-8 Operational 0611/1811 1. AFGWC 1.5 nmi
Linescan resolution visual and
System (OLS) infrared imagery.
(recorded and 2. Hickam Direct Read-
direct) out 0.3 and 1.5 nmi
Microwave temp- resolution visual and
erature sounder infrared imagery.
(SSM/T) 3. SSM/T data trans-
(recorded) mitted to NESDIS via
Microwave imager shared processing.
(SSM/I) 4. SSM/I data
(recorded) validation ongoing.
DMSP F-9 OLS imagery 0930/2130
(recorded and
direct)
SSM/T (recorded)
6.2.2. Products. There are four types of satellite
products issued by the centers and their alternates. Chapter 3
describes these products, their communications headings, and
their schedules.
* Satellite tropical disturbance summaries
* Satellite interpretation messages
* Tropical weather discussions
* Tropical disturbance rainfall estimates
6.2.3. Satellite Tropical Disturbance Summary. The Miami,
San Francisco, and Honolulu SFSSs distribute satellite summaries
(see Figure 6-2 for an example) twice daily at the times
indicated in Table 6-2. These describe significant weather in
tropical regions of the Atlantic, Eastern Pacific, and Central
Pacific (north and south between 140 W and 100 W), respectively.
6.3. NESDIS Synoptic Analysis Branch. The SAB operates 24 hr a
day to provide satellite support to the National Meteorological
Center. The SAB also distributes twice daily a satellite
tropical disturbance summary for the Indian Ocean. Telephone
numbers for the SAB are in Appendix H.
6-3
�
GOES 6 GOES 7
SFDF'
....<~ NOAA;COMMAND AND
C X I CONTLSTRETCH VAS TAON
KMKPANC _ 2 AVHRR A
SFDF - - ~INGEST M GOES SOURCE DATA
WEFAX
SFDF VAS
CENTRAL DATA
FOH COMPUTER i OPERATIONS | SPACECVELEMEmY ACQUISITION
SFMf | COMPLEX ; CONTL ISPACECCD DI MTNDS STAnON
|_KMKC - -"
FDF I - NGMETEOSAT
R KMIA 4
KCN VAS FACILITY
<WBC 24' KWAL AVHRR, WEFAX WORLD WEATHER DocS DATA
I SFDF | FULL QUPLEX VOICE GRADE CIRCUITS MARLOW HEIGHTS, RTIR
(FACSIMILE) MD
PHNL 2 GMS WEFAX'. RTIR TO KMKC F
SfDF - - . . : RTIR TO KMIA
tcABLES DIRECT I'O CDDF
- FAILT
�
6.4. AFGWC SuDoort and the Defense Meteoroloqical Satellite
Program (DMSP). The AFGWC uses all available meteorological
satellite data when providing fix information. The DMSP will
provide coverage of tropical and subtropical cyclones whenever
possible. Data covering the National Hurricane Operations Plan
areas of interest are received centrally at AFGWC and locally at
the direct readout site at Detachment 4, 20th Weather Squadron,
Hickam AFB, HI.
6.4.1. North Atlantic and Central Pacific Surveillance.
The AFGWC readouts will augment NESDIS surveillance for the
North Atlantic and Central Pacific. The AFGWC will transmit
teletype bulletins describing the location and intensity
classification of the system, in the format shown in Figure 6-3,
to the National Hurricane Center (NHC) or Central Pacific
Hurricane Cente:r as- appropriate, on organized disturbances
evident at the tropical classification one (T-1) or higher.
6.4.2. Eastern Pacific Surveillance. If the NHC
determines the coverage from available NESDIS satellites should
be supplemented, they will request the data from AFGWC.
6.5. Satellites and Satellite Data Availability for the Current
)Hurricane Season. Table 6-1 lists satellite capabilities for
the 1989 hurricane season.
6.6. Current Intensity and Tropical Classification Number.
The current intensity (C.I.) number relates directly to the
intensity of the storm. The empirical relationship between the
C.I. number and a storm's wind speed is shown in Table 6-3. The
C.I. number is same as the tropical classification number
(T-number) during the development stages of a tropical cyclone,
but isuheld higher than the T-number while a cyclone is
weaken ng. This is done because a lag is often observed between
the time a storm pattern indicates weakening has begun and the
time when the storm's intensity decreases. An added benefit
from this rule is the stability it adds to the analysis when
short-period fluctuations in the cloud pattern occur. In
practice, the C.I. number is not lowered until the T-number has
shown weakening for 12 hr or more.
�
ABXX15 KMIA 210800Z
SATELLITE TROPICAL DISTURBANCE SUMMARY
ALL MOVEMENTS AND TRENDS 24 HOURS UNLESS OTHERWISE STATED
EAST PACIFIC GOES WEST IR NITE 210745Z
TROPICAL STORM SUSAN. SEE LATEST NHC ADVISORY.*
ITC 2 TO 4 DEGS WIDE XTNDG FM 6N 80W TO 11N 116W IS BRKN TO
OCNLY OVC WITH HVST ACTIVITY ARND 11N 116W. SCTD ACTV ITC FM 9N
116W TO 12N 134W 2 DEG WIDE WAS BKN YDA. BRKN TO OVC AREA 3 TO
5 DEG IN DIA IS MDTLY ACTV CNTRD NEAR 11N 116W HAS MVD W 5 DEG
WITH LTL CHG.
ATLANTIC GOES EAST IR NITE 210630Z
NO TROPICAL STORMS OBSERVED
ITC 3 TO 5 DEG WIDE FM 1ON 20W TO 14N 50W IS MSTLY BRKN AND
MDTLY ACTV WITH LTL GHG. BRKN ACTV ITC FM 14N 50W TO 17N 57W 4
DEG WIDE HAS INCREASED IN WIDTH.
*Whenever a tropical system is located in the Atlantic,
Caribbean, Eastern, or Central Pacific, Part 1 will carry the
following statement: "See latest (NHC or CPHC) advisory(ies)."
Figure 6-2. Sample satellite tropical disturbance summary.
6-6
�
MESSAGE HEADING:
TPNT CccC
A A. Designator of tropical cyclone category including
CYCLONE DESIGNATOR name/number. When a cloud system has not yet
been designated by name/number enter TROPICAL
DISTURBANCE.
Sample entry: TROPICAL STORM AMY (15)
B B. Date and nodal crossing time in Zulu; round time
DATE/TIME (Z) OF FIX to nearest minute. Sample entry. 252303Z
C C. Latitude to nearest tenth of degree (N or S),
LATITUDE OF POSITION followed by checksum. Sample entry: 29.9N/O 0
D D. Longitude to nearest tenth of degree followed by
LONGITUDE OF POSITION checksum. Sample entry: 56.7 W/8
E E. Enter Position Code number (PCN) and source of
POSITION CODE NUMBER data (DMSP, NOAA 2, etc.). Spell out PCN number.
Select PCN number from code below:
GEOGRAPHICAL GRIDDING EPHEMERIS GRIDDING
ONE: eye fix TWO: eye fix
THREE: well defined FOUR: well defined
circulation circulation
center center
FIVE: poorly defined SIX: poorly
circulation defined
center circulation
center
Sample entry: ONE/DMSP
F F. Dvorak classification for storm intensity as
DVORAK CLASSIFICATION described in NOAA technical Memorandum NESS 45
and lWW/TN-81/001. Dvorak classification will be
made once each day and must be based on visual
data. If a new Dvorak classification number
cannot be derived, use the last reported number.
Include in parenthesis the date and nodal time of
the data on which the Dvorak analysis is based.
Sample entry: T 4.5/4.5/D1.0/25HRS (252305Z)
G 'G. Include information, as appropriate, on data type,
REMARKS eye characteristics, spiral rainbands, unexpected
changes in storm movement, departures from Dvorak
(modelled) intensities, etc.
Figure 6-3. Center fix data form and message format
(satel ite).
6-7
�
Table 6-2. Communications headings for satellite tropical
disturbance summaries.
HEADING TIME ISSUED OCEANIC AREA TYPE OF DATA
�TCI01 KWBC 1100 UTC Indian Ocean VIS
TCIO11 KWBC 1100 UTC Indian Ocean VIS
TCIO11 KWBC 2300 UTC Indian Ocean IR Day
TCPW11 PHNL 1000 UTC Western Pacific IR Night
(north and south
of 100 E to 175 W)
TCPW10O PHNL 2200 UTC Western Pacific VIS/IR Day
(north and south
of 100 E to 175 W)
TCPA11 PHNL 1000 UTC Central Pacific IR Night
(north and south
of 175 W to 140 W)
TCPA10O PHNL 2200 UTC Central Pacific VIS/IR Day
(north and south
of 175 W to 140 W)
TCPW11 PHNL 0500 UTC Western Pacific VIS
(north and south
of 170 E)
Table 6-3. The empirical relationship between the C.I. number
and the maximum wind speed and the relationship
between the T-number and the minimum sea-level
pressure.
C.I. NUMBER MAXIMUM T-NUMBER MINIMUM SEA-LEVEL PRESSURE
WIND SPEED (Atlantic) (NW Pacific)
1 25 kt 1
1.5 25 1.5
2 30 2 1009 hPa 1003 hPa
2.5 35 2.5 1005 999
3 45 3 1000 994
3.5 55 3.5 994 988
4 65 4 987 981
4.5 77 4.5 979 973
5 90 5 970 964
5.5 102 5.5 960 954
6 115 6 948 942
6-8
�
CHAPTER 7
SURFACE RADAR REPORTING
7.1. General. Radar observations of tropical cyclones will be
made at Department of Defense (DOD), National Weather Service
(NWS), and Federal Aviation Administration (FAA) radar facilities
and at other cooperating radar facilities according to established
agreements with NWS.
7.2. Procedures.
7.2.1. Radar observations of tropical cyclones will be made
in accordance with the Federal Meteorological Handbook (FMH)-7,
Part A, Weather Radar Observations. Stations that normally
transmitTPuorly radar weather observations (network stations) will
include tropical cyclone features in routine reports at 35 min
past the hour (H+35) and will make and transmit special
observations at H+10 whenever an eye or center is observed. It is
highly desirable for stations that do not normally transmit hourly
reports (local warning radars) to make and transmit a radar
observation whenever an eye, center, or spiral band is observed.
The local warning radar sites may transmit only abbreviated
special observations, defined in FMH-7, at H+10 and H+35. The Air
Weather Service (AWS) units at MacDill AFB and Tyndall AFB,
Florida will take and transmit radar reports, to include tropical
cyclone features, at H+10 and H+35 whenever an eye or center is
observed," All other AWS radar units will take and transmit such
reports at H+35.
7.2.2. If the central region of a storm is defined by an
identifiable wall cloud, the radar fix is reported as an EYE. If
the central region is recognizable, but not well defined by a wall
cloud, it is reported as a "center". When the eye or center is
only occasionally recognizable or some other central region
uncertainty exists, the eye or center is reported as "psbl eye" or
"psbl center". Remarks stating the degree of confidence will be
included with eye fixes only and will be classified as either
"good,' 'fair,' or "poor." A "good" fix is reported when the eye
is symmetrical--virtually surrounded by wall cloud; a "poor" fix
is reported when the eye is asymmetrical--less than 50 percent
surrounded by wall cloud; a "fair" fix is reported to express a
degree of confidence between "good" and "poor."
7-1
�
7.2.3. Timely transmission of tropical cyclone radar reports
is essential. Normally, radar reports are transmitted over the
Automation of Field Operations and Service System or the CONUS
Meteorological Data System circuit equipment. Radar facilities
not having weather transmission capability may call the nearest
National Weather Service Office collect.
7.3. Special Provisions.
7.3.1. If NWS network radars (WSR-57s and selected WSR-74s)
and DOD weather radar facilities are collocated (within 25 nmi),
the NWS radar will have the primary responsibility for making and
transmitting tropical cyclone radar reports; DOD will provide
backup service. If a radar facility is less powerful than the
WSR-57 and is collocated with a North American Aerospace Defense
Command (NORAD) long-range radar facility, the NORAD long-range
radar facility will have the primary responsibility for making and
transmitting tropical cyclone radar reports provided it is manned
by a qualified weather radar operator. The less powerful radar
facility will provide backup service. Any backup radar facility,
however, may transmit radar reports as desired.
7.3.2. If radar reports are needed from NORAD long-range
radar facilities, NWS will dispatch weather radar specialists to
those facilities to make and transmit tropical cyclone radar
observations. The DOD has authorized the Director, NWS, to
dispatch NWS radar specialists to NORAD sites during critical
hurricane threats to make and transmit hurricane radar
observations. Specific procedures regarding notification, access
to sites, clearances, etc., as agreed to by DOD and NWS will be
the responsibility of the Warning and Forecast Branch, Office of
Meteorology, NWS Headquarters, and will be strictly adhered to.
7.3.3. Air Weather Service staff weather officers providing
support to NORAD long-range radar units act as coordinators for
visits. These coordinators are the listed below. Telephone
numbers are in Appendix H. Participating radar sites are listed
in Table 7-1.
� Commander, Detachment (Det) 9, 3rd Weather Squadron
(WS) for the Southeast Air Defense Sector, Tyndall
AFB, FL.
� Commander, Det 8, 26 WS, for the Northeast Air Defense
Sector, Griffiss AFB, NY.
* Commander, Det 4, 20 WS, Hawaii Regional Operations
Control Center (ROCC), Hickam AFB, HI,
7.3.4. The radar used depends upon the location of the
hurricane; the one in use will be properly identified.
7-2
�
Table 7-1. Participating radar stations.
LOCATION TYPE RADAR LATITUDE LONGITUDE
NATIONAL WEATHER SERVICE RADARS
o 0
Apalachicola, FL WSR-57 29 044'N 840591W
Atlantic City, NJ WSR-57 3902 7 'N 7 4035'W
Baton Rouge, LA# WSR-.74C 30~ 32'N 91 0901W
Brownsville, TX WSR-57 25 054'N 97026'W
Cape Hatteras, NC WSR-57 350 16'N 75~ 33'W
Charleson, SC WSR-57 32 054'N 80002 W
* ~Chatham, MA WSR-74S 41 039'N 690 57'W
Corpus Christi, TX WSR-74C 27 046'N 973O'W
Daytona Beach, FL WSR-57 29 011'N 81 003'W
Galveston, TX WSR-57 29~ 18'N 94048'W
Jackson, MS WSR-57 324033'N 9000451W
Key West, FL WSR-57 2 3' 14'
Lake Charles, LA WSR-57 30 007'N 930 13'W
Los Angeles, CA# WSR-74C 34 003N 118 027'W
Miami, FL WSR-57 25 043'N 80017'W
Mobile, AL# WSR-74C 30 041'N 880 15'W
Mt Laguna, CA FPS-7 32 053'N 116025'W
New York City, NY WSR-57 40 046'N 730591W
Patuxant, MD WSR-74S 38~ 17'N 76025'W
Pensacola, FL WSR-57 30 021'N 87019'W
Portland, ME WSR-57 43 039'N 700 181W
San Jaun, PR FPS-67* 18~ 16'N 65046'W
San Padro, CA ARSR 33 045'N 118 02O'W
Savannah, GA WSR-74C 32 008'N 81 12'W
Slidell, LA WSR-57 30 017'N 89049'W
Tampa, FL WSR-57 27 042'N 82024'W
Victoria, TX# 'WR-100-5 28 051'N 960551W
Volens, VA WSR-74S 36 057'N 79000'W
Waycross, GA WSR-57 31 015'N 82 024'W
West Palm Beach, FL#I WSR-74S 26 041'N 800O6'W
Wilmington, NC WSR-57 34 16'N 77 551W
DEPARTMENT OF DEFENSE
---- --- --- --- --- ---- --- --- --- --- ---- --- --- --- --0--0
Andrews AFB, MD FPS-77 38 048'N 76 053'W
Barksdale AFB, LA FPS-77 32 030'N 93 04O'W
Bermuda NAS FPS-106 320 22'N 64041'W
Cape Canaveral AFS, FL FPQ-21 28 028'N 80 033'W
Chase Field NAS, TX FPS-106 28022'N 97 04OsW
Cherry Point MCAS, NC FPS-106 34c'54'N 76"53'W
Corpus Christi NSA, TX FPS-106 27 042'N 970 16'W
Eglin AFB, FL FPS-77 30029'N 860'31'W
Homestead AFB, FL FPS-77 25 291N 80023'W
7 -3
�
Howard AFB, CZ FPQ-21 080 77'N 79036'W
Hurlbert Field, FL FPQ-21 30026'N 81041'W
Jacksonville NAS, FL FPS-106 3001OWN 81041'W
Keesler AFB, MS FPS-77 300 24'N 880551W
MacDill AFB, FL FPS-77 270 511N 82030'W
McGuire AFB, NJ FPS-77 40000O'N74 3'
New Orleans NAS, LA FPS-106 290 50'N 90403'W
Norfork NAS, VA FPS-106 360 561N 760181W
Pope AFB, NC FPQ-21 350 121N 790011W
Randolph AFB, TX FPS-77 290 32'N 98017'W
Robins AFB, GA FPS-77 320 38'N 83036'W
Seymour Johnson AFB, NC FPS-77 350 20'N 770581W
Guantanamo Bay, Cuba FPS-106 190 54'N 750101W
Roosevelt Roads, PR FPS-106 180 15'N 65 38'W
Hickam AFB, HI FPQ-21 20 19'N 157'55'W
NORAD SITES
Northeast Air Defense Sector
OLAF, 23ADS, Patrick AFB, FL** 280 13' N 820036'W
OLAD, 23ADS, Ft Lonesome, FL** 27 036IN 80 0'
OLAJ, 23ADS, Key West NAS, FL 240 351N 81041'W
678 RS, Tyndall, AFB, FL** 300 05'N 85 037'W
701 RS, Ft Fisher AFS, NC 330 59'N 77055'W
OLAC, 23ADS, Jedburg, SC 330 06'N 80012'W
Southeast Air Defense Sector 001
762 RS, North Truro AFS, MA 420 002'N 70003W
772 RS, Gibbsboro AFS, NJ 390 79'N 74057'W
OLAA, 24ADS, Sulfolk, NY 4054'N 72042'W
OLAE, 24ADS, Bucks Harbor, ME 44 038'N 67 24'W
HAWAII ROCCO
150 AC&WS, Kokee, AFS, HI 22 009'N 159 39'W
169 AC&WS, Mt Kaala AFS, HI 210 30'N 1 581108'W
COOPERATING SITES
NASA
Bay St Louis, MS CPS-9 300 42'N 89007'W
Wallops Station, VA MPS-19 370 ~50N 75029'W
SPS-12 370 56'N 75028'W
FPS-16 3 501N 751129,W
FPQ-6 37 052'N 75031'W
Universities
MIT CPS-9 42 042'N 71006,W
M-33 420 42'N 71006'W
Texas A&M CPS-9 30037'N 96021'W
Univ of Miami SP-1M 25"43'N 80"17'W
CPS-68 25 043'N 800 17'W
*FAA-.USN joint-use radar,**Remoted to FAA ARTCC,#Local Warning Radar
7 -A
�
CHAPTER 8
NATIONAL DATA BUOY CENTER REPORTING STATIONS
8.1. General.
8.1.1. The National Data Buoy Center (NDBC) maintains
automated reporting stations in the Gulf of Mexico, off the east
and west coasts of the United States, and at coastal land areas.
Also, a stockpile of four rapid response drifting data buoys are
available for aerial deployment in the event of emergencies.
These data acquisition systems obtain measurements of
meterological apd oceanographic parameters for operations and
research purposes. Moored buoy station locations and
configurations are given in Table 8-1. The location of Coastal
Marine Automated Network (C-MAN) stations are listed in Table 8-2
and shown in Figure 8-4. The status and capability of stations
can be obtained from the Data Systems Division, NDBC.
8.1.2. Moored buoy and C-MAN stations routinely acquire,
store, and transmit data every hour. Data obtained operationally
include sea-level pressure, wind speed and direction, air
temperature, sea-surface temperature, and wave spectral data.
8.1.3. Drifting buoys are available in two types called Wind
Speed Direction (WSD) and Air Sea Interaction Drifter (ASID). A
WSD buoy measures sea-level pressure, wind speed and direction,
air temperature, and sea-surface temperature. An ASID buoy
measures the same parameters and can be configured with a
subsurface thermistor array to measure hydrostatic pressure and
subsurface ocean temperature. See Figure 8-1.
8.2. Requests for Drifting Buoy Deployment. The Department of
Commerce (DOC) through the National Atmospheric and Oceanic
Administration (NOAA) will initiate a request through the Office
of the Federal Coordinator for Meteorological Services and
Supporting Research to the U.S. Air Force (USAF) for each desired
aerial deployment of drifting data buoys for a pre-storm array in
the Atlantic or Pacific Oceans. Normally, USAF C-130 or C-141
aircraft are tasked for this mission; the 53rd Weather
Reconnaissance Squadron or the 815th Weather Operations Flight are
not capable of deploying drifting data buoys. Requests for
deployment should allow at least a 30-day lead time. For
deployments in advance of a U.S. land-threatening hurricane,
8-1
�
a 36- to 48-hr notification is required. All requests will
include specifics regarding onloading base, accompanying
technicians, desired pickup times, offload points, reimbursement
funding, and any other pertinent data.
8.2.1. The National Hurricane Center forecasters would issue
an alert or outlook for a possible request for drifting buoy
deployment 48 hr prior to the planned deployment. A formal
request for deployment would be issued 24 hr prior to the event.
At this point either a cancellation or an extension of the alert
would be issued. Decisions would normally be made by 0900 EDT.
8.2.2. The DOC desires the deployment of up to four drifting
buoys between 100 and 180 nmi from the storm center, depending on
the dynamics of the storm system. The DOC would ensure the buoys
and mission-related DOC personnel are available for pickup by
Department of Defense aircraft. The specific DOC request for
placement of the buoys would depend on several factors, including
* Characteristics of the storm including size,
intensity, and velocity.
* Storm position relative to the coast and population
centers.
8.2.3. The final deployment position will be provided prior
to the flight crew briefing. Two examples of possible buoy
deployment patterns are shown in Figure 8-2.
8.3. Communications. Moored buoy and C-MAN data are transmitted
by ultra-high frequency communications via the Geostationary
Operational Environmental Satellite to the National Enviromental
Satellite, Data, and Information Service and then are relayed on
to the National Meteorlogical Center (NMC) for processing and
dissemination. Moored buoy data are formatted into the World
Meteorological Organization (WMO) FM 13-IX ship code, and C-MAN
data are formatted into C-MAN code, which is very similar to the
WMO FM 12-IX synoptic code. These codes are defined in Federal
Meteorlogical Handbook 2, Surface Synoptic Codes. Drifting buoy
data are telemetered through the NOAA polar orbiting satellites to
the U.S. ARGOS Global Processing Center, Landover Maryland, for
processing. These data are formatted by Service ARGOS into the
WMO FM 14-VIII (DRIBU) code defined in the WMO Manual on Codes,
Volume I, and then are routed to NMC over the Global
Telecommunications Service for distribution and dissemination to
users in the United States.
8-2
�
Table 8-1. Data buoy locations and configuration.
.�__ __--------------------------�
STATION ID LOCATION BUOY SIZE SENSOR HEIGHT
MOORED BUOYS IN THE GULF OF MEXICO
42001 25.9�N 89.7 �W 10 m 10 m
42002 26.0�N 93.5 �W 10 m 10 m
42003 26.0�N 85.9 W 10 m 10 m
42007 30.1 �N 88.9oW 12 m 10 m
42015 * 30.1�N 88.2 W 3 m 5m
42016 * 30.2 N 88.1 IW 3 m 5 m
MOORED BUOYS IN THE ATLANTIC OCEAN
41001 34.90N 72.9�W 6 m 5 m
41002 32.30N 75.3 0 6 5m
41006 29.3 N 77.4 W 6 m 5 m
41008 * 30.7 N 81.1�W 3 m 5 m
41009 * 28.5 N 80.2 W 3 m 5 m
41010 * 28.9 N 78.6 W 10 m 10 m
44004 38.50N 70.6�W 6m 5m
44005 42.7 N 68.3 0 6m 5 m
44007 43.5�N 70.1�W 12 m 13 m
44008 40.5 N 69.5�W 12 m 13 m
44009 38.5 N 74.6�W 12 m 13 m
44011 41.1�N 66.6 6 m 5 m
44012 38.8 N 74.60W 12 m 13 m
44013 42.4 N 70.8�W 12 m 13 m
MOORED BUOYS IN THE PACIFIC OCEAN
46011 * 34.90�N 120.9�W 10 m 10 m
4602'3 * 34.3�N 120.7 W 10 m 10 m
46025 * 33.7�N 119.1�W 10 m 10 m
51001 23.4 N 162.3�W 6 m 5 m
51002 17.2�N 157.8�W 6 m 5 m
51003 19.2 N 160.8�W 6 m 5 m
51004 17.5�N 152.5�W 6 m 5 m
DRIFTING BUOYS
STATION ID LOCATION BUOY SIZE ANEMOMETER HEIGHT
WMO 5-digit Variable ASID or 1 m
identifier WSD
assigned
immediately
before deployment
* Temporary sites established in support of other programs.
8-3
�
Figure 8-1. A drifting data buoy.
25 nm xnmi 55 nmi 95 nmi
Projected path
of storm Pattern A
-x - *
x 15 nmi T 15 nmi
45 nmi 45 nmi
Projected path
of storm Pattern B
Figure 8-2. Drifting buoy deployment patterns.
8-4
�
STATIONS 9 S 951� 90� 8580'
CATEGORY CANAD
O PERMANENT - NWS
O LNB/ELB - NWS
: OTHER AGENCIES WIS
O DEVELOPMENTAL NDBCt
STATUS (
'� ESTABLISHED
O PLANNED
\ 8-d. N, -o lcto
o-0� ,ooo0 ~ s~,oo -'--0 GO
Figure 8-3. NDBC buoy locations.
�
Table 8-2. C-MAN sites.
STATION ID LOCATION STATION NAME
C-MAN SITES IN THE GULF OF MEXICO
BURL1 28.9 N 89.4�W Southwest Pass, LA
CSBF1 29.7 N 85.40W Cape San Blas, FL
DPIA1 30.3 N 88.1 �W Dauphin Island, AL
GDIL1 29.30N 90.00W Grand Isle, LA
MPCL1 * 29.4 N 88.6�W Main Pass Block 133C
PTAT2 27.8 N 97.1�W Port Aransas, TX
SRST2 29.70 N 94.1�W Sabine, TX
C-MAN SITES IN THE ATLANTIC OCEAN
ALSN6 40.50N 73.80W Ambrose Light, NY
BUZM3 41.4 N 71.0 W Buzzards Bay, MA
CHLV2 36.9 N 75.7 W Chesapeake, Light, VA
CLKN7 34.60N 76.5 W Cape Lookout, NC
DSLN7 35.2 N 75.3 W Diamond Shoals, NC
FBIS1 32.7 N 79.9 W Folly Island, SC
FPSN7 33.5 N 77.6 W Frying Pan Shoals, NC
IOSN3 43.0 N 70.6�W Isle of Shoals, NH
LKWF1 26.6 N 80.0 W Lake Worth, FL
MDRM1 44.0 N 68.1 W Mt Desert Rock, ME
MISM1 43.8�N 68.9 W Mantinicus Rock, ME
MLRF1 25.00N 80.4 W Molasses Reef, FL
SAUF1 29.90N 81.3 W St. Augustine, FL
SPGF1 26.7�N 79.0 W Settlement Point, GBI
SVLS1 32.0 N 80.7 0W Savannah Light, FL
SMKF1 24.6 N 81.1�W Sombrero Key, FL
TPLM2 38.9 �N 76.40W Thomas Point, MD
VENF1 27.1 N 82.5 W Venice, FL
C-MAN SITES IN THE PACIFIC OCEAN
CAR03 43.3 N 124.4 0W Cape Arago, OR
DESW1 47.7 N 124.5 W Destruction Island, WA
FFIA2 57.3�N 133.6 W Five Finger Light, AK
NWPO3 44.6 N 124.1 W Newport, OR
PTAC1 39.00N 123.7�W Point Arena, CA
PTCG1 34.60N 120.7 W Point Arguello, CA
SISW1 48.3 N 122.8 W Smith Island, WA
TTIW1 48.40N 124.70�W Tatoosh Island, WA
WPOW1 47.70N 122.4�W West Point, WA
* Temporary site established in support of other programs.
8-6
�
NO. STATION
A.. FIVE FINGER. AK
w-~~A1
6-5 -W-6 DSTRUTION ISAN.WA E MOUTA DSTRC.M
6-9 W- POINT ARENA. CA EN.8 MATIN~iCSROC NYE-
ST~~~~~- FPOINT. WAN- SOUHOBASS ISLN. OM
WC- RT OROC FAE. Edo CAPELOOKOSLAN, NY
CMT ARGEVLSILON. CA E-1 FOL DISAMND.SOASL .NC 67
W-B~~ W- C H ISHLOAND. WA E.5 CEAMPROSE L S.. VA , P,~
83 W-6 DASTSATIO ISLAND. WA E.6 MOUZZADESE BAOCLK. MA O BO
APE SANNARDOC. OR E-4 TIOMAS POINT S H 8 OALSMI IE. NHE14 *-
E-9 FRYNGPEAN SHOALS. FL 83SAN FRNCISO CA
C-2 DEVILS ISLANDABIN. WI E - 1 4 DIMNDHALSTUCKET. MA .7
C-3 SHESOYSAN.S-3 E.UTHWASTROSS. LA. ST ERERE. NY
S.4 CPER ARANSBAS. FL B-2 DERLAWAR-E fA.D
S-5 ST AUGUSTINE. FL 8.7 FIVE FATHOM. NJ
S-6 LAKE WORTH. FL 8-8 BOSTON. MA*E-
S- ISETLMETPOINT. Gel CENTRAL.)@-
C - CETALASKANS-
RHC-5 (4) 4188
Figure 8-4. C-MAN sites.
�
Table 8-3. Code forms for moored data buoys, C-MAN stations, and
drifting buoys.
CODE FORM FM 13-VII (SHIP)
REPORT OF SYNOPTIC SURFACE OBSERVATION FROM A SEA STATION
(AUTOMATIC WEATHER STATION)
M~M~M~M A~ b~ b ~b~b YYGGi 99La LaLa QLOLOLOLO
irix/// /ddff lsn TTT 4PPPP 5appp
22200 OsnTwTwTwI lPwa Pwa Hwa Hwa
333 921ff 925ff 926dd
U.S. NATIONAL CODE FORM (C-MAN LAND STATION CODE)
(MODIFIED CODE FORM FM12-VI11)
CMAN YYGGi
XXXXnt~ iR9xhVV Nddff (Odfff) 1snTTT 4PPPP 5appp 6RRRt
222/I OsnTw T~Tw IPwaPwaHwaHwa 7OHwa Hwa Hwa
333- 921ff
555 llfff 22fff 3GGgg 4 d dfm fmfm 9GGgg
CODE FORM FM 14-VIII .(DIRBU)
REPORT OF A DRIFTING BUOY OBSERVATION
Mi Mi Mj Mj
YYMMJJ GGggi Qc.La La LaLa Lo Lo LoLoLo
(1PPPP) -(2snTwTwTw) (3ddff) (4sn TTT) (5appp)
888 ZO Z0To ToTo IZ z1Tj TjTj . zn Zzn TnTn Tn
999zz ZIzITj Tj Tj ** znzTnTn~
(00000)
61616 (1QpQ2QTWQ4) (PQnQL//) (QcLa La.LaLa Lo Lo Lo LoLo (8ViViViVi)
or
(HL VSVSdB dB
333~9i d dZ 696960
8-8
�
CHAPTER 9
MARINE WEATHER BROADCASTS
9.1. General. The Department of Defense (DOD) and Department of
Transportation (DOT) are responsible for broadcasting marine
tropical cyclone advisories issued by the National Hurricane
Center and the Central Pacific Hurricane Center. Table 9-1 lists
the stations involved. The broadcasts are for the purpose of
providing warnings to meet international obligations in Department
of Commerce area of forecast responsibility given in Chapter 2.
9.2. Broadcast Procedures. The DOT and DOD will arrange for
broadcast of all marine tropical cyclone advisories immediately
upon receipt. The latest tropical cyclone forecast will be
transmitted according to the schedule and on the frequencies given
in Worldwide Marine Weather Broadcasts. The latest position
estimate will be used by DOT and DOD along with the latest
forecast for storms on which postions estimates are being issued.
The broadcasts will be made in both voice and continuous wave (CW)
mode.
Table 9-1. Marine tropical cyclone forecast broadcast stations.
STATION CALL LETTERS AGENCY LOCATION
NMW DOT Astoria, OR
NMF DOT Boston, MA
NMO DOT Honolulu, HI
NMQ DOT Channel Island, CA
NMA DOT Miami, FL
NMG DOT New Orleans, LA
NAM DOD Norfolk, VA
NMN DOT Portsmouth, VA
NMC DOT San Francisco, CA
NMR DOT San Juan, PR
9-1
�
CHAPTER 10
PUBLICITY
10.1. News Media Releases. News media releases, other than
warnings and advisories, for the purpose of informing the public
of the operational and research activities of the Departments of
Commerce, Defense, and Transportation should reflect the joint
effort of these agencies by giving due credit to the
participation of other agencies.
10.2. Distribution. Copies of these releases should be
forwarded to the following agencies.
* NOAA Office of Public Affairs
6010 Executive Boulvard
Rockville, MD 20852
* Commander, Naval Oceanography Command
Stennis Space Center, MS 39529
� Hq Military Airlift Command (MAC/PA)
Scott AFB, IL 62225-5000
� Hq Air Force Reserve (AFRES/PA)
Robins AFB, GA 31093
* Chief, Environmental Services Division (J-3)
The Joint Chiefs of Staff
Washington, DC 20301-5000
* Federal Aviation Administration (AAT-150)
800 Independence Avenue, SW
Washington, DC 20591
* Federal Coordinator for Meteorological
Services and Supporting Research
Suite 300, 11426 Rockville Pike
Rockville, MD 20852
10-1
�
APPENDIX A
ABBREVIATIONS
-A-
AB Data type header for Tropical Weather Outlook
ADWS Automated Digital Weather System
AES Atmospheric Environmental Service (Canada)
AFB Air Force Base
AFGWC Air Force Global Weather Central
AFOS Automation of Field Operations and Services
AFRES Air Force Reserve
AFS Air Force Station
AFSATCOM Air Force Satellite Communications System
AFTN Aeronautical Fixed Telecommuncations
Network
APT Automatic Picture Transmission
ARGOS ARGOS, Inc., a French data collection system
ARTCC Air Route Traffic Control Center
ARWO Aerial Reconnaissance Weather Officer
ASDL Aircraft-to-Satellite Data Link
ASID Air-Sea Interaction Drifter
ATC Air Traffic Control
AUTOVON Automated Voice Network (DOD)
AV AUTOVON
AVHRR Advanced Very High Resolution Radiometer
AWS Air Weather Service
-C-
CARCAH Chief, Aerial Reconnaissance Coordinator,
All Hurricanes (OL-G, 7WW)
CDDF Central Data Distribution Facility (NESDIS)
C.I. Current Intensity
C-MAN Coastal-Marine Automated Network
COM Commercial (telephone)
CONUS Continental United States
COMEDS CONUS Meteorological Data System (USAF)
CPHC Central Pacific Hurricane Center
CW Continuous Wave
�C degree/degrees Celcius
A-1
�
-D-
DA Daylight Ascending
DAF Department of the Air Force
DCS Data Collection System
deg degree (latitude or longitude)
Det Detachment
DMSP Defense Meteorological Satellite Program
DOC Department of Commerce
DOD Department of Defense
DOT Department of Transportation
DPTD departed
DRIBU Drifting Buoy Code
DROP Dropsonde/dropwindsonde
DTG Date/Time Group
-E-
EDT Eastern Daylight Time
ETA Estimated Time of Arrival
ETD Estimated Time of Departure
-F-
FAA Federal Aviation Administration
FACSFAC Fleet Aerial Control and Surveillance Facility
FCM Federal Coordinator for Meteorological
Services and Supporting Research
FCMSSR Federal Committee for Meteorological
Services and Supporting Research
FCST forecast
FCSTR forecaster
FL Flight Level
FLT LVL Flight Level
FMH Federal Meterological Handbook
ft foot/feet
FTS Federal Telephone System
-G=
GAC Global Area Coverage_
GOES Geostationary Operational Environmental
Satellite
GMS Geostationary Meteorological Satellite
GTS Global Telecommunications System
A-2
�
HA High Accuracy
HD High Density
HF High Frequency
hPa hectopascal/hectopascals
hr hour/hours
HNL Honolulu (CPHC)
HRPT High Resololution Picture Transmission
-I-
ICAO International Civil Aviation Organization
ICMSSR Interdepartmental Committee for Meteorological
Services and Supporting Research
ID identification
IFR Instrument Flight Rules
INIT initials
IR Infrared
IWRS Improved Weather Reconnaissance System
-j-
JTWC Joint Typhoon Warning Center
-K-
km kilometer/kilometers
KBIX ICAO identifier for Keesler AFB, MS
KMHR ICAO identifier for Mather AFB, CA (Mather
Monitor)
KMIA ICAO identifier for Miami, FL (NHC)
KMKC ICAO identifier for Kansas City, MO WSFO
KNEW ICAO identifier for New Orleans, LA WSFO
KSFO ICAO identifier for San Francisco, CA
kt knot/knots
KWAL ICAO identifier for Wallops Island, VA
-L-
LAC Local Area Coverage
LF Light Fine
LI Long Island
LS Light Smooth
A-3
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-M-
m meter/meters
MAC Military'Airlift ,Command (USAF)
MACR MAC RegulTaion
MANOP communications header
MAX maximum
MB millibars
METEOSAT European Space Agency meteorological satellite
min/MIN minute
MINOB Minute Observation (IWRS)
MOU Memorandum of Understanding
mph mile/miles per'hour
MVMT movement
-N-
NASA National Spa6ceand Aeronautics
Administration
NAVEASTOCEANCEN Naval Eastern Oceanography Center
NAVOCEANCOM Naval Oceanography Command
NAVOCEANCOMDET Naval Oceanography Command Detachment
NAVOCEANCOMFAC Naval Oceanography Command Facility
NAVWESTOCEANCEN Naval Western Oceanography Center
NDBC National Data Buoy Center
NESDIS National Environmental Satellite, Data,
and'Information Service
NHC National HurriCane Center
NHOP National 'Hurricane Operations Plan
NLT Not Later Than
NMC National Meterological Center
nmi nautical mile/miles
NOAA National Oceanic and Atmospheric
Administration'
NORAD North American Aerospace Defense Command
NSSFC National Severe Storms Forecast Center
NSTL National Space Technology Laboratories (NASA)
NWS National Weather Service
-0-
OAC Oceanic Aircraft Coordinator (USN)
OAO Office of .Aircraft Operations (NOAA)
OBS observation
OFCM Office of the Federal Coordinator for
Meterological Services and Supporting
Research
OL-G Operating Location G, 7th Weather Wing (CARCAH)
A-4
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_p.
PA Public Affairs
PANC ICAO identifier for Anchorage, AK
PCN Position Code Number
PHNL ICAO identifier for Honolulu, HI
POD Plan of the Day
-R=
RECCO Reconnaissance Code
RECON reconnaissance
REQT requested
ROCC Regional Operational Control Center
RTIR Real-Time Infrared
-S-
SAB Synoptic Analysis Branch
SFC surface
SFDF Satellite Field Distribution Facility
SLP Sea Level Pressure
SSH Mission Sensor Infrared Temperature
Sounder (DMSP)
SSIR Mission Sensor Infrared
SSM/I Mission Sensor Microwave Imager
SSM/T Mission Senson Microwave Temperature Sounder
SST Sea Surface Temperature
-T-
TCD Tropical Cylone Discussion
TCPOD Tropical Cyclone Plan of the Day
TD Tropical Depression
TEMP temperature
TEMP temporary
TEMP DROP Dropwindsonde Code
TF Thermal Fine
TKO takeoff
T-number Tropical classification number
TOVS TIROS-N Operational Vertical Sounder
TS Thermal Smooth
TWO Tropical Weather Outlook
A-5
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-U-
UHF Ultra High Frequency
US/U.S. United States
USAF United States Air Force
USCG United States Coast Guard
USN United States Navy
UTC Universal Coordinated Time
-V-
VAS VISSR Atmospheric Sounder
VDUC VAS Data Utilization Center
VIS Visible
VISSR Visible and Infrared Spin Scan Radiometer
VTPR Vertical Temperature Profile Radiometer
-W-
WEFAX Weather Facsimile
WMO World Meteorological Organization
WND wind
WO Data type header for special tropical
disturbance statements
WRS Weather Reconnaissance Squadron
WS (National) Weather Service
WS Weather Squadron
WSD Wind Speed and Direction (data bouy)
WSFO Weather Service Forecast Office
WSR Weather Surveillance Radar
WT Data type header for hurricane bulletins
WW Weather Wing (USAF)
WW Data type header for subtropical storm
bulletins
-X-
XMTD transmitted
-Z-
Z Zulu (UTC)
A-6
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APPENDIX B
GLOSSARY
Agency. Any Federal agency or organization participating in
the tropical cyclone warning service.
Center Fix. The location of the center of a tropical or sub-
tropical cyclone obtained by means other than reconnaissance
aircraft penetration. See also Vortex Fix.
Cyclone. An atmospheric closed circulation rotating counter-
clockwise in the Northern Hemisphere.
Eye. The relatively calm center of the tropical cyclone that
is more than one half surrounded by wall cloud.
Eye Wall. An organized band of cumuliform clouds immediately
surrounding the center of a tropical cyclone. Eye wall and
wall cloud are used synonymously.
High Density/High Accuracy (HA/HD) Data. Those data provided
by automated airborne systems--WP-3s or WC-130s equipped
with the Improved Weather Reconnaissance System.
Hurricane/Typhoon. A warm core tropical cyclone in which the
maximum sustained surface wind speed (1-min mean) is 64 kt
(74,mph) or more.
Hurricane Season. The portion of the year having a relatively
high incidence of hurricanes. The seasons for the specific
areas are as follows:
* Atlantic, Caribbean, June 1 to November 30
and Gulf of Mexico
* Eastern Pacific May 15 To November 30
* Central Pacific June 1 to November 30
Hurricane Warning Offices. The designated hurricane warning
offices follow:
� National Hurricane Center, Miami, Florida
* Central Pacific Hurricane Center, Honolulu, HI
Hurricane Warning. A warning that sustained winds of 64 kt
(74 mph) or higher associated with a hurricane are expected
in a specified coastal area in 24 hr or less. A hurricane
B-1
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warning can remain in effect when dangerously high water or
a combination of dangerously high water and exceptionally
high waves continue, even though winds may be less than
hurricane force.
Hurricane Watch. An announcement for specific coastal areas
that a hurricane or an incipient hurricane condition poses a
possible threat, generally within 36 hr.
Miles. The term "miles" used in this plan refers to nautical
miles (nmi) unless otherwise indicated.
Mission Identifier. The nomenclature assigned to tropical and
a ~subtropical cyclone aircraft reconnaissance missions for
weather data identification. Its an agency-aircraft indicator
a ~followed by a Chief, Aerial Reconnaissance Coordinator, All
Hurricanes (CARCAH) assigned mission-system indicator.
Present Movement. The best estimate of the movement of the
center of a tropical cyclone at a given time and at a given
position. This estimate does not reflect the short-period,
small-scale oscillations of the cyclone center.
Reconnaissance Aircraft Sorties. A flight that meets the
requirements of the tropical cyclone plan of the day.
Relocated. A term used in an advisory to indicate that a
a ~vector drawn from the preceding advisory position to the
latest known position is not necessarily a resonable
representation of the cyclone's movement.
Storm Surge. An abnormal rise in sea level accompanying a
hurricane or other intense storm, and whose height is, the
difference between the observed level of the sea surface
and the level that would have occurred in the absence of
the cyclone. Storm surge is usually estimated by
subtracting the normal or astronomic tide from the observed
storm tide.
Storm Tide. The actual level of sea water resulting from the
astronomic tide combi-ned with the storm surge.
Subtropical Cyclone. A low pressure system that develops over
subtropical waters that initially has a non-tropical
circulation but in which some elements of tropical cyclone
cloud structure are present.
Subtropical Depression. A subtropical cyclone in which the
maximum sustained surface wind speed (1-min mean) is 33 kt
(38 mph) or less. i
B-2
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Subtropical' Storm. A subtropical cyclone in which the maximum
sustained surface wind speed (i-min mean) is 34 kt (39 mph)
or greater.
Synoptic Track. Weather reconnaissance mission flown to
provide vital meteorological information in data sparce
ocean areas as a supplement to existing surface, radar, and
satellite data. Synoptic flights better define the upper
atmosphere and aid in the prediction of tropical cyclone
development and movement.
Tropical Cyclone. A warm core, nonfrontal low pressure system
,of synoptic scale that develops over tropical or subtropical
waters and has a definite organized surface circulation.
Tropical Cyclone Plan of the Day. A coordinated mission plan
that tasks operational weather reconnaissance requirements
during the next 0500 to 0500 UTC day or as required,
describes reconnaissance flights committed to satisfy both
operational and research requirements, and identifies
possible reconnaissance requirements for the succeeding
24-hr period.
Tropical Depression. A tropical cyclone in which the maximum
sustained surface wind speed (1-min mean) is 33 kt (38 mph)
or less.
Tropical Disturbance. A discrete tropical weather system of
apparently organized convection--generally 100 to 300 mi in
diameter--originating in the tropics or subtropics, having a
nonfrontal migratory character, and maintaining its identity
for 24 hr or more. It may or may not be associated with a
detectable perturbation of the wind field.
Tropical Storm. A tropical cyclone in which the maximum
sustained surface wind speed (1-min mean) ranges from 34 kt
(39 mph) to 63 kt (73 mph).
Tropical Storm Warning. A warning for tropical storm
conditions including sustained winds within the range of 39
to 73 mph (34"to 63 kt) that are expected in a specified
coastal area within 24 hr or less.
Tropical Storm Watch.- An announcement that a tropical storm
poses-or tropical storm conditions pose a threat to coastal
areas generally within 36 hr. A tropical storm watch should
normally not be issued if the system is forecast to attain
hurricanesstrength.
B-3
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Tropical Wave. A trough or cyclonic curvature maximum in the
trade-wind easterlies. The wave may reach maximum amplitude
in the lower middle troposphere or may be the reflection of
an upper tropospheric cold low or equatorial extension of a
middle latitude trough.
Tropical Weather System. A designation for one of a series of
tropical weather anomalies. As such, it is the basic
generic designation, which in successive stages of
intensification, may be classified as a tropical
disturbance, wave, depression, storm, or hurricane.
Typhoon/Hurricane. A warm core tropical cyclone in which the
maximum sustained surface wind speed (1-mmn mean) is 64 kt
(74 mph) or more.
Vortex Fix. The location of the surface and/or flight level
center of a tropical or subtropical cyclone obtained by
reconnaissance aircraft penetration. See Center Fix, also.
Wall Cloud. An organized band of cumuliform clouds immediately
surrounding the center of a tropical cyclone. Wall cloud
and eye wall are used synonymously.
B-4
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APPENDIX C
BIBLIOGRAPHY OF OFFICIAL INTERAGENCY AGREEMENTS
The following references are pertinent to the agreed interagency
responsibilities designated in this plan:
* Memorandum of Understanding (MOU) between the Department
of the Air Force (DAF) and the National Oceanic and
Atmospheric Administration (NOAA), dated March 16, 1976.
The purpose of this MOU is to establish policies,
principles, and procedures under which the DAF will
provide aircraft weather reconnaissance to NOAA.
= Memorandum of Understanding between the Military Airlift
Command (MAC) and the Director of Operations, Logistics
and Emergency Planning (NOAA), dated October 12, 1976.
The purpose of this MOU is to establish procedures by
which NOAA will reimburse MAC and the Air Force Reserve
for airborne weather reconnaissance.
�
APPENDIX D
DISTRIBUTION
DEPARTMENT OF COMMERCE
Regional Office of Audits 1
DOC Budget Office 1
NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION
Director, Office of Public Affairs, NOAA 2
NOAA Library 4
Director, Office of NOAA Corps (NC) 1
Admin Office, Office of Aircraft Operations 20
Director, National Climate Program (CP) 1
NOAA Budget Officer, Office of Management and Budget 1
Asst Administrator for Ocean Svcs and Coastal Zone 1
Management (N)
Asst Administrator for Satellite and Information
Services (E) 1
Chief, Satellite Services Division (E/SP2) 1
Chief, Information Services Division, National 2
Climatic Data Center
Director, Office of Climate and Atmospheric Research
(R/.CAR) 1
Director, Program Development and Coordination Staff
(R/PDC) 1
Director, Environmental Research Laboratories 4
Director, AOML Hurricane Research Division (R/E/AO) 5
Asst Administrator for Weather (W) 1
Director, Office of Meteorology (W/OM) 1
Chief, International Activities Division (W/OM3) 1
Chief, Warning and Forecast Branch (W/OM11) 20
Chief, Aviation Services Branch (W/OM13) 1
Chief, Services Development Branch (W/OM23) 1
Director, Office of Hydrology (W/OH) 1
Director, National Meteorological Center (W/NMC) 5
Chief, Meteorological Operations Division (W/NMC3) 2
Chief, Development Division, NMC (W/NMC2) 1
WFSO, Washington 5
Director, National Data Buoy Center 23
Director, National Hurricane Center 20
Director, NWS Eastern Region 50
Director, NWS Central Region 16
D-1
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Director, NWS Southern Region 50
Director, NWS Western Region 15
Director, NWS Pacific Region 15
Chief, Library Div MASC 1
WFSO, Boston, MA 5
WFSO, San Jaun, PR 5
WFSO, Redwood City, CA 5
WFSO, New Orleans, LA 5
WFSO, Miami, FL 1
DEPARTMENT OF DEFENSE
DEPARTMENT OF THE AIR FORCE
HQ USAF/XOORF 2
HQ USAF/XOORZ 1
HQ USAF/REO 3
HQ USAF/PRPFM 1
HQ MAC/XPPT/XPQS/DOOS 3
HQ AFRES/DOOM 3
HQ 4AF/DOO 2
HQ 23 AF/DO/DOC/DOO 4
HQ 41 RWRW/DOO 2
53 WRS/DO 2
HQ 403 TAW/DO 2
815 TAS/DO 2
815 WOF/DOW 20
HQ AWS/CSE 70
OL-G, 7WW/CARCAH 20
Det 1, 7WW/CC 30
3350 TCHTG/TTMU 1
AFGL/LY 1
DEPARTMENT OF THE ARMY
Hq Department of the Army/DAMI-IS 2
DEPARTMENT OF THE NAVY
Commandant of the Marine Corps (DCS/Aviation) 7
Oceanographer of the Navy 2
Commander, Naval Oceanography Command 100
Commander in Chief (02M) U.S. Pacific Fleet 1
USCINCPAC (J37) 1
Commanding Officer, NAVOCENACOMCEN/JTWC Guam 3
Commanding Officer, NAVOCENCOMFAC, San Diego 1
COMTHIRDFLT 1
CINCLANTFLT/OAC 1
Commander, Naval Air Systems Command 2
COMFITMATAEWWINGLANT, Oceana NAS, VA 1
Commanding Officer, NAVEASTOCEANCEN, Norfolk, VA 5
D-2
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Commanding Officer, NAVOCEANCOMFAC, Jacksonville 2
Commanding Officer, NAVWESTOCEANCEN, Pearl Harbor, HI 5
Officer in Charge, NAVOCEANCOMDET, Barbers Pt, HI 1
Officer in Charge, NAVOCEANCOMDET, FPO Miami, FL 1
Commanding Officer, NAVOCEANCOMFAC, FPO New York, NY 1
OFFICE OF THE JOINT CHIEFS OF STAFF
OJCS/J3/ESD 6
DEPARTMENT OF TRANSPORTATION
FEDERAL AVIATION ADMINISTRATION
Air Traffic Operations Service ATO-1 (ATO 100) 40
Air Traffic Requirements Service ATR-1 40
FAA-AIA 101 3
FAA AMC 100 3
Miami AIFSS (QAS) 2
FAA ATO 120, NWS 5
Each FAA Air Route Traffic Control Centers (TMO/NWS/MLS) 3
U.S. COAST GUARD
Commandant, USCG Headquarters (G-OIO) 3
Commandant, USCG (FLAGPLOT) 1
Commander, Atlantic Area, USCG 2
Commander, First Coast Guard District 1
Commander, (OPC) Third Coast Guard District 2
Commander, Fifth Coast Guard District 2
Commander, (RE) Seventh Coast Guard District 3
Commander, Eighth Coast Guard District 3
Commanding Officer, Otis AFB, MA 1
Commanding Officer, USCG Air Station, Clearwater, FL 1
Commanding Officer, USCG Air Station, Opa Locka , FL 1
Commanding Officer, USCG Air Station, Corpus Christi, TX 1
Commanding Officer, USCG Air Station, Floyd Bennett 1
Field, Brooklyn, NY
Commanding Officer, USCG Air Station, New Orleans, LA 1
Commanding Officer, USCG Air Station, Elizabeth City, NJ 1
Commander, Pacific Area, USCG 2
Commander, Eleventh Coast Guard District 1
Commander, Twelfth Coast Guard District 1
Commander, Fourteeth Coast Guard District 1
Commanding Officer, USCG Air Station, McClellan AFB, CA 1
Commanding Officer, USCG Air Station, Barbers Point, HI 1
Commanding Officer, USCG Air Station, Kodiak, AK 1
Commanding Officer, USCG Reserve Training Center 1
D-3
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DEPARTMENT OF AGRICULTURE
World Agriculture Outlook Board
DEPARTMENT OF INTERIOR
Chief, Science and Technology Staff
Bureau of Reclamation, Office of Liaison
Engineering and Research
DEPARTMENT OF STATE
Office of Advanced Technology
NATIONAL SCIENCE FOUNDATION
Director, Meteorology Program
Director, Division of Atmospheric Science
NATIONAL SPACE AND AERONAUTICS ADMINISTRATION
Director, Atmospheric Sciences Division, MSFC
OTHER U.S.
Roddenbery Memorial Library, Cairo, GA
Congressional Research Service, Library of Congress
CWP Project Office, JPL
University of Chicago Library, The Joseph
Regenstein Library
South Florida Water Management District
Natural Hazards Research and Applications Information
Center, Institute of Behavioral Science
Dr. William Gray, Department of Atmospheric
Sciences, Colorado State University
Mr. Jerry Hill, CCM
GOVERNMENT OF CANADA
Director, Canadian Meteorological Centre, (AES)
Downsview, ON
Meteorolical Operations Division, Canadian
Meteorological Centre, (AES)
Dorval, QU
Officer in Charge, METOC Centre, Maritime Command
Headquarters, Halifax, NS
Base Meteorological Officer, CFB Greenwood, NS
Base Meteorological Officer, CFB Summerside, PEI
Maritime Weather Centre (AES), Bedford NS
D-4
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UNITED KINGDOM
Assistant Director, Head of Defence Services,
Meteorological Office
�
APPENDIX E
SAFFIR-SIMPSON HURRICANE SCALE1
CATEGORY ONE HURRICANE--WEAK
Winds2: 75-95 mph (65-82 kt) at standard anemometer
elevations. F-scale is 1.0-1.4. Damage is primarily to
shubbery, trees, foliage, and unanchored mobile homes. No
real damage occurs to building structures. Some damage is
done to poorly constructed signs.
Storm Surge: Nominally is 4-5 ft (1.2-1.5 m) above
normal. Low-lying coastal roads are inundated, minor pier
damage occurs, some small craft in exposed anchorages break
moorings.
CATEOGORY TWO HURRICANE--MODERATE
Winds: 96-110 mph (83-95 kt) at standard anemometer
elevations. F-scale is 1.5-1.9. Considerable damage is done
to shrubbery and tree foliage, some trees are blown down.
Major structural damage occurs to exposed mobile homes.
Extensive damage occurs to poorly constructed signs. Some
damage is done to roofing material, windows, and doors; no
major damage occurs to building structures.
Storm Surge: Nominally is 6-8 ft (1.8-2.4 m) above
normal. Coastal roads and low-lying escape routes inland are
cut by rising water 2-4 hr before arrival of center.
Considerable pier damage occurs, marinas are flooded. Small
craft in unprotected anchorages break moorings. Evacuation
of some shoreline residences and low-lying island areas is
required.
CATEGORY THREE HURRICANE--STRONG
Winds: 111-130 mph (96-113 kt) at standard anemometer
elevations. F-scale is 2.0-2.4. Damage occurs to shrubbery
and trees: foliage is blown off trees, large trees are blown
down. Practically all poorly constructed signs are blown
down, some roofing material damage occurs, some window and
door damage occurs, and some structural damage occurs to
E-1
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small residences and utility buildings. Mobile homes are
destroyed. There is a minor amount of curtainwall failure.
Storm Surge: Nominally is 9-12 ft (2.7-3.7 m) above
normal. Serious flooding occurs at the coast with many
smaller structures near the coast destroyed. Larger
structures are damaged by battering of floating debris.
Low-lying escape routes inland are cut by rising water 3-5 hr
before the center arrives. Terrain continuously lower than 5
ft (1.5 m) above sea level may be flooded inland 8 mi (12.9 km)
or more. Evacuation of low-lying residences within several
blocks of the shoreline may be required.
CATEGORY FOUR HURRICANE--VERY STRONG
Winds: 131-155 mph (114-135 kt) at standard anemometer
elevations. F-scale is 2.5-2.9. Shrubs and trees are blown
down, all signs are down. Extensive roofing'material damage
occurs, extensive window and door damage occurs, complete
failure of roof structures occurs on many small residences,
and complete destruction of mobile homes occurs. Some
curtainwalls experience failure.
Storm Surge: Nominally is 13-18 ft (3.9-5.5 m) above
normal. Terrain continuously lower than 10 ft (3 m) above
sea level may be flooded inland as far as 6 mi (9.7 km).
Major damage occurs to lower floors of structures near the
shore due to flooding and battering action. Low-lying escape
routes inland may be cut by rising water 3-5 hr before
the storm center arrives. Major erosion of beach areas
occurs. Massive evacuation of all residences within 500 yds
(457 m) of the shoreline may be required and of single-story
residences on low ground within 2 mi (3.2 km) of the
shoreline.
CATEGORY FIVE HURRICANE--DEVASTATING
Winds: Greater than 155 mph (135 kt) at standard
anemometer elevation. F-scale is 3.0 or greater. Shrubs and
trees are down, roofing damage is considerable, all signs are
down. Very severe and extensive window and door damage
occurs. Complete failure of roof structures occurs on many
residences and industrial buildings. Extensive glass
failures occur, some complete buildings fail, small buildings
are overturned and blown over or away, and complete
destruction of mobile homes occurs.
Storm Surge: Height is nominally greater than 18 ft
(5.5 m) above normal. Major damage occurs to lower floors of
all structures located less than 15 ft (4.6 m) above sea
level and within 500 yd (457 m) of the shoreline. Low-lying
E-2
�
escape routes inland are cut by rising water 3-5 hr before
the storm center arrives.
Massive evacuations of residential areas situated on low
ground within 5-10 mi (8-16 km) of the shoreline may be
required.
T The Saffir-Simpson Hurricane (SSH) Scale does not apply to
the Pacific Islands.
2
Definition of a sustained wind (from Fujita and Simpson,
1972). A sustained wind is one that persists for the
minimum time period to establish optimal dynamic forces on
a nominal building structure.
T. Fujita, 1971: "Proposed Characteristics of Tornadoes
and Hurricanes by Area and Intensity," University of
Chicago (SMRP) Research Paper No. 91.
E-3
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APPENDIX F
PHONETIC PRONUNCIATION LISTING
CARIBBEAN BASIN
Ab a co AB-a-ko
Anguill1a ang-GW IL-a
Antigua an-TEE-gua
Ar'ub a ah-ROO-ba
Antilles an-TIL-l eez
Azores uh-ZOHRZ
Bahamas ba-HAHM-ahs
Barbuda bar-BOO-dah
Barranquilla bahr-rahn-KEE-yah
Ba rahona ba- ra -HO-na
Basse-Terre bahs-TER
. ~~Bermuda ber-MYOO-da
Bil oxi bi -LUX-ee
Bimini BIM-i-ni
Bonai re ba-NAIR
Cap Haitien kahp ah-ee-SYAN
Ca racas kah-RAH-kahs
Caribbean ka r-a-BE-an
Castri es KAS-t rees
Cayman kay-MAHN
Charlotte Amalie SHAR-lot a-MAHL-ye
Co zumel koh-soo-MEL
Curacao koor-a-SOH
Domini ca dom-i-NEE-ka
Eleuthera el-00-thera.
Exuma ek-SOO-ma
Fl ores F LO0- ri s h
Fort de France for-de-FRAHNS
Grenada gre-NAY-dah
Guadal oupe GWAH-deh-l oop
Guatemal a gwaht-eh-MAH-l a
Leeward LEE-ward
Maiacaibo mar-a-KYE-boh
Ma racay Mah-rah-KYE
Marigot ma- ree-GOH
Merida MAY-re-thah
. ~~Miami mye-AM-ee
F-i
�
Montego mon-TEE-go
Montserrat mont-se-RAT
Nicaragua nik-a-RAH-gwah
Ocho Rios OH-cho REE-os
Oranjestad o-RAHN-yuh-stat
Paramaribo par-a-MAR-i-boh
Parguera par-GWER-a
Pointe-a-Pitre pwan-ta-PEE-tr
Ponce PON-sa
Port-au-Prince port-oh-PRINS
Saba SAH-ba
Sao Miguel (Azores) soun ME-gel
St. Croix SAINT croy
St. Lucia SAINT LOO-she-a
Soufriere soo-free-AR
Surinam SOOR-i-nam
Tampico tam-PEE-ko
Tela TAY-lah
Tobago to-BAY-go
Yucatan yoo-ka-TAN
F-2
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APPENDIX G
RECCO, MINOB, AND TEMP DROP CODES, TABLES
AND REGULATIONS
G-1
�
DATE OR~~~~~~~~~~~~MGANIZATIDN MISSION IDENTIFIER TYPE AIRCRAFT CALL SIGN
~~~ S 9 0 ~~~~~~~~ Time WEEK JLO 114 "dXSUE DIRECTION F T1IMP- imINDCATORcv INDICATOR C TYPE C TYPE C TYPE
mac sINmATt L* . ::N:7TQF:-AUE INEF ~ RO ALTITUDE CATU FLGT KRTR .6.O1 ~ I , 311
AD T_ _ _ _ T
A P r, TO NEAREST aGo-
~~~ 1 OSSERVA- ~~~~~~~~~~~~~~~~TEN THS DEC AMETER WIND 2 DW HPOTENTIAL AMOUNT BASF SAsE BASIC
I TION S ~ ~~~~~~~~L Lo (NoI*4) Ia I r N M I a 3 OF ' T .6t. 12 5 T-bf. 12 � .hI. 12
J, 0 - lmooo.. - LATITUDE SPEED - 'M POINV AEGNT
M Da ant. EGEs TUR- TYPE or 0TAU COD
x L AND 2.5.4, 2.5* IFLIGHW H O L E 0NO, ALTITUDE PI ALTITUDE H *LTITUDE
_______~ ~ : N aw FI A (NWaleS) SLP PER S t I
FL OFS LEVEL PRESENT -INDEX - OF _ F - O
IdrNC L -: L ANN. e W ETE (N-t- 9) M, TOP TOP Too
C~ ~~~~~~~~~~~~~~~~ ~~~~~~~~ ~ ~~~~~~~~~OD *'I( 2.1? (IIet)H I* M 0 Toe1 H
I ~ ~~~~~~~~rw Tolo. OC*# i.15.6 ) oxaft Thh 1,61 T12bl*e 12 I76-1 ITbl. 1t
~~~ R 1 ~~~~~~~~~2 3456 7 S910 I 1 12
M~ H MARKS
CD
CD
CD ~~~~~~ ~~~~~~ ~~~~~~~CLOUD CLOUD CLOUD INDICA- INDICATORI
I INDICATOR C ~TYPEC C TYPE C TYPE 4 ToR 6 INDICATOm INI oCATOR 7 INDICATOF 7 INDICATOR I INDICATOR 9INDICATOR
rm*1 11 T.1,1. 11 Tabi. if I (Imts, 11) (NOt* 11)
NROF~~~~~~~~~~~~~~~~~~~~~~~~~~~5 SGNIFIC- SIGNIFIC- RATE OF ECHO WIDTI- INFLIGHT R
0.. ~~~~~~ ~~~~~~~CLOUD ALTITUDE ALTITUDE ALTITUDE " "DI'D W% ANY RICA WS A14T WEA g CN 1 ALT OF SAIG O IM VSBLT
[rifot. ) or orF am or TION O SS As -w. 14 TWA. 17 BASF Or OF TabS. M9
SF IDDISTANCE DISTANCE I C N CO LENGTH OF
1.0 N ~~~~~~~ ~~~~ ~~AMOUNT B SAIC ASAG BASK SF ID or OCCUR OF OCCUR. ITYPE or STRATUM II CENTER E A, AXST E A
OS PENCEC OF RC F I I I G h ,I-AI
JOB rb. 12' " r.61.J12 S ri. I12 Z s 2511 BECOF CN 1 ma. Wr (T..s .n. W '. 2.i. IS .5. .8 2.11 o..T~) T. 19 SFACE
DISTANT DIATANT DISTANCE DITACE CHBAT. TRE S
CLOUDS ALTITUDE M ALTYITUDE ALTITUDE f "URFC Si WEATHE wv ATE SbI FIC 44 am
SpINo Tbf t n 2.bl. 16 ING 7.65105 OF TOP OP ICN Co WDErEE
or or orF - SPEED Tbis a19 T.61- 2; ERE
(N~~~~t.,) TOP TOP TOP ~~~~~~~~~~(I~t ) SOMGARING 4 BEARWING DISANC RORENT7A- IT N
~~~~~~~~~~~OFTOp EDN STRATU TIOP SOF OFN ECO T ICINGH
C~~~~~~~~~~et~~~~~~~F w0 or d OFRTU F S CNTNorICON Hi is) ELLIPSE
7.51.0 10 57.11. 12H H,912 I251 Am II!: r~l T~lo 5 2.12 Tb.2 Tbf. 22
13 14 15 16 17 16 ~~~~~~~~~~~~~~~~~~~~~~~~~~~19 20 11 22 23 24
-rII
�
Table G-1. Reconnaissance code tables.
TABLE 1I XXX TABLE 6 dt TABLE 11 C
222 Sec One Observation without radar 0 Spot Wind 0 Cirrus (Ci)
capability 1 Average Wind 1 Cirrocumu'lus(Cc)
555 Sec Three (Intermediate) observation / No wind reported 2 Cirrostratus (Cs)
with or without radar capability 3 Altocumulus (Ac)
777 Sec One Observation with radar TABLE 7 da 4 Altostratus (As)
capability 5 Nimbostratus (Ns)
0 Winds obtained using doppler radar or 6 Stratocumulus (Sc)
TABLE 2 id inertial systems 7 Stratus (St)
1 Winds obtained using other navigation 8 Cumulus (Cu)
0 No dew point capability/acft below equipment and/or techniques 9 Cumulonimbus (Cb)
10,000 meters / Navigator unable to determine wind or / Cloud type unknown due
1 No dew point capability/acft at or above wind not compatible to darkness or other
10,000 meters analogous phenomena
2 No dew point capability/acft below TABLE 8 w
10,000 meters and flight Ivl temp -50�C TABLE 12 hshsHtHthihiHiHi
or colder 0 Clear
3 No dew point capability/acft at or above 1 Scattered (trace to 4/8 cloud coverage) 00 Less than 100
10,000 meters and flight Ivl temp -500C 2 Broken (5/8 to 7/8 cloud coverage) 01 100 ft
'or colder 3 Overcast/undercost 02 200 ft
4 Dew point capability/acft below 10,000 4 Fog, thick dust or haze 03 300 ft
meters 5 Drizzle etc, etc
5 Dew point capability/acft at or above 6 Rain (continous or intermittent precip - 49 4,900 ft
10,000 meters from stratiform clouds) 50 5,000 ft
6 Dew point capability/ocft below 10 ,000 7 Snow or rain and snow mixed 51-_55 Not used
meters and flight Ivl temp -500C or 8 Shower(s) (continous or intermittent 56 6,000 ft
colder precip - from cumuliform clouds) 57 7,000 ft
7 Dew point capability/oacft at or above 9 Thunderstorm(s) etc, etc
10,000 meters and flight Ivl temp _500c / Unknown for any cause including dark 79 29,000ft
or colder ness 80 30,000 ft
81 35,000 ft
TABLE Q TABLE9 j 82 40.000 ft
0 09 -901 W Northern 0 Sea level pressure in whole millibars etc, etc
I o90o0 W- 10 W Northern (thousands tfig if any omitted) 89 Greater than 70000 ft
2 1800 9- 0 E Northern 1 Altitude 200 mb surface in geopotential // Unknown
3 900 - 00 E Northern TABLE 13 d
(thousands fig it any omitted)
4 Not Used 2 Altitude 850 mb surface in geopotential
5 0� - 900 W Southern meters (thousands fig omitted) 0 No report
6 900 -1800 W Southernrr 3 Altitude 700 mb surface in geopotential 1 NE 7 NW
71 8 Gr meters (thousand fig omitted) 2 E 8 N
7 1800 - 90 E Southern 4 Altitude 500 mb surface in geopotential 3 SE 9 all directions
8 900 - 00 E Southern decometers 4 S
5 Altitude 400 mb surface in geopotential 5 SW
TABLE 4 B decametets 6 H
6 Altitude 300 mb surface in geopotentiol
0 None decameters TABLE 14 Ws
1 Light turbulence 7 Altitude 250 mb surface in geopotential
2 Moderate turbulence in clear air, infre- decameters (thousands fig iMany omitted) 0 No change
quent 8 D - Value in geopotential decameters; 1 Marked wind shift
3 Moderate turbulence in clear air, frequent if negative 500 is added to HHH 2 Beginning or ending of marked
4 Moderate turbulence in cloud, infrequent 9 No absolute altitude available or geopop turbulence
5 Moderate turbulence in cloud, frequent tential data not within + 30 meters/4 mb 3 Marked temperature change (not with
6 Severe turbulence in clear air, infrequent accuracy requirements. altitude)
7 Severe turbulence in clear air, frequent TABLE 10 N 4 Precipitation begins or ends
8 Severe turbulence in cloud, infrequent 5 Chanoe in cloud forms
9 Severe turbulence in cloud frequent
9 Seoerae turbulence in cloud layers (place holder) 6Fog r icen fog bank begins or ends
TABL.E f5 1 okta or less, but not zero 8 Cold front
(1/8 or lose sky covered) 9 Front, type not specified
0 In the clear 3 3 oktas (or 3/8 sky covered) TABLE 15 SbS'SS
8 In and Out of clouds 4 4 oktas (or 4/1 of sky covered)
9 In clouds all the time (continous IMC) 5 5 oktas (or 5/e of sky covered)
/ Impossible t determine due to darkness 7 7 okts or ore bute not 8 akPrevious position
7 7oktas or kmyre cml not covetas
or other cause 8 8 oktas or sky completely covered 2 Present position
9 Sky obscured (place holder) 3 30 nautical miles
4 60 nautical miles
5 90 nautical miles
6 120 nautical miles
7 150 nautical miles
8 180nautical miles
9 More than 180 nautical miles
/ Unknown (not used for eS)
G-3
�
Table G-1. Reconnaissance code tables (continued).
TABLEIA wd TABLE 23 Vi
0 No report 1 Inflight visibility 0 to and including I nautical mile
I Signs of a trapical cyclone 2 Inflight visibility greater than I and not exceeding 3 nautical miles
2 Ugly threatening sky 3 Inflight visibility greater than 3 nautical miles
3 Duststorm or sandstorm
4 Fog or ice fog
5 Waterspout
6 Cirrostratus shield or bank
7 Altostratus or altocumulus shield or
bank
a Line of heAvy cumulus
9 Cumutoffimbus heads or thunderstorms
TABLE]i Ir RECCO SYMBOLIC FORM
7 Light SECTION ONE (MANDATORY)LOf .hld
8 Moderate 9XXX0 GGggi d YQLLLa LaLL~~hihdd
9 Severe ddfff TTTdTdw /iHHH
/ Unknown or contrails SECTION TWO (ADDITIONAL)
TABL.E,.1i It lkNN,N, Ch hHtHl. ...d...dlff
O None 6jsdw7[r't~b~e 7hiki HjHi dd1 SO
1 Rime ice in clouds 8EwESsCdi 9Vidr~rO.
2 Clear ice in clouds EEcI 9VTTT
3 Combination rime and clear ice in clouds
4 Rime ice in precipitation SECTION THREE (INTERMEDIATE)
5 Clear ice in precipitation
6 Combination rime and clear ice in precip 9XXX9 GGggid YQLaLOLa LLoL.e3f, haiahadtd
7 Frost (icing in clear air) ddfff TTTdTdw /iHHH
8 Nonpersistent contrails ,'1ess then 1/4
nautical miles long)
9 Persistent contrails
TABLE 19 SrEwEi
o ONM 5 50NM
I IONM 6 60-8ONM
2 20NM 7 B0-100NSM
3 30NM a 100-15ONM
4 40NM 9 Greater than 10NMM
/Unknown
TABLE 20 O,
o Circular
I NNE - SSW
2 NE - SW
3 ENE - WSW
4 E- W
5 ESE - WNW
6 SE - NW
7 SSE - NNW
85s- N
/Unknown
TABLE 21 ce
1 Scattered Area
12 Solid Area
3 Scattered Line
4 Solid Line
5 Scattered, all quadrants
6 Solid, all quadrants
/Unknown
TABLE 22 'e
2 Weak
5 Moderate
8 Strong
/Unknown
G-4
�
Table G-2. Reconnaissance code regulations.
1. At the time of the observation the aircraft 8. When i is reported as a 9, HHH is
observing platform is considered to be located encoded as
on the axis of a right vertical cylinder with
a radius of 30 nautical miles bounded by the
earth's surface and the top of the atmosphere. 9. If the number of cloud layers reported
Present weather, cloud amount and type, tur- exceeds 3, k in the first 1-group reports
bulence, and other subjective elements are the total number of cloud layers. The sec-
reported as occuring within the cylinder. ond 1-group reports the additional number
Flight level winds, temperature, dew point, of layers being reported exclusive of those
and geopotential values ore sensed or computed previously reported. In those cases where
and reported as occuring at the center of the a cloud layer(s) is discernible, but a descrip-
observation circle. Radar echoes, significant tive cloud picture of the observation circle is
weather changes, distant weather, and icing not posible, use appropriate remarks such as
are phenomena that may also be observed/ "clouds bl o" or As blo" to indicate the
reported. Code groups identifying these presence of Icouds. In such cases, coded
phenomena may be reported as necessary to entries are not made for group 9. The sequence
adequately describe met conditions observed. in which cloud amounts are encoded depends
upon type of cloud, cloud base, and vertical
2. The intermediate observation (Section Three) extent of the cloud. The cloud with the
is reported following Section One (or Section largest numerical value of cloud type code (C)
Two if appended to Section One) in the order is reported first, regardless of coveraqe, base,
that it was taken. or vertical extent. Among clouds of the same
cloud type code sharing a common base, the
cloud of greatest vertical extent is reported
3. Plain language remarks may be added as first. The summation principle is not used;
appropriate. These remarks follow the lost each layer is treated as though no other
encoded portion of the horizontal or vertical clouds were present. The total amount of
observation and will clearly convey the in- clouds through one altitude shared by several
tended message. Vertical observations will clouds will not exceed 8 oktas. Only use
not include meteorological remarks. These code figure 0 as a place holder when you
remarks must begin with a letter or word-
E.G. "FL TEMP" vice "700 MB FL TEMP". can determine that no additional cloud
The last report plain language remarks are layers exist. In case of undercast, over-
mandatory, i.e., "LAST REPORT. OBS cast, etc., use code figure 9 as a place-
01 thru 08 to RJTY, OBS 09 and 10 to RPMK". holder.
10. Due to limitations in the ability to
4. The hundreds digit of longitude is omit- distinguish sea state features representative
ted for longitudes from 1000 to 1800. of wind speeds above 130 knots, surface wind
speeds in excess of 130 knots will not be
encoded. Wind speeds of 100 to 130 knots
5. Describe conditions along the route of flight inclusive will be encoded by deleting the
actually experienced at flight level by aircraft. hundreds figure and adding 50 to dd. For
wind speeds above 130 knots, dd is reported
6. TT, TdTd. When encoding negative tempera- without adding 50 and ff is encoded as //
tures, 50 is added to the absolute value of the with a plain language remark added, I.E.,
temperature with the hundreds figure, if any, -sfc wind above 130 knots.
being omitted. A temperature of -520C is
given as 02, the distinction between -520C 11. Significant weather changes which have
and 2�C being made from id. Missing unknown occurred since the last observation along
temperatures are reported as //. When the the trackorepartedfarWs.
dew point is colder than -49.40C, Code TdTd
as //and report the actual value as a plain 12. When aircraft encounters icing in ievel
language remark - E.G. DEW POINT -52cC. flight, the height at which the icing_
occurred will be reported for hihi.� he
7. When two or more types of w co-exist, the .iHi will be reported as /.
type with the higher code figure will be re-
ported. Code Figure 1, 2 and 3 are reported
based on the total cloud amount through a
given altitude, above or below the aircraft,
and when other figures are inappropriate. The
summation principle applies only when two or
more cloud types share a given altitude.
G-5
�
URNT50 KBIX 132240
AF966 WX MINOB 17 KBIX
2220 05278 09031 05512 5072 305 088 171 323 040 05436 00000 00000
2221 05270 09031 05511 5085 310 033 169 323 038 05422 00000 00000
2222 05263 09027 05511 5080 306 035 169 333 037 05426 00000 00000
2223 05263 09027 05511 0149 309 035 147 349 038 05379 00000 00000
2224 05249 09020 04670 0620 294 019 109 389 026 05379 00000 00000
2225 05241 09017 04056 5107 228 005 091 417 009 05379 00000 00000
2226 05228 08997 03526 5107 136 005 063 425 006 05379 00000 00000
2227 05221 08995 02980 5107 119 006 021 405 007 05379 00000 00000
2228 05215 08993 02438 5021 095 012 014 327 017 02684 00000 00000
2229 05209 08991 02004 5024 084 017 032 007 018 01998 00000 00000
2230 05203 08990 01524 5076 081 011 002 000 017 01467 00000 00000
2231 05198 08988 01183 5058 029 008 029 031 009 01144 00000 00000
2232 05193 08986 01060 5056 034 010 058 021 011 01024 00000 00000
2233 05188 08985 01042 5038 027 011 850 188 013 01023 00000 00000
2234 05183 08982 00806 5020 035 013 850 182 014 00800 00000 00000
2235 05179 08980 00721 5024 038 010 850 176 012 00710 00000 00000
2236 05174 08978 00518 0014 059 010 104 006 011 00532 00000 00000
2237 05171 08974 00449 0017 058 010 005 019 011 00466 00000 00000
2238 05167 08971 00449 0015 028 008 007 019 010 00462 00000 00000
2239 05163 08971 00460 0018 028 006 009 019 007 00476 00000 00000
Figure G-2. Sample MINOB Message.
G-6
�
Table G-3. MINOB Message Format
HHMM LaLaLath LoLoLoth PPPPP DDDD WWW SSS TTT ddd MMM RRRRR FFFFF FFFFF
-RHMM: The time of observation in hours and minutes (UTC).
LaLaLath: The latitude of the observation in degrees, tenths,0
and hundredths. The latitude ranges from 0 to 180,
with 00000 signifying the North Pole, 18000 the South
Pole. For example, 20.25�N would be encoded as 06975.
LoLoLoth: The longitude of the observation in degrees, tenths,
and hundredths. The longitude value ranges from 0 to
359.99, with 00000 signifying the Greenwich Meridiag,
0900 signifying 90.00 W, and 27000 signifying 90.00 E.
PPPPP: The pressure altitude in meters.
ODDD: The absolute value of the D-value in meters (a 5
occupies the thousands place if the D-value is
negative. For example, -34 m is encoded as 5034.
WWW: The wind direction in degrees, with 0 being north,
increasing clockwise.
SSS: The wind speed in knots.
TTT: The air temperature in degrees and tenths Celsius.
The tenths digit is even for temperatures at or
above 0 C, odd for temperatures below 0 C.
ddd: The dew point temperature, encoded the same way as
air temperature.
MMM: The maximum wind speed in knots measured during the
minute. This is the peak wind speed averaged over a
10-sec period.
RRRRR: Radar altitude in meters
FFFFF: Default status for the MINOB data. A "0" indicates
the parameter is defaulted (suspect value) or based
on a parameter that is defaulted. A "1" indicates
the value is not defaulted. The fields (five digits
each) indicate default for (in order): latitude,
longitude, pressure altitude, D-value, wind direction,
wind speed, air temperature, dew point, maximum wind
speed, radar altimeter.
G-7
�
Table G-4. TEMP DROP code breakdown.0
CODE FORM:
PART A
SECTION I MiM1MjN, YYGG~d 99LsLaL% QcL*L*L9LG MMMULaULO
SECTION 2 99P.P.P. ToToTanflDoD dodofofof
PjP~h~h~hj TITITaIDIDI djdIfIfIfI
inP11hhnhnh TITnTmanDn~. dodufafaf.
SECTION 3 S8PtP&Pg TtTtTgtDtDt dtdgftftft
of
SECTION 4 77PmPm~m
or dzndzfmfinfm (4VbVbva Va)
66PEDPMPMB
or
77999
PART A
SECTION 1- IDENTIFICATION AND POSITION
MiM3. Identification letters .f the report -XX
MjMj. Identification letters of the paot of the report - AA0
YY- Day of the month (GMT1 01, 02 etc. When wind data are included
(Dropwindsod obsiuvatioo), 50 is added to YY-
GG- Actual timue of the observation, to the neares whole hour (GMn)
Id. Highest level for whic wind is available. 7700mbs, SisO- nabe, . "It fligt level is above a standard surface, for
ewnmple 495. report a 6 for 500MBs in the Id group. When so winds are reported in any padt of the amesage encode as "Ir
99-Indicator for aircraft Position
LaLaLa- Latitude, I atnths of a degree
QC. Quadrant of the gkobe The earth is divided by the Grenwich Meridian and the Equator into quadrants. Thn cd
figure ftported dePends on the latitude and longitude of the obseration position. a., 7- Kw, I-=NE, s-Sw, 5-SE.
LaLcl01.0L Loalritude, in tenths of a degree.
tMMM- Marsden squarm The number of the Marsden Square for aircraft positio at the time of the obsevatioa is reported
for MMM. Aways "ePort three digits for MMM. with tewos reprte lor the hundreds and tens digits when re-
quired. Whea an obseration is withi a depicted 10 degree square report the number of that w~squr When on
an even 10 degree latitude or longitude circle, the Marsden Square for MMM is obtained by moving in the direc-
tion of luare latitude andor longitude.
EXAMPLE.~ assuming a position of WN.IN 131.4W. MMM is 050 assumming a position of 30.ON, 140.OE. MMPA
is 130. At the equator or on the prime meridian, report the Mardc. square compatible with the QC reported.
UL&- Units digit in the reported latitude
UL0 Units digit is the reported longitude
G-8
�
Table G-4. TEMP DROP code breakdown (continued).
SEM~ON 2. $URFACE AND STANDARD ISODARtIC SURFACES
* W *indicator for surface
IPA,~ ftwress in whole maibrsm thousnds digits omnitted. (P0PP0 is always surfas" leve
PIPI, Pressure of mandsator Standard isobuuic sufaces in units o tens
- .f JMilibrs (1OO0mbsO. SSombsSS6. 700rnbs-70. etc.
Pupa
bh~hjhj Height of the mandatry. Pressure level in geopotential Metgrs at
- decame~tar above the Surface. Encoded is meters up to s01mb.; Encoed
habohn in decameters above 501mnbs. Add SW0 to hhh for negative l000mb heights. Report 1000mb groups as 00111 II///
when surface pressure is less than 950mb..
TQTo- Teas and units digit of Sir temperature (mgt rounded ofM in degrees
TITI Celsius. it specifled levels beginning -with jurface.
Tao Approximate tenth value and sign (pus of minus, of the air
* 'al temperature, Even = plus Odd = minus
DODO' Dewpoint dePresion (with respect to water at standard isobaric
DIDI Surfaces beginning with surface leve When the depressioa is 4.9C or
teaWS encode the units and tenths digits of the depression. Encode
D3DQ depressions of 5.0 through 5.4 as W. Encode depressions of 5.5 through 5.9 AS 54. Dewpoint. depressions of 6.0
and above ame encoded in tens and units with 50 added. Dewpoint depression. for reltive hum3iditWe less than
20% are encoded as SO. When air temperature is below -40*C report DDn as two soldi
. dodo, True diretion (rounded off to nearest 3 degress) in teas of degreea,
didi from which the wind is blowing. (Drowindsonde)
fofofo Wind Speed in knotw (Drpwindsoade
NOTF. When flight. level is just above amandatory surface (Dropwindsoade) anin the operator beut Meteorological
Judgement. the winds are represnta tive of the Winds at the mandatory surface, the the opertor MS), encode the axnd.
tory surface winds "mig the data from flight leveL If the winds are not representative, then mwcde 1/Ill.
NVAMTlfN :i- I)ATA FORl TICROMPAtJS* LEIO.lVK
6.lndicztor for tropopause data.
tP&Pt*r Pressure at the tropopause level reprtd ii Who" iniibar
T&Tt, Air -emperature in whoen degrees Celsus. "I the tropopause leveL
Tar* Approximate tenths value-and sigp Jplu3'or minus) of the air tempera-ture at the trooause leveL
DDt- Dewpoint depresaion at the tropopause lowe
dle Trel drc.n(one oft h ers degreesl, i tens of dereme fro= which the wind is blwing at the trpopeus
fiftfr Wind speed. in knota, at the tropoauselee
. 8899M- Tropopause data not available.
G-9
�
Table G-4. TEMP DROP code breakdown (continued).
SECTON 4- MAXIMUM WIND DATA
66Indicator that data for maximum wind level and for verticalwidserflo t.fthwndondgcoesnd
to doe highest wind speed observed throughout the decent) wn ha olwIh ftewn edn m M
77- Indicator that data for rnaximum wind Level and for vertical wind shear follow (maximum01 wind level dam aft coincide
Wmt the of th. mind sounding.
PznPmPw Pressure at maximum, wind level in whole millibars
dmdmrTrue wind direction (rounded off to nearest 5 degrees). in Lenm of degreea from which the maximum wind is blowing.
frafmim- Maximum wind speed in knot.
4- Indicator for vertical wind sheer data
vavg- Absolute value of vector difference between max wind and wind blowing 300 feet ABOVE the level of maximum
wind. Reported to the nearest knoL Use "ii" it missing and 4 group is reported. A vector difference of 99 knots
-or more U'reported with the code figure 99.
vbvb- Absolute value of vector differene between max wind and wind blowing 3000 fact BELOW the level of msaximnum
wind. Reported to the nearest knot. Use "iP" it missing and 4 group is teported. A vector difference of 99 knots
or more is reported with the code figure 99.
CODE FORM:
PART B
SECTION I MiM1iMiMj YYGGI 99L&LaLL QcLQLOLGLQ MMMULgULO
SECTION 5 nonPoPPOP TOTOTODoDo
onnlPIPIPI TITITaIDIDI
SECTION 6 23212 nonPOPOPO d0d4ff*f
mInIPIPIP2 d~d~f~f~ft
;CorP.?.~ d~~difoiaf
SECTION 9 51515 10166 10167 10190 10191
PART B
NFANUION I- II)ENTIFICATI(IN AND) IaOSITiON
MiMi- Identifiation letters of the part of the report - BB
1. Fidler figure for YYGG group
AU other groups arm the same as reported In Part A-Section I
SECTION 5- DATA FOR SIGNIFICANT TEMPERATURE AND RELATIVE HUMIDITY
LEVELS
UoWo NZmber O .14VOl, starting With surfac level. Only surface leve WMl
olon, be numbered as "DO.. When a mandatory level is also selcte as
- significant, repeat the level in sectioo 5. Encode significant levels
naoto indicate missing data as W1JI IIJJ
G- 10
�
Table G-4. TEMP DROP code breakdown (continued).
PGPOPO' Presure at 9Pec~dW levels in whole mnillibars beginning with
PIPIPI suface.
Tempeatur and humidity data groups Ane reported in the same manner as the tempeatir and humidity data In PART
A- Section 2.
SECTION S. DATA FOR SIGNIFICANT WIND LEVELS
21212. Data for significant levels with respect to wind bfoll. Wind data groups use reported in the same me&ner anthe
wind data in PART A-Section 2
SECTION 9- ADDITIONAL DATA GROUPS
161515 Additional data in regional code foWow.
10166- Geopotential data ame doubtful between the following levels, PjjP5 P`P5 This code figure is used only when ge-
opotential data are doubtful from a level to termination of the descent.
NCOTZ: Whom radar altimeter Isa inoperative and surface reference is used, or if the ARWO advises that geopoten-
tWa platform data is doubtfl a 10166 is reported for the ent~ire run.
. 10167- Temperature Data are doubtful between the following levelw- OPIPIP2P2
This code figure shal be reported when only temperature data are doubtful for a portion~s of the descent. If the
10167 group is reported a 10166 WMl also be reported.
EXAMPL'E: Temperature is missing from 540mb. to Sl10mbs. SLP is 1O2Ornbs. Ile code would be 10166 00251
10167 05481.
10190- Extrapolated altitude data follows:
(1) When the sounding begfis within 25 tabs below a standard surface, the height of the surface is reported in
the forat 10190 paPnhhubwb Mme temperature group in not, reported.
EXAMPLE: Assume the release was made faro 310 mnbs and the 300 mb height was 966 daeametera. The last
reporte standard level In Part A in the 400 mb lavel. The data for the S00 mb level is reported in Part B aa 10190
(2 When the sounding do". not reach surface, but terminate, within 25 mbs of a standard surface, the height
of the standard surface is reported in Part A of the code in standard formnat and in Part B of the code in
the format 10190 Papnhnhunh (aircaft referece).
EXAMPLE: Assume termination occurred at 980 mabs and the extrapolated height of the 1000 mb level was I115
meters. noe 1000 nib leve would be reported In Part A of the code as 00116 liii and in Part B as 10190 00115.
10191. Extrapolated surface pressure precedes. Extrapolated surface pressure is only reported when the termination oc-
cram breume 850 nibe and surface pressure is reported in Part A as 99POPOPO 1)I1) and Part B as 00POPOP0 11111.
When "uram pressure, is extrapolated. the 10191 group is the last additiontal data group reported in Part B.
G-11
�
APPENDIX H
TELEPHONE AND TELETYPE LISTING
AGENCY LOCATION TTY TELEPHONE
DEPARTMENT OF COMMERCE
Alternate NHC Washington, DC A C COM 301-763-8201
(NMC, Met Ops Div) FTS 763-8201
CPHC Honolulu, HI C COM 808-836-1831
FTS 546-2853
CPHC Satellite Honolulu, HI C COM 808-836-2776
Coordinator
NDBC NSTL, MS COM 601-688-2836
(Data Systems Div) FTS 494-2836
(See USCG entry) AV 485-4411
NESDIS SAB Camp Springs, MD A C COM 301-763-8444
301-763-8445
FTS 763-8444
763-8445
NHC Coral Gables, FL ABC COM 305-350-4460
FTS 350-4460
NHC Satellite Coral Gables, FL ABC COM 305-350-4460
Coordinator FTS 350-4460
NMC Meteorological Washington, DC A C COM 301-763-8201
Operations Division FTS 763-8201
NWS Warning and Forecast Washington, DC COM 301-427-8090
Branch (Headquarters) FTS 427-8090
OAO Miami, FL COM 305-526-2936
FTS 350-2936
AV 894-1600
H-1
�
AGENCY LOCATION TTY TELEPHONE
DEPARTMENT OF DEFENSE
AFGWC Offutt AFB, NE AB COM 402-291-2586
FTS 866-2586
AV 271-2586
CARCAH (OL-G, 7 WW) Coral Gables, FL ABC COM 305-666-4612
FTS 350-5547
AV 434-3420
CINCLANTFLT OAC Oceana, VA COM 804-433-2851
ext 233
AV 433-2851
ext 233
Det 1, 7 WW Keesler AFB, MS B COM 601-377-2544
(Alternate CARCAH) AV 868-2544
Det 4, 20 WS Hickam AFB, HI B COM 808-449-1634
(Weather Monitor) AV 315-449-1634
Det 4, 20 WS Hickam AFB, HI B COM 808-449-7638
(Hawaii ROCC/WE) 808-449-7637
AV 315-449-6262
Det 7, 24 WS Mather AFB, CA B COM 916-364-4377
(Weather Monitor) AV 674-4377
Det 8, 26 WS Griffiss AFB, NY B COM 315-330-2410
(Northeast Air Defense Sector/WE) AV 587-2410
Det 9, 3 WS Tyndall AFB, MS B COM 904-283-3215
(Southeast Air Defense Sector/WE) AV 523-3215
Keesler AFB Command Post Keesler AFB, MS COM 601-377-4330
AV 868-4330
NAVEASTOCEANCEN Norfolk, VA B COM 804-444-7750
804-444-3770
FTS 954-7750
954-3770
AV 564-7750
564-3770
NAVWESTOCEANCEN Pearl Harbor, HI B COM 808-741-0363
AV 315-430-0111 ,
ask for 471-0004
H-2
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AGENCY LOCATION TTY TELEPHONE
53 WRS/DO Keesler AFB, MS COM 601-377-4540
AV 868-4540
815 WOF/DO Keesler AFB, MS B COM 601-377-4318
868-4318
34 WF Keesler AFB, MS B COM 601-377-4318
868-4318
DEPARTMENT OF TRANSPORTATION
Headquarters, Traffic Washington, DC E COM 202-426-3636
Flow Management Branch FTS 267-3636
AV 851-1971
Houston ARTCC Houston, TX 0 COM 713-230-5560
FTS 527-5560
AV 729-1491
Miami ARTCC Miami, FL D COM 350-592-9753
FTS 820-1210
AV 894-1910
Kansas City ARTCC Olathe, KS FTS 753-1225
New York ARTCC Ronkonkoma, L.I., NY FTS 663-3490
Washington ARTCC Leesburg, VA FTS 925-4440
Chicago ARTCC Aurora, IL FTS 388-9203
Cleveland ARTCC Oberlin, OH FTS 292-8119
Indianapolis ARTCC Indi-anapolis, IN FTS 332-0222
Minneapolis ARTCC Farminton, MN FTS 784-3237
Boston ARTCC Nashua, NH FTS 834-6675
Denver ARTCC Longmont, CO FTS 323-4261
Salt Lake City ARTCC Salt Lake City, UT FTS 586-3128
Seattle ARTCC Auburn, WA FTS 390-5283
Atlanta ARTCC Hampton, GA FTS 249-3656
H-3
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AGENCY LOCATION TTY TELEPHONE
Jacksonville ARTCC Hilliard, FL FTS 965-1578
Memphis ARTCC Memphis, TN FTS 222-3181
Albuquerque ARTCC Albuquerque, NM FTS 476-0590
Ft. Worth ARTCC Euless, TX FTS 334-1520
Los Angeles ARTCC Palmdale, CA FTS 968-8250
Oakland ARTCC Freemont, CA FTS 449-6475
U.S. Coast Guard New Orleans, LA COM 504-589-6225
(for after hours FTS 682-6225
contact with NDBC)
INTERDEPARTMENTAL
OFCM Rockville, MD COM 301-770-3464
FTS 443-8704
AV 851-1460
A TG7073
B COMEDS
C AFOS
D AFTN
E TTY address is KCFCZDZX
H-4
* U.S. GOVERNMENT PRINTING OFFICE: 1989-2 2 4 2 - 2 0 2 / 0 5 0 1 3
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WORKING GROUP' FOR HURRICANE AND WINTER STORM OPERATIONS
MR STEPHEN W. HARNED, Chairman
Department of Commerce
National Weather Service
LTCOL THOMAS J. WITHERELL, USAF
Department of Defense
United States Ai r Force
MR. JOHN P. GIBBS, JR.
Department of Transportation
Federal Aviation Administration
DR. LISLE A. ROSE
Department of State
MR. EUGENE D. LEGG, JR.
Department of Commerce
National Environmental Satellite,
Data, and Information Service
CDR FREDERICK K. MARTIN, USN
Department of Defense
United States Navy
MR. GLENN HAMILTON
Department of Commerce
National Data Buoy Center
COL ROBERT E. BLACK, USAF, Secretary
Office of the Federal Coordinator
for Meteorological Services and
Supporting Research
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4,- I
3 6668 00002 9019
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