[From the U.S. Government Printing Office, www.gpo.gov]
1@M* A* Ro S* Ho
Marsh Awareness with Resources for Slough Habitats
TEACHER'S PACKET
second edition 1987
'ijuana River National Estuarine Research Reserve
Reprinted OV
Son Diego County
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WELCOME
Welcome to the Tijuana River National Estuarine Research Reserve.
Nostled between two of the fastest growing cities in the northern hemisphere,
the swamps of Imperial Reach have been largely overlooked by all but the
local citizens and several thousand bird watchers. No more! In 1979, the
U.S. Fish and Wildlife Service purchased the Oneonta Sloughs for a wildlife
refuge. In 1982, 2517 acres at the mouth of the Tijuana River, including the
Refuge, Border Field State Park and other properties of diverse ownership,
were declared a National Estuarine Research Reserve. This federal/state
mantle means money, people and protective laws to preserve the finest remain-
ina salt marsh in the Southern California region. These wetlands have been
especially set aside by the U.S. Congress'- as "field laboratories" for
research and education. The research provides guidance for wetland manage-
ment throughout the state and nation. The education program plans to bring
the wonders of this rich estuary and the excitement of the many research
programs to the public.
Many of you will he new to the study of wetlands and will be learning along
with your students. You will find it an adventure, albeit a muddy one.
There is much to he seen and understood and we hope in your excitement you
will not stop to worry about the names of things. These will come easily in
time; until then, this curriculum has hopefully provided you with the basics-
fundamental principles and adaptations-so that you will formulate questions,
hypothesize, Speculate. Always remember there is only one rule in the game
of speculation - don't fall in love with your answer.
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W SH TEACHER PACKET
TABLE OF CONTENTS
Page
Welcome ................................................................. I
Table of Contents ....................................................... 2-3
Acknowledgements ........................................................ 4
ADMINISTRATION - Buff
Map .................................................................. 5
Rules ................................................................ 6
Checklist and Suggested References ................................... 7
PRE-TRIP ACTIVITIES - Green
Introduction ........................................................... 8-9
Basic Concepts of Ecology .............................................. 9-10
What is an Ecosystem? .................................................. 11-12
Build an Ecosystem ..................................................... 13-14
The Water Cycle ........................................................ 15-16
.0ecomposers ............................................................ 17
Coastal Wetlands Habitat ............................................... 18-20
A Rich Environment ..................................................... 21-22
Marsh Habitats ......................................................... 23-24
Life of the Mtjdflats ................................................... 25-27
Plants of the Salt Marsh ............................................... 28-3o
Fresh Water Marsh ...................................................... 31-33
The Food Wet) ........................................................... 34-36
Bird Beaks and Feet .................................................... 37-39
Pollution in the Wetlands .............................................. 40-41
7()nes of the Coastal Wetland ........................................... 42-44
Wetland Plants ......................................................... 45
Scientific Names ....................................................... 46
TRIP ACTIVITIES - Blue
Wetland Sort and Fill-in ............................................... 47-50
Wetland Scavenger Hunt .................................................. 51
POST-TRIP ACTIVITIES - Yellow
Vocabulary .............................................................. 52
Wetlands Crossword ...................................................... 53
Wetlands Round-Up ....................................................... 54
APPENDICES - White
Salt Marsh Birds ....................................................... 55-60
Shore Birds ............................................................ 61
Bird Key ............................................................... 62-63
Plants ................................................................. 64-66a
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STUDENT WORK SHEETS - White
The Water Cycle ......................................................... S-16
Coastal Wetlands Habitat ................................................ S-20
A Rich Envi@onment ...................................................... S-221
Marsh Habitats .......................................................... S-24
Life of the Mudflats .................................................. S-26-27
Plants of the Salt Marsh .............................................. 5-29-30
Fresh Water Marsh ..................................................... S-32-33
The Food Web ........................................................... S-36
Bird Beaks and Feet ................................................... S-37-39
Pollution in the Wetlands .............................................. S-41
7ones of the Coastal Wetland .......................................... S-43-44
Wptland Plants ......................................................... S-45
Scientific Names ....................................................... S-46
Wetland Sort .......................................................... S-48-50
Wetland Scavenqer Hunt ................................................. S-51
Vocabulary ............................................................. S-52
Wetlands Crossword ..................................................... S-53
Wetlands Round-Up ...................................................... S-54
Salt Marsh Birds ...................................................... S-55-60
Shore Birds ............................................................ S-61
Bird Key .............................................................. S-62-63
Plants ................................................................ S-64-66
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ACKNOWLEDGEMENTS
In 1986, South Bay Union School District, with cooperation from the Tijuana
River National Estuarine Research Reserve Staff, applied for and was awarded
a California Environmental Education Grant to develop curriculum which
includes field studies--M.A.R.S.H. In 1987, another C.E.E.G. grant was
awarded to the Reserve through its' non-profit cooperative organization
Southwest Wetlands Interpretive Association.
Each of the Southern California coastal wetlands are unique, but all operate
under the same principles and share many of the same physical features.
Consequently, we decided to build around a program developed by Fullerton
College for Newport Back Bay. This excellent educational packet was also
funded through a C.E.E.G. We are indebted to all those who worked on that
fine program and hope they are pleased with our small changes. These few
changes tailor the package to the Tijuana River Estuary but at no point
change the general nature of the information. Teachers can feel secure in
using this material wherever mudflats and salt marshes remain to grace the
continental edge of Southern California.
FULLERTON COLLEGE EDUCATIONAL PACKET
Editor/Project Director .................................. Chuck Schneebeck
Educational Specialist ................................... Mare Stephens
Technical Resource ....................................... Pat Flanagan
....................................... Dave Bradstrome
Artists .................................................. Mary Allen
.................................................. Jean Keast
SOUTH BAY UNION SCHOOL DISTRICT - MARSH 1986
South Bay Union School District .......................... Susan Ferrell-Pettit
Tijuana River National Estuarine Research Reseeve ........ Pat Flanagan
Artist ................................................... Jan Kadlecik
Administrative Secretary ................................. Ramona Farley
TIJUANA RIVER N.E.R.R. - MARSH 1987
Education Coordinator .................................... Pat Flanagan
Technical Resource ....................................... Teresa Thomas
Artist ................................................... Joann L. Woodring
Special thanks are also due to Lars Helgeson, Science Coordinator, San Diego
County Office of Education, Paul Jorgensen, Reserve Manager, Ed Navarro,
California State Parks and Recreation, and Gary Kramer, U.S. Fish and Wild-
life Service.
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THE RULES
HOW WOULD YOU RUN A RESERVE?
..... All animals, plants and physical features are protected and may not
be removed or damaged.
..... Dogs are allowed only on the beach and must be on a leash.
YOU MAY FISH FROM THE BEACH, BUT ....
..... Fishing, clamming, shrimping, and related activities are prohibited
in all other areas.
THE SALT MARSH IS EASILY DAMAGED BY TRAFFIC. TRACKS MAY LAST YEARS.
Hike only on designated trails and along the beach.
..... Bicycles are not permitted on the trails and must stay on designated
roads.
..... All vehicles must stay on desiqnated roads.
..... Horses must remain on signed equestrian trails. Stay off the dunes!!
PLEASE RESPECT SPECIAL AREA CLOSURE SIGNS
..... The Californi@ Least Tern nesting sites (summer), and Sand Dune
restoration areas (year-round).
IT WILL NOT SURPRISE YOU THAT ...
..... No weapons or fireworks are permitted anywhere in the Reserve.
..... No littering or dumping. Instead, feel feel to pick up as, much
litter as you like!
The T.R.N.E.R. includes Border Field State Park and Tijuana Sloughs National
Wildlife Refuge. The Reserve is operated by the California Department of
Parks and Recreation and the U.S. Fish and Wildlife Service.
For information or to report a problem, call 435-5184/428-3034
To reauest educational information, call 237-6766
PLEASE READ THE RULES TO YOUR STUDENTS BEFORE THE TRIP TO THE RESERVE.
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CHECKLIST
A trip to the Estuary is-always an adventure. To make sure the adventures
are pleasurable remind the students to:
1. Wear old clothes, especially shoes.
2. Bring binoculars, if possible.
3. Bring a camera to record the day.
There are no restrooms or drinking fountains on the reserve. There are rest-
rooms and drinking fountains at Sports Park between 4th and 5th Street on
Imperial Beach Boulevard.
You may enter the reserve at any time. The time to see the greatest number
of birds is during low tide, when the mudflats are exposed for feeding. The
salt marsh birds probe the mud for food. Ducks, herons, and egrets feed
where the water is deeper.
It is a good idea to check a tide table for the day of your trip. Tide
tables for the year can be purchased for 154 at fishing tackle stores. The
library will have tide information published by the National Oceanic and
Atmospheric Administration. The newspaper will have the day's tidal range on
the weather page.
There is an hour lag between the stated tide time and when the effects are
fully noticeable in the marsh. For instance, the tide charts says there will
be a high tide of 5.4 feet at 9:06 a.m. It will be 10:00 a.m. before the
tide is fully into the ponds and the northern ends of the sloughs (tidal
channels that look like streams, but are full of ocean water.) Conversely,
the tides will drain from the sloughs an hour later than the recorded low
tide time.
SUGGESTED REFERENCES
Common Wetland Plants of Coastal California, Phyllis Faber
Salt Marsh Vuetation, Examples from the Tijuana Estuary, Dr. Joy Zedler.
Te-a-Tr-ant Publication, L-LSGCP-UU3
The Ecologx of Southern California Coastal Salt Marshes: A Community Profile,
Dr. Joy Ledler. Fish and Wildlife Service/OBS-81/54, March 198Z
The EcoloqX of Tijuana Estua!2: An Estuarine Profile, Dr. Joy Zedler and
Fris Nordy. Fish and Wrldlife Service/Rep. 85 (7.5). June 1986.
Field Guide to the Birds of North America, National Geographic Society
Seashore Plants of California, Dawson and Foster. University of California
Tress
Seashore Life of Southern California, Sam Hinton. University of California
7r-ess
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ENVIRONMENTAL EDUCATION PACKET
THE COASTAL WETLANDS OF SOUTHERN CALIFORNIA
INTRODUCTION
The coastal wetlands of Southern California are among the most endangered
habitat types in the United States today. Coastal wetlands are the marshes
and mudflats found near the ocean. Often they are influenced by tidal
action. A rich habitat, the wetlands function as a nursery for many fish of
sport and commercial value and as a winter home for millions of birds.
In Southern California over ninety percent of the coastal wetlands have been
lost to such uses as dredging, filling, development of marinas, power plants,
and a variety of other uses. Coastal wetlands in Southern California may
cease to exist unless the public can be informed about the wetlands role in
nature and their long term economic value.
The materials in this packet are based upon the premise that environmental
education is most effective when it is taught from an ecological perspec-
tive. Although ecological systems are enormously complex, an attempt has
been made to develop an outline of basic concepts and generalizations. You
may find it helpful to refer to this outline from time to time as you prepare
for and teach the following lessons. By using the wetlands as an example of
a functioninq ecological system, students can learn ecological concepts and
gain an understanding of these special needs.
BASIC CONCEPTS OF ECOLOGY
A. MATTER Amn ENERGY LAWS
1. Law of Conservation of Matter: Everything must go somewhere. There
can be no such thing as a throwaway society. All matter must go
somewhere. (Matter is neither created nor destroyed, but merely
changed from one form to another.)
2. First Law of Energy: You can't get something for nothing. (Energy
is neither created nor destroyed, but merely changed from one form to
another.)
3. Second Law of Energy: You can't break even. Energy cannot be
recycled. (No transfer or transformation. of energy is one hundred
percent efficient.)
Sum,ary:
Matter is recycled in an ecosystem but as energy flows through the
ecosystem it is degraded in quality and cannot be reused. Unlike
social law, these laws of nature cannot be broken. A summary "law"
might thus be stated-, You Can't Stop Playing the Game. In other
words, we automatically function all the time within the laws of
nature.
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B. ECOSYSTEM STRUCTURE
1. Ecosystem: Self-sustaining and self-regulating community of organisms
interacting with one another and with their non-living environment.
The ecosystem is the unit of structure and function in ecology. Some
examples of ecosystems are; a pond, a rotting log, a forest, a salt
marsh, and an estuary.
2. Components of an [cosystem:
a. Nonliving (abiotic) - These are outside energy sources and
physical factors. Examples include water, soil, rocks, air,
sunlight, and wind.
h. Living (biotic) - These are living organisms such as plants
(producers) that make their own food by doing photosynthesis,
animals (consumers) that eat plants or other animals, and
decomposers (bacteria, fungi, and a variety of very small living
things) that convert the tissue from dead animals into abiotic
building blocks. These organisms form food webs, which help
transfer and cycle matter and transfer energy.
3. Law of Limiting Factors: Too much or too little of any single factor
may destroy an organism or limit its numbers or distribution. E.g. A
lawn does not grow well if it has insufficient amounts of nitrogen
and/or phosphate. Too much fertilizer (nitrogen and/or phosphate)
will also inhibit qrowth. Other limiting factors include light, salt
concentration, temperature, and wind.
C. ECOSYSTEM FUNCTION
1. Fnerqy flows:
a. Energy from the sun powers natural ecosystems.
h. The sun provide� energy for the global energy flow which results
in the water cycle, winds and global heating.
c. Energy flows through the living portion of the system in food
chains or food webs. Green plants capture the sun's energy and
convert it to chemical energy. Green plants are producers.
Consumers eat the producers and each other. All are ultimately
eaten by decomposers.
2. Matter is cycled within the ecosystem. Chemicals are converted from
salts and gasps into molecules which make tip living tissues. When
the organism dies these molecules are converted by decomposers to
inorganic salts and gases.
3. Ecological niche. Each species fits into the ecosystem in a unique
way. This includes not only the habitat or physical space where it
lives but the way it makes its living (the species role in energy
transfer and material cycling).
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3. Changes in ecosystems. Ecological succession results in repeated
replacement of one community of organisms with another community of
organisms which are usually more diverse. The change is a result of
environmental modification by living organisms. E.g. Grass must
stabilize a sand dune before a forest can grow there.
D. LAW OF ADAPTATION - ADJUSTMENT TO ENVIRONMENTAL STRESS
1. Individual adaptation. Fach organism must adjust to changing
environmental conditions or peri-.;h. Organisms change their behavior
to cope with changing conditions. E.g. When it's hot the organism
may seek shade. When the wind blows the organism seeks shelter.
Different behaviors are iised to find and capture different prey.
2. Species adaptation. Natural selection causes a species to be better
adapted to its environment. E.g. When mosquitoes are sprayed with
the insecticide DDT, many will die. But some have genetic resistance
to DDT. They reproduce and leave offspring which are resistant to
DDT. The population is adjusting genetically.
E. LAW OF MULTIPLICATION
1. Either growth or consumption which is increasing at a fixed rate is
said to he exponential.
2. Bacteria which reprodtice every twenty minutes would show exponential
growth as follows:
Generation Time in Minutes Nos. of Individuals
t _U 50
2 20 100
3 40 200
4 60 400
5 80 800
6 100 1600
7 120 3200
8 140 6400
9 160 12800
10 ISO 25600
3. All living organisms which are reproducing at a fixed rate of growth
are increasing their numbers exponentially. More organisms require
more resources.
4. if resource consumption is growing at a fixed rate, the growth is
ex ponenti al . In the United States, energy consumption has doubled
every ten years at a growth rate of 7%. In the 1950's, more oil was
consumed than in all of the previous history of mankind. In the
1960's, more oil was consumed than in all the previous history of
mankind including the 1950's.
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INTRODUCTORY LFSSON
WHAT IS AN ECOSYSTEM?
METHOD: Discussion
Take the class to a pleasant spot on the school grounds and have them sit on
the grass. Choose a place where you can observe the most environmental
diversity possible. (e.g. shade, direct sun, trees, open grass, paved play
areas, etc.) Your discussion should be designed to develop the concept of an
ecosystem hy comparing it to a house.
Here are some questions you might ask (with a few possible answers).
1. How many of you live in a house?
Of course all the children live in a house, that's the idea. They
now have a reference for comparison.
2. How many of your houses are just alike?
Encourage the children to think about the differences in their
houses. Include color, shape, location (hill or valley), inside
furnishings.
3. What materials were used to build your house?
Go for variety. . Cement, wood, bricks, plastic, paper, tar, metal,
glass.
4. How many other kinds of houses throughout the world can you think of?
Igloo, teepee, qrass hut, houses on stilts, house boats, lean-to,
hotel, cottage, castle.
5. How do you use energy to help you live in your house?
Electricity - lights, heat, cooking, T.V., small appliances. Gas
heating, cooking, heating water and drying clothes. Wood - f i re i n
fireplace, charcoal for cooking outside. All of the furnishings of
the house and the building materials of the house require energy to
be manufactured.
Reinforce the idea that the students homes are functioning systems. Each
home is composed of material put together in a special way. And although
there is a huge variety of homes, all homes require energy for building and
operation of the activities which take place in the home.
Continue the discussion to develop an analogy between an ecosystem and the
student's home.
6. We are in "nature's house." What are the building blocks of nature's
house?
Encourage the students to think about the physical factors of the
environment. The list can get long and seem complex, but that's how
it really works.
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Here are some examples:
PRECIPITATION: Kinds (rain, snow, sleet, hail, dew)
Amount
Direction
Humidity
WIND: Direction and speed
SUBSTRATE: Land (soft or hard, coarse or fine, rocks of various
kinds).
MAN-MADE: Smog, cement, blacktop, bricks
7. How can living organisms be considered as building blocks in nature's
house?
Living organisms change the environment in which they live. Trees
make shade, plants and animals die and help build soil, animals move
materials from one place to another.
8. What is the source of energy for nature's house?
LIGHT: Intensity (day and night), quality (make a shadow), angle,
reflected (use a mirror if it helps).
HEAT: (related to light) Changes from day to night, cloud cover,
ground and water holding heat (feel ground and blacktop,
place a black pan filled with water out an hour or two before
your lesson) changes with seasons. (Remember last fall when
it was hot?)
Nature's house is called an ECOSYSTEM. Each ecosystem is composed of
material which is organized by using energy. Examples of ecosystems are: a
rotting log, a school yard, a lake, a river, a coastal wetland. Each
ecosystem is unique just as each house is unique. As a result, each kind of
ecosystem supports a special assemblage of living organisms.
Encourage the students to think of as many examples of ecosystems as
possible. If you can define boundaries easily, it is probably an
ecosystem.
Refer to ecosystems as often as you can, both within and outside the class-
room. Help students develop the concept of the ecosystem as the unit of
structure and function in ecology.
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BUILD AN ECOSYSTEM
MATERIALS: Large jars (1 gallon) with tight fitting lids, water, sand,
guppies (5 per jar), elodea leaves, snails, microscopes or micro-
projector.
PREPARATION: If you are using beach sand wash it 5 times with fresh water
to get all the salt out. If you are using tap water let it
sit without a covering for 24 hours so the chlorine will
evaporate. Prepare the diagram shown below for a bulletin
board. Class time needed: 1 hour.
Prepare students by explaining that you will be making an ecosystem in the
jars.
Begin the lesson by asking them to list those things needed to make an eco-
system. Write on the board their contributions (sun, soil, water, plants,
animals, rocks).
Show the different sizes of rectangles. Which MEff
resource must be most abundant? That resource R5
will be listed on the largest rectangle. Those
things which must be in small supply will be PL4Nr
listed on the smaller rectangles. EA IE95
With limited discussion, students will probably P/ ANTS
reason that there cannot be more plants than I L-ri
there is available soil and water. There cannot
be more plant eaters than there are plants ..... NON-LIVIN47 RES011RCES
CK -SUAI- SOIL -WATZR-Ai R- E
Introduce the concept of limiting factors: too much or too little of any
single factor may destroy an organism or limit its numbers or distribution.
(See examples B-3 of Basic Concepts of Ecology at the beginning of this
packet.) Fill in the diagram and display it in the room.
ASK:
What happens if there are too many meat eaters?
They eat so many plant eaters that their food becomes scarce and they
begin to starve.
What happens if there are too many plant eaters?
They eat so many plants that food becomes hard to find and they begin to
starve. Fewer plant eaters means there will be less food for the meat
eaters.
It will be readily apparent that a correct balance is needed. Al I of the
interactions between living and nonliving components of the environment make
L A, N kTS
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an ECOSYSTEM. (See B.1, BASIC CONCEPTS OF ECOLOGY.)
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Natural ecosystems which have not been disturbed by humans have a tendency to
remain balanced. Human activities can often upset an ecosystem and cause it
to become unbalanced or to collapse.
Since the ecosystem within a jar is small, the plants and animals will be
small. The first step in building an
ecosystem is to start with abiotic or
nonliving resources. Fill the jar with
a layer of sand along the bottom and then
with water as shown. The contents will
need time to settle. WATER
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During this period, discuss the concept of MICROORGANISMS. An ORGANISM is a
living thing. Many organisms are so smal I that they can be seen through a
microscope. These are called MICROORGANISMS.
MICROORGANISMS are all around us. We just don't see them. Some are plants,
some are plant eaters and some eat other microorganisms. These tiny
creatures will be the life forms in our jars.
Some MICROORGANISMS can remain in a dormant (sleep-like) state until living
conditions are right. Plants and animals have many microorganisms living
right on them. Elodea leaves, being plants, have microorganisms living on
them too. If we put elodea in water, then those creatures that like to live
in water will "wake up" and live. Rain puddles and ponds are rich in these
life forms. Or you might experiment by putting grass cuttings in a cup of
water and let it stand in a warm place.
When the jars have settled, students may add several sprigs of elodea, 5
guppies and some snails to each Sar. Close lids tightly.
Slowly, the microscopic animals will multiply. Most jars will attain the
correct balance and remain sweet smelling and fairly clear indefinitely.
Some jars will sour and the fish may die. This results from some imbalance.
Usually it is due to an excess of nutrients from the soil and water. Be sure
to check the water in a sour jar for microorganisms and use for the DECOM-
POSER lesson before throwing away. If the water is clear, but a fish dies
leave it in and watch what happens.
*KEEP THE JARS (at least some of them) IN THE CLASSROOM FOR FUTURE LESSONS.*
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THE WATER CYCLE
MATERIALS: The jar ecosystem and a leaf or piece of a green plant.
PREPARATION: Place the ecosystem in a sunny location along with a leaf or
pl ant part. Class time needed: 15-30 minutes (depending on
amount of vocabulary drill).
Call the students attention to the water droplets that form on the glass
above the water level in the jar ecosystem. Explain that the world we live
in also has water that is evaporating and condensing.
ASK:
Will the Jar ever run out of water?
No. It has a lid to hold it in. In the same way our earth will not run
out of water because the upper atmosphere holds it in.
How did the drops get on the sides of the glass above the water line?
Liquid water was changed to vapor by the sun's energy. It EVAPORATED.
Then it changed back into liquid when it touched the glass. it
CONDENSED.
How does water we use get back to us?
Energy from the sun evaporates the water. When it reaches the cooler
layers or air, it changes back into droplets of liquid (CONDENSATION).
Masses of condensed vapor in the sky are called clouds. When there is
more vapor than the air can hold at a given temperature, the droplets
fall from the sky (PRECIPITATION). The water (rain, snow, hail, sleet..)
will either RIJN OFF or soak into the ground (PERCOLATION) or be absorbed
by living things.
Now look at the leaf or piece of green plant that has been in the sun. What
has happened? It has lost water and wilted or dried up. The sun has caused
the water to evaporate from it. This is called TRANSPIRATION. Living plants
also lose water through transpiration, but they do not wilt because they
replenish their supply through their roots.
This unending series of changes that water goes through is called the WATER
CYCLE. The same molecules of water are used over and over again. They are
RECYCLED.
If necessary, review vocabulary words with a simple blackboard drawing.
Distribute the worksheet "The Water Cycle" for follow up.
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Answer Key
THE WATER CYCLE
(use a dictionary if necessary)
What is evaporation? Label the arrow that shows this process.
Evaporation is the changing of liquid water to water gas.
What is condensation? Label condensation in the atmosphere.
(clouds) Condensation is the process of changing water gas to liquid
Water returns to the land through precipitation. Label the arrow that shows
this process and list some forms of precipitation.
Forms of precipitation are snow, sleet, hail, fog, dew and mist.
Water can seep into the ground or it can run off. Label the arrow that shows
one thing water can do.
There are no arrows to show seepage or absorption. The only available
choice is run off.
Water can return to the atmosphere from plants and animals. This process is
called transpiration. Draw and label an arrow showing where this could be
happening.
Arrow can be placed on any landform where plants can grow.
What is a cycle? How is the water cycle like a circular path?
The word cycle implies the changing from one form to another and then
back to the original. Water continually changes from a liquid to a gas
and back to a liquid again. The cycle removes fresh water from the sea
and transports it to the land.
CONUWATI DN
X
Ocean
OFF
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DECOMPOSERS
MATERIALS: The jar ecosystem, and paper arrows for a bulletin board as shown
PREPARATION: Correct the WATER CYCLE worksheets. Class time needed: 15
minutes
Ask the students what keeps the water cycle going?
The sun provides the energy.
Look at the ecosystem. What happens when the plants and animals die? Do
their bodies pollute the ecosystem? What does nature do with waste? Plants
and animals are recycled much the same way as water. In this cycle, DECOM-
POSERS do the work by breaking down wastes (dead things, or wastes from
living things) into molecules that can be reused. Thus animal wastes are
broken down into nutrients for soil.
Students can share examples of decomposition they have seen taking place
(rotting leaves or plant clippings, decaying animals, molds on bread or
fruit, worms or other insects in garbage). Though we often find these things
unpleasant, the work being done is very important.
Decomposers in the jars, like the plants and animals, are MICROORGANISMS.
Add arrows to the bulletin
board as shown to illustrate
the way decomposers return
all wastes to the non-living
rpsourcps to he used again t
hy living things. 6aeer3
The DECOMPOSERS keep the con.
system in operation by
recycling matter just as
the sun recycles the water. AlcW. Ziwnj Ad.1,10fczS
MK- 5 VAI - -Volt. - W&tv - a ir.
Give the students time to name the DECOMPOSERS they can think of, e.g.
bacteria and fungi. Some may become confused with SCAVENGERS, which eat dead
plants and animals. True DECOMPOSERS break waste down into the elemental
parts, returning them to non-living resources.
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COASTAL WETLAND HABITATS
MATERIALS: Posters of plants, birds and fish of the wetlands. Class time
needed: 15 minutes + follow-up 15 minutes = 30 minutes
INFORMATION --- WETLANDS are areas that are flooded or soaked by water so
much of the time that the water determines the types of plants and animals
that live there. These areas may he called FRESH WATER MARSHES, SALT WATER
MARSHES, MUD FLATS or ESTUARIES, depending on the water conditions.
FRESH WATER MARSHES are characterized
by fresh water. 6w_#'%CUE.5@6 /54
SALT MARSHES are characterized by
periodic flooding by salt water 1-05 J T'A T
during the tides. 7
MUD FLATS lack large plants and are A PZAC6 WN@X467
covered by the tides for long periods
twice each day.
ESTUARIES are places where fresh
water from the land flows into the
salty sea water of the bay.
COASTAL WETLAND HABITATS include all of these. habitats. They are extra-
ordinary natural systems in which moving water redistributes nutrients and
provides a rich place for organisms to live and grow. Some nutrients are
washed out to sea and help marine organisms grow.
Introdtice the posters. Show the rich variety of life forms there. Point out
that j(ist a,; the life in the jars may not be obvious at a glance, so the
richno-,,, and life of the coastal wetlands may not be obvious at a glance.
Introduce the vocabulary: FRESH WATER MARSH, SALT MARSH, and MUD FLAT.
Locate each on the plant and bird posters.
PLANT POSTER
The MUD FLAT habitat is pictured in the lower-left corner of the poster. The
great blue heron and the shoveler duck are on the mud flat. A close-up of
mud flat shells and algae is at the bottom-left margin of the poster.
The SALT MARSH is represented by the vegetation near the water. Looking to
the right of the water, a banding effect can be observed. From the water to
the right, the vegetation would be cordgrass, pickleweed, and salt grass.
All of the lowland vegetation to the left of the main channel is also salt
marsh.
FRESH WATER MARSH is represented by the band of vegetation which is growing
progressively taller to the right of the water. The cattails grow taller as
they are further removed from the salt influence. Finally, the willows
replace the cattails. Sedges make the transition from fresh to salt marsh
habitat.
�
BIRD POSTER
The MUD FLAT habitat is pictured in the lower foreground of the poster. The
willet, lonq-billed curlew, marbled godwit, western sandpipers, dunlins and
dowitchers are all pictured on the mud flat.
Thp SALT MARSH habitat is represented by the island which contains the great
blue heron and the egrets. Another small bit of salt marsh is shown in the
lower-right corner of the poster. The clapper rail is shown walking out of
some cordgrass and Belding's savannah sparrow is singing from its pickleweed
perch.
The FRESH WATER MARSH is at the left center of the poster. The red-winged
blackbird, black phoebe and marsh wren are all pictured in the fresh water
marsh.
FISH POSTER
The ESTUARY habitat is the dominant habitat type on the fish poster. An
estuary is a place where fresh water from a stream enters a salt water bay.
The fish poster shows many of the organisms found in the estuary.
_19-
�
Answer Key
COASTAL WETLAND HABITATS
Coastal wetland habitats are very special. There are many different kinds of
plants and animals living together in the wetlands. Some organisms can
survive ONLY in the coastal- wetlands. Coastal wetlands produce ten times
more than our most fertile farmland and twenty times more than the ocean.
Many birds, fish, and animals live in the wetlands and many others find food
and shelter there when they migrate to the wetlands.
Wetlands control flooding of the land around them. They recycle waste
products and reducP the effects of pollution. Some wetlands are a natural
source of peat and sphagnum which are used in our gardens and may produce a
hay that can feed cattle.
Many people enjoy visiting the wetlands to see the plants and animals and to
enjoy the peace and beauty. Others enjoy water sports or fishing there.
Sometimes factories, homes or marinas are built on coastal wetlands. Other
times, they are used for farming or transportation.
Most human uses of wetland areas spoil them for the wildlife that would have
used them. Many rare and endangered species can live ONLY in such places.
In California, seven out of ten acres of wetlands have been put to use by
humans. The few coastal wetland areas that remain unspoiled are very
important.
Not too many years ago people thought wetlands were useless. Now people are
beginning to see their importance. Laws have been passed to protect some
coastal habitats so that the fish and birds can be safe. In many places,
though, it is impossible to protect the marshes from pollution because of the
huildinqs and farms that surround them. Laws are needed to help restore the
marshes in addition to protectinq them.
1. What is special about coastal wetlands?
Coastal wetlands are very productive. They are home for a large
variety of wildlife, including fish and birds.
2. How do wetlands help mankind?
Wetlands help control flooding and purify the water. They provide
food and recreation for people.
3. Why would people think that marshlands are useless? (Think for yourself)
Many of the benefits of the wetlands are not observed directly by
humans. We must know their value to care.
4. Out of every ten acres of wetlands, how many have been changed? How many
are left?
7 of 10 have been changed. 3 of 10 are left.
5. What kinds of laws are needed to protect the coastal wetlands?
Strong laws which will protect them from destruction.
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A RICH ENVIRONMENT
MATERIALS: Worksheet, A RICH ENVIRONMENT. Class time needed: 15 minutes
Ask students to list the things a farmer has to do to have a productive
farm. List on the hoard: plow, plant, fertilize, irrigate, harvest...
ASK:
Where does the farmer get his energy?
HP eats food that keeps his body strong. He uses machines that burn
gasoline or oil.
Can he get all the energy he needs from his own farm?
He may be able to get his food, but usually he has to buy fuel for the
machines, in addition to manufactured parts and personal goods.
Explain that the coastal wetlands have a natural "farmer" who does all the
work. Let the students guess what the natural "farmer" is and write their
guess on a slip of paper to be passed in.
Distribute worksheet - A RICH ENVIRONMENT
Those who guessed TIDES are honor students for the day (appropriate reward).
-21-
�
Answer Key
A RICH ENVIRONMENT
Coastal wetlands are as rich in plant life as the tropical jungles. Fresh
water flows into coastal wetlands from inland areas, bringing minerals from
rocks and other natural fertilizers. Tides wash into coastal wetlands,
bringing nutrients from the sea, washing waste products from some animals to
feed others, and carrying away pollutants. Unlike fresh water sources which
may stop in dry times, tides wash the wetlands twice a day.
Farmers have to fertilize 6nd care for their land with tractors or other
machines. These machines use energy sources that are running out. Tides
fertilize and care for the wetlands with their own energy. Will the tides'
energy run out?
The water sources make the wetlands a most rich environment.
1. What makes the coastal wetlands able to support so much life?
Nutrients enter the wetlands from the land, and tides move nutrients
around and help plants and animals grow.
2. How do tides help the wetlands?
Tides move waste from one organism to another which uses it for
food. Tides help remove some pollutants.
3. How often do tides come to the wetlands?
Each day there are two high tides and two low tides.
4. Does the same amount of fresh water enter the wetland all year long?
Usually there is a qreater amount of fresh water entering the wetland
during the winter rains.
EXTRA CRFDIT: Find out where the tides get their energy.
-7@
"Ji -
-7'
-22-
�
MARSH HABITATS
MATERIALS: MARSH HABITATS picture and the worksheet MARSH HABITATS. Class
time needed: 10 minutes instruction + 10 minutes for the work-
sheet = 20 minutes.
EXPLAIN: We can't really see what soil and water conditions are like so we
look at the plants. When we know the habitats of the plants, we
can infer what the soil and water conditions are like.
Show the students a picture of a desert.
ASK:
What are the plants telling us about the soil and water conditions here?
There is dry, rocky soil which contains very little water.
How did the plants tell us this information?
We know that these plants grow in the desert, where there is very little
moisture and the soil is sandy with many rocks.
Show the picture MARSH HABITATS. (It may be helpful to project a trans-
parency.)
These are plants of the WETLANDS. Tell the students the habitats of these
plants and let them tell you the soil and water conditions that they require
to grow.
Cattails need soil saturated with fresh water and often grow out of standing
water.
Saltgrass can grow in soil that has a fair amount of salt. It does not grow
in standinq water.
Pickleweed can tolerate salt and being covered for short periods of time by
the tides.
Cordqrass can tolerate salt and being covered by the tides for long periods
of time.
Knowing the habitats of these plants tells us the growing requirements for
othpr plants that live with them.
Students may use their vocabulary words to fill in.:
The cattail lives in the .. FRESH MARSH .... Saltgrass and pickleweed are
found in the .. SALT MARSH .... Which plant lives nearest to the ocean water?
CORDGRASS ....
EXPLAIN: In a desert, the environment may be the same for miles. In the
coastal wetlands, however, the environment may change within a
few feet, for there are many different environments in the
coastal wetlands.
Distribute the MARSH HABITATS worksheet.
-23-
�
Answer Key
MARSH HABITATS
Thpre are many different environments in a marsh. Some places are as salty
as the sea. Other places may be saltier. Some places may have brackish or
slightly salty soil and water. In still other places, the water won't be
salty at all. When we know the habitats of the marsh plants, we can look
across the marsh and know what the soil and water conditions are like. THINK
FOR YOURSELF TO ANSWER THESE QUESTIONS.
1. Where would soil and water be just like the sea?
Conditions most like the sea would be found where the tidal waters
wash across the habitat.
2. Where could soil and water be saltier than the sea? What could be the
reason?
Saltier conditions could be found where sea water is left in hollows
during very high tides. As the water evaporates, the salt is left
behind.
3. What would make the marsh the least salty? What time of year would this
probably happen? (What season?)
Rain or fresh water from springs or rivers would make the marsh less
salty. The most fresh water normally enters the wetlands of Southern
California during the winter rains.
4. How can the plants tell us what soil and water conditions are like?
When we know what conditions are necessary for a plant to grow, then
finding that plant tells us about the soil and water conditions.
Label the picture below with the words SALTIEST, SALTY AS SEAWATER, BRACKISH
or FRESH.
Cattail
-5e#
Cx 151Y
or "Rod C/
,cX,6',5-4
-24-
�
LIFE OF THE MUDFLATS
MATERIALS: Illustrations of algae and diatoms (found behind this page)
PREPARATION: Remove illustrations and mount if desired. Class time
needed: 10 minutes instruction + 10 minutes for the work-
sheet = 20 minutes.
Show the illustrations. Some students may have similar microorganisms in
their ecosystems. Share the names of the microorganisms and the informa-
tion on the illustrations. Remind the students that these are microscopic
enlargements.
Distribute the LIFE OF THE MUDFLATS worksheet.
Food for a probing bird (Dowitcher) would include the striped shore crab,
ghost shrimp and segmented worm. The bird with the upturned beak (Avocet)
would eat crustaceans and other small organisms from the surface of the mud.
The duck (Shoveler) strains diatoms, other algae such as Entromorpha, and sea
lettuce and crustaceans from the surface of the mud.
-25-
�
Answer Key
LIFE OF THE MUDFLATS
Some regions of the wetlands are covered by water only at high tide. During
low tide, they may be mudflats. Algae, a simple plant, and some tiny crab-
like creatures live on the surface of the mud. Worms, clams and shrimplike
animals live in the mud. All of these animals and plants are important food
for birds. The organisms are all quite small and some of them cannot be seen
without a microscope.
One very important creature of the mudflats is the diatom. This is a small
plant that swims around like an animal. It has a glass shell around it and a
drop of oil in its body. It doesn't sound very much like other plants we
know, does it? Perhaps it should be thought of as an animal. Why do you
think it is thought of as a plant?
Small animals and plants that are moved by the tides are called plankton.
The tide brings them to the mudflats where they become food for the clams and
worms.
Fill in the blanks with the words ALGAE, DIATOMS, CRABS, and WORMS. You may
use more than one word in some blanks.
DIATOMS ................................. glass shell
ALGAE, DIATOMS .......................... simple plant
(ALL FOUR) .............................. lives where tides almost always reach
DIATOMS ................................. a swimming plant
ALGAE, DIATOMS, CRABS ................... food for birds
DIATOMS, SOME ALGAE AND SOME WORMS ...... seen best with a microscope
DIATOMS AND ALGAE ....................... food for crabs and worms
Next to each picture write the kind of food you think that bird would eat.
Look at the pictures of MIJDFLAT LIFE.
ez*4
-26-
�
MUDFLAT LIFE
k., 7
ghost shrimp
striped shore crab
Jill
smooth cockle
sea lettuce
entromorpha
crustace n
--segmented worm
01
diatoms
diatoms
diatoms
�
PLANTS OF THE SALT MARSH
MATERIALS: Salt Marsh Plants of California poster, and the worksheet PLANTS
. OF THE SALT MARSH
PREPARATION: Pre-read background information and worksheet. Class time
needed: 10 minutes discussion + 15 minutes worksheet time
25 minutes.
Because the ocean tides wash the salt marsh twice daily, the habitat is quite
salty. Plants that can grow in this salty environment are called halophytes.
Most halophytes would grow better in fresh water conditions, if they were not
out competed there by other plants. As a resul t, the pl ants of the sal t
marsh are being forced into the sea by competition from other plants. Tides
set a limit on how far the plants can grown into the sea. The result is a
very narrow hand of vegetation which is "caught" between the land and the
sea.
The plants of the salt marsh help the marsh grow in size by causing silt and
debris to settle between the plants. This raises the bottom of the marsh and
allows the plants to grow further into the sea.
Suggestions:
Have the students look at the Salt Marsh Plants of California poster. Notice
the three bands of vegetation from the water towards the land. These are the
plants of the salt marsh. Explain that the band of vegetation closest to the
water is cordgrass. The middle band is pickleweed, and the upper band is
salt grass.
-28-
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Answer Key
PLANTS OF THE SALT MARSH
Most plants die if the soil and water are salty, but halophytes are plants
that can survive the salt. Halophytes grow best and sprout their seeds when
there is no salt in the soil or water. But other plants that grow in fresh
water crowd the halophytes out. For this reason, we find halophytes in the
salt marsh.
Cordgrass, a halophyte, is usually found at the edge of the mudflats where
the soil is wettest. Cordgrass gets rid of extra salt through small open-
ings in its leaves. On sunny days, the leaves sparkle with the crust of this
extra salt. Most plants will die if they are covered with water for many
hours each day, but cordgrass has special air canals in its stem. This
allows the plant to breathe even when there is no oxygen in the soil. The
air flows down to the roots and some leaks out. This oxygen-rich layer
around the roots provides a home for many tiny organisms which spend their
whole life in that tiny space.
Cordgrass make the marsh grow bigger by trapping mud and debris until there
is enough soil to support more plants. When parts of cordgrass die, smal I
animals eat the pieces that have dropped off. Cordgrass helps to feed some
of the tiny creatures of the mudflats.
Pickleweed grows where it is not quite as wet. This plant looks like a bunch
of pickles strung together. Pickleweed cannot stand to be underwater as long
as cordgrass, but it can be underwater sometimes. Pickleweed can move the
salt into its outermost stems. When the stems can hold no more, that part of
the plant breaks off.
Halophytes that grow where the highest tides come are Salt Grass and Sea
Blite. When pieces of these plants break off, they become food for tiny
organisms in the mud.
e, z&ife
Pickleweed
Sa (t C-?
Cor#ws
-29-
�
1. What is a halophyte?
A halophyte is a plant that can grow in salty soil. Most plants of
the salt marsh are halophytes.
2. Where can cordgrass he found?
Cordqrass is usually found in the lowest part of the salt marsh where
the soil is covered twice a day by the tides. Cordgrass is a halo-
phyte.
3. Most plants die if they are covered by water many hours each day. What
allows cordgrass to survive this?
Cordgrass has tiny tubes that run from the leaves to the roots.
Oxygen gas travels through the tubes to the roots and carbon dioxide
travels up the tubes from the roots.
4. How does cordgrass provide homes for other organisms?
Some oxygen leaks out of the roots and provides oxygen to the mud.
Some organisms live very close to the roots all their lives. Cord-
grass is also used by birds.
5. How does cordgrass increase the size of the marsh?
Cordqrass traps mud and debris and causes the land to rise. As the
height increases the cordqrass grows further out, increasing the size
of the marsh.
6. What organisms use cordqrass for food?
Bacteria, fungi and crabs are some of the organisms that use cordgrass
for food.
7. What does pickleweed look like?
It looks like a string of tiny pickles.
8. Could pickleweed and cordgrass grow together?
Yes. Both can withstand salt and some immersion in water. In many
parts of the marsh they do grow together, but usually there is more
cordqrass in the lower marsh.
9. How do halophytes protect themselves from too much salt?
Most halophytes have salt glands that pump salt out of the plant onto
the surface of the leaves. Pickleweed concentrates the salt in the
tip of its stem and then breaks off.
THINK FOR YOURSELF:
1. Why are halophytes commonly found in salt marshes?
Because they can withstand the salt in the soil and water. Other
plants cannot.
2. Why wouldn't pickleweed and cordgrass grow at the beach near the
tidepools?
The force of the waves would break and destroy these plants, and the
rocks would not provide good soil for them to grow.
-30-
�
THE FRESH WATER MARSH
MATERIALS: Plant Study Cards. Class time needed: 15 minutes instruction +
15 minutes worksheet time = 30 minutes
Use plant cards (see appendix) to share information about:
cattails
mulefat
black willow
arroyo willow
(Quiz and review until plants are familiar.)
Review the halophytes with plant cards if necessary.
Distribute THE FRESH WATER MARSH worksheets.
-31-
�
Answer Key
THE FRESH WATER MARSH
Plants of the fresh water marsh grow best when their roots are in or near
fresh water. They do not tolerate salt like the halophytes, but some of them
have air canals in the stem like cordgrass and can be covered by water for
long periods at a time.
Marsh plants may be tiny as the dainty brass button flowers, delicate as the
watercress, or as tall as the willow. Most of them have seeds that are
carried by the breeze.
Many marsh plants are useful to humans. Indians used the cattail flower
heads for food and the leaves for baskets and mats. They boiled the root
like a potato. The willow was boiled and used as medicine like aspirin.
Watercress and wild celery are good to eat.
Triangular stemmed sedges grow at the edge of the marsh in slightly drier
places than the cattails. They can withstand more salt in the water as
well. Mulefat and willow grow on higher ground and send their roots down to
the water supply.
Mulefat is a tall, bushy plant with slender leaves. The early settlers
noticed that their mules' stomachs swelled after eating thi s pl ant so they
gave it its name. Two types of mulefat grow close together. The one with
soft, fluffy flower parts is the male plant and the one with sticky flowers
is the female. Gentle air currents caused by the cooling effect of the water
help distribute the seeds, but mulefat can also grow new plants from pieces
of broken stems that fall to the ground.
The arroyo willow is taller than mulefat with bigger, fatter smooth leaves.
The arroyo willow is a home for many kinds of wasps. They lay their eggs in
the leaves or stms of the willow. The willow then grows a protective coat
or swelling around the egg. The swelling is called a gall. Different kinds
of wasps make difference galls. Some are on the 1 eaves, some on the stems
and some in the buds at the ends of the stem. When the new wasps eat their
way out, many different birds will have a feast.
The black willow is the tallest plant in the fresh water marsh. It has long,
slender leaves that curve slightly sideways. In spring the flowers look like
caterpillars. In summer they are fluffy.
1W
Ce4r
-32-
�
Answer Key
THE FRESH WATER MARSH
1. What do plants of the fresh water marsh have in common with the halo-
phytes?
They commonly grow with their roots in water.
2. How did mulefat get its name? Tell one other interesting fact about it.
The story is that the Spaniards' mules looked fat after eating it.
Male flowers are on one plant and female flowers on another.
3. What creatures do the arroyo willow help? Explain what it does.
Wasps use the stems and leaves for their young to develop (galls).
Many birds make their nests in the willow. Also some birds eat the
wasps.
4. Write the names of the plants that would grow in each of the following
habitats.
A POOL OF RAINWATER .... celery, watercress, cattails, sedges ..........
A HIGH BANK AROUND THE POOL .... mulefat, black and arroyo willow ......
THE DAMP EDGE OF THE POOL .... sedqes and cattails .....................
SLIGHTLY SALTY WATER (brackish) .... sedges ............................
5. What is the tallost plant in the fresh water marsh? Tell one fact about
it.
The hlack willow. It has long curving leaves and flowers that look
like caterpill.ars.
6. How do many marsh plants disperse their seeds?
Their seeds are carried by the wind. Water cools the air and causes
gentle breezes which carry the seeds.
7. What can he found on the arroyo willow that looks like a swelling?
Explain.
Wasp galls in the terminal stem buds take a form that somewhat
resembles a rose.
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�
THE FOOD WEB
MATERIALS: Worksheet, THE FOOD WEB, paper and crayons for making food
chains. Class time needed: 20 minutes instruction and activity
+ 15 minutes for the worksheet = 35 minutes.
The food web is a concept that helps children understand the interrelated
nature of all ecosystems. The food web is easier to understand by developing
a number of concepts and putting them together.
FACTS:
1. Energy flows through the ecosystem.
2. The sun is the energy source for all living things.
3. Only plants can convert the energy from the sun into energy in liviny
organisms.
4. Plants store the energy from the sun in materials in the form of sugars,
fats and protein.
5. Animals eat plants or other animals which provide energy to live and
materials to make new tissue and repair old tissue.
6. The flow of energy from the sun through a plant and some animals is
called a food chain.
7. All plants and animals die. Decomposers (bacteria and fungi) breakdown
the dead organisms and change these materials into basic elements.
Plants use the energy from the sun to reuse these elements to make new
plant tissue.
8. Energy can only be used once and must continue to reach the earth from
the sun. Materials cycle. They are used over and over again.
9. Plants are eaten by many kinds of animals and each animal, in turn, may
eat or may be eaten by many other kinds of animals. This complex series
of food chains is called a food web.
CLASS ACTIVITY:
Have the students make pictures which show the following food chains. They
may need to use pictures from other worksheets in the packet. (The arrow
points to the organism that is doing the eating.)
FLOATING PLANTS @ FILTER FEEDERS BIRDS
(diatoms.other algae) (clams)
NOTE: Filter feeders gather their food by pumping water through a net-like
structure and filtering their food out of the water. They include
clams and some worms.
-34-
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FLOATING PLANTS CRABS BIRDS
BOTTOM DWELLING PLANTS WORMS FISH BIRDS
BOTTOM DWELLING PLANTS CRABS BIRDS
DEAD PLANTS BACTERIA FILTER FEEDERS BIRDS
AND ANIMALS
After the students have made their food chains help them learn facts about
food chains. (Enerqy flow and material cyclinq.)
Hand out THE FOOD WEB worksheet.
-35-
�
Answer Key
THE FOOD WEB
Mdrsh plants take energy from the sun and change it into food. A few animals
edt the plants as they grow, but most of the pldnt material drops oft" into
the water where it is eaten by bacteria and other microscopic organisms
called DECOMPOSERS. The decomposers are then eaten by crabs, snails, worms,
insects and clams. Birds and other animals may eat these creatures. Waste
products from all of the animals fertilize the plants.
1. What is the energy source of the food web? (YELLOW) SUN
2. What can change the sun's energy into food? (GREEN) PLANTS
3. Which animals break down plant materials? (BROWN) DECOMPOSERS
4. What are decomposers? BACTERIA AND FUNGI THAT CONVERT LIVING TISSUE INTO
PLANT NUTRIENTS.
5. Where are the decomposers? DECOMPOSERS ARE FOUND IN THE MUD ZONE.
6. What eats decomposers? FILTER FEEDING CLAMS, WORMS, AND SOME CRABS.
7. What fertilizes the plants? THE NUTRIENTS RELEASED BY THE DECOMPOSERS.
8. Which part of the food web do you think is most important? Tell why.
A FUNCTIONING SYSTEM IS IMPORTANT, PLANTS ARE NECESSARY.
COLOR THE DRAWING AND DRAW ARROWS IN RED TO SHOW THE FOOD WEB. (NOTE COLORS
IN PARENTHESES NEXT TO THE STUDY QUESTIONS.)
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Salt dras@- OP059
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clams Godwit
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BIRD BEAKS AND FEET
Birds that live in and around wetlands gather their food many different
ways. They also look for their food in different ways and in different
places. Some birds live in the water and swim to search for food. Others
look for food by walking across the soft mud. Many birds find their food in
trees and bushes. A few birds look for their food by flying over the land,
wetlands, or water. Each of these birds have feet that help them gather
food.
Use the BEAKS AND FEET study sheet to do the following activities.
1. Find the foot that would be good for swimming. Color it blue. Write the
word SWIMMING next to the foot.
2. Find the foot that would be good for catching animals like rabbits and
squirrels. Color it brown. Write GRASPING next to the foot.
3. Mud can be soft. Find the foot that has long toes that would hold a bird
up on the mud. Color it yellow. Write the words LONG TOES next to the
foot.
4. Find the foot that would be good for holding onto branches. Color it
black. Write the word PERCHING next to the foot.
Beaks are also important for gathering food. Your BEAKS AND FEET study sheet
shows beaks which are used to gather food in a number of different ways.
Birds which catch flying insects have a short pointed beak. Hairlike
bristles are often found at the corners of the beak. Long pointed beaks are
used to spear fish and frogs. Long thin beaks of shorebirds are used to
probe the mud for worms and clams. Hawks and eagles have short hooked beaks
for tearing flesh. Birds which dive under water to catch food have longer
beaks with a small hook on the end for catching fish. Seed-eating birds have
short heavy beaks for crushing seeds. Duck beaks are flat and are used for
straininq water. The avocet has an upturned beak that is used to filter tiny
creatures from the surface of the mud.
Use the BEAKS AND FEET worksheet to do the following activities.
1. Write the word PROBING under the beak that would be used to probe the mud
for worms and clams.
2. Circle the beak that would be used to catch flying insects. Write the
word FLYCATCHER next to the beak.
3. Find the beak of the seed eater. Color it brown. Write the words SEED
EATER under the beak.'
4. Find the duck beak. Color it blue. Write the words WATER STRAINER under
the beak.
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5. Find the beak that is used to spear fish. Color it yellow. Write the
word SPEARING under the beak.
6. Find the beak of the avocet. Color it green. Write the word FILTERING
under the beak.
7. Find the beak that is used to tear flesh. Color it red. Write the word
TEARING under the beak.
8. Find the beak that is used to catch fish. Color it orange. Write the
word FISHING under the beak.
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EAKS AND FEET. 39
FLyCAmHER
Twuwq
FtLTERq4q
Sub EATEP, WATEP, STRANEP,
TOES
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�
POLLUTION IN THE WETLANDS
MATERIALS: Worksheet POLL-UTION IN THE WETLANDS. Class time needed: 10
minutes for the worksheet + 15 minutes for follow-up discussion
25 minutes.
Pass out the worksheets.
Discuss the answers to the questions on the worksheet. Help the children
understand that pollution not only harms the wetlands and the organisms that
live there, but is haIrmful to all living things.
Have the students make a list of how they can help reduce pollution.
40-
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Answer Key
POLLUTION IN THE WETLANDS
The Coastal Wetlands are an important home for many different kinds of birds
and fish. In Southern California, little of the original wetlands remain.
Many have been destroyed by putting buildings where the animals used to
live. Some wetlands have been set aside as a refuge for wildlife. We would
think the animals and plants would be safe in a refuge, but we are finding
that many of them are in danger. Many plants and animals are dying of
POLLUTION.
There are many kinds of pollution which are harmful to the wetlands. Human
sewaqe and animal waste can cause unusual growth in the plants of the wet-
lands, and the natural balance can be upset. Heavy metals are poisons that
are harmful to the creatures of the wetlands. Some heavy metals come from
the gasoline that some cars and trucks burn. Others come from paints and
factories.
One of the most serious pollutants in Southern California is the soil and
debris that wash into the wetland from the land. Often the natural plants
are removed from the land when people build new houses. Then when it rains,
the fine soil is washed from the land into rivers and into the wetland. The
washing of soil from the land is called EROSION. When the soil is very fine
it is called SILT. Silt buries the living creatures of the wetlands and they
die. Sometimes the silt comes from farm fields. It too is harmful to the
life in the wetland.
If the wetlands and the plants and animals that live there are going to be
healthy and not be destroyed, humans must be much more careful with pollu-
tants.
1. Name three kinds of pollutants that are harmful to the living creatures
of the coastal wetlands.
Sewage, heavy metals and silt.
2. How do you think farmers and building could do their jobs without causing
silt to flow into the wetlands?
By using careful farming and building practices. They could build
small ridges around their fields and the construction sites to keep
the water and the silt from entering the rivers and the wetlands.
3. Where have you seen erosion taking place? Where do you think the soil
went when it was washed away?
Each child may have a different answer. This is a good time to help
them become aware of soil erosion and the fact that it not only harms
the farmland but can harm other ecosystems as well.
4. Can you think of any other kinds of pollutants that could be harmful to
the wetlands?
Trash, pesticides, oil, hot water, etc.
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ZONES OF THE COASTAL WETLANDS
MATERIALS: Worksheet, 70NES OF THE COASTAL WETLANDS and the picture of ZONES
OF THE COASTAL WETLANDS. Class time needed: 10 minutes for the
worksheet + 10 minutes for discussion = 20 minutes
Have the students do the worksheet. Then discuss their results. Use this
discussion to prepare the students for their field trip to the wetlands.
Students should be looking for orqanisms in the different zones of the wet-
lands. Upon their return to the classroom, students should do the WETLANDS
SORT as a follow-up. Students can also do the SORT in the field.
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Answer Key
ZONES OF THE COASTAL WETLANDS
Answer each of the following questions with the words SUBTIDAL, INTERTIDAL,
or SUPRATIDAL.
1. In which tidal range is the salt marsh found?
INTERTIDAL
2. in which tidal range is the marine zone found?
SUBTIDAL
3. In which tidal range is the fresh water marsh found?
SUPRATIDAL
Do the following activities on your ZONES OF THE COASTAL WETLANDS picture.
4. Color the water of the fresh water marsh blue.
5. Color the water of the marine zone green.
6. Draw a red arrow to the high tide line.
7. Draw a @lue arrow to the low tide line.
Answer the following questions:
8. From your other studies, name one animal that would live in each zone.
MARINE: any of the fish from fish poster. MUDFLAT: birds of the
mudflat or examples from the MUDFLAT LIFE picture sheet. SALT MARSH:
Clapper Rail or other birds from the bird poster. FRESH MARSH: any
of the birds from the fresh water marsh section of the bird poster.
UPLANDS: any of the terrestrial mammals, reptiles, or birds. (E.g.
fox, rabbit, squirrel, lizard, snake, owl, mocking bird.)
9. Explain how the tides help determine the zones of the coastal wetlands.
Tides cover different regions of the coastal wetlands for different
amounts of time each day. The salt water makes it possible for some
plants to grow and others not to grow.
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ZONES OF THE
COASTAL WETLANDS
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Answer Key
WETLAND PLANTS
Using the plant names at the bottom of the page, write the name of the plant
on the line next to the accurate characteristic.
1. tall shrub with large, shiny leaves ...................... LAUREL SUMAC
2. a bad-smelling shrub with bladder-like seed pods ......... BLADDER-POD
3. four-pptaled, purple flowers with spicy pods ............. RADISH
4. flowers are yellow and spicy ............................. MUSTARD
5. succulent stems with many sharp spines ................... CHOLLA CACTUS
6. feathery plant with a strong, sweet scent ................ SAGEBRUSH
7. poisonous plant with yellow trumpet flowers
that hummingbirds like ................................... TREE TOBACCO
8. this plant's cousin is used to make pancakes ............. BUCKWHEAT
9. cows act crazy if they eat this silvery plant ............ LOCOWEED
10. grain (food for animals) ................................. OATS
11. salt sparkles on the leaves .............................. SALTBUSH
12. sour, red fruits used to make a refreshing drink ......... LEMONADEBERRY
13. upland shrub with small, succulent leaves ................ BOX THORN
14. little, purple "tomatoes" are poison ..................... NIGHTSHADE
15. this plant's cousin was once used in marshmallows ........ MALLOW
16. tumbleweeds .............................................. RUSSIAN THISTLE
17. curly and rhymes with "sock ............................... CURLY DOCK
SALTBUSH, MUSTARD, RUSSIAN THISTLE, RADISH, TREE TOBACCO, SAGEBRUSH, CURLY
DOCK, BLADDERPOD, OATS, MALLOW, NIGHTSHADE, LAUREL SUMAC, CHOLLA CACTUS,
BUCKWHEAT, LOCOWEED, LEMONADEBERRY, BOX THORN
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Answer Key
SCIENTIFIC NAMES
Scientific names of plants have two parts: a genus name and a species name.
Using the plant poster to help you, write the common plant name on the line
next to the scientific name.
Scirpus robustus .......................................... SEDGE
Cotula coronopifolia ...................................... BRASS BUTTONS
Monanthochloe littoralis .................................. MONANTHOCHLOE
Salix lasiolepis .......................................... ARROYO WILLOW
Spartina foliosa .......................................... CORDGRASS
Juncus acutus ............................................. RUSH
Salicornia virginica ...................................... PICKLEWEED
Salicornia subterminalis .................................. PICKLEWEED
Salicornia bigelovii ...................................... PICKLEWEED
Ratis maritima ............................................ SALTWORT
Cuscuta salina ............................................ DODDER
Mesernbryanthemum crystallinum ............................. ICE PLANT
Encelia californica ....................................... BRITTLEBRUSH
Atriplex semibaccata ...................................... AUSTRALIAN SALTBUSH
Atriplex patula ........................................... SALTBUSH
Notice the three plants with the genus name Salicornia. What common name is
given to all of these? PICKLEWEED
Do you think they are all alike? THEY ARE CLOSE RELATIVES
How do scientific names tell us more information than common names? PLANTS
WITH THE SAME GENUS NAME ARE CLOSELY RELATED. THEY MAY HAVE THE SAME COMMON
NAME AND NOT BE CLOSE RELATIVES. E.G. SAGE CAN BE FROM THE MINT FAMILY OR
SUNFLOWER FAMILY.
There are two plants with the genus name Atriplex. Only one has its common
name labeled on the poster. What common name might the other one have?
SALTBUSH. OFTEN PLANTS OF THE SAME GENUS HAVE THE SAME COMMON NAMES.
The same scientific names are used all over the world. Why do you think this
is important? BY USING SCIENTIFIC NAMES PEOPLE CAN BE SURE THEY ARE TALKING
ABOUT THE SAME PLANT.
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WETLANDS SORT AND FILL-IN
MATERIALS: Worksheets WETLANDS SORT and WETLAND FILL-IN. Class time needed
for individual sheets: 20 minutes for worksheet + 5 minutes for
discussion = 25 minutes
Have the students fill out the worksheets either during or as a follow-up to
a visit to the wetlands. This exercise gives students practice in sorting
and organizing observations they have made.
-47-
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WETLANDS SORT
INTERTIDAL SUPRATIDAL
MUDFLAT SALT MARSH FRESH WATER MARSH UPLANDS
Sea Lettuce Salt Bush Heron Snake
Heron Sea Lettuce Cattail Salt Bush
Avocet Sea Blite Blackbird Sagebrush
Algae Heron Algae Tree Tobacco
Crabs Pickleweed Sparrow Bladderpod
niatoms Clapper Rail Willow Cucumber
Horn Snails Alqae Kite Cactus
Sea Cucurnher Saltqrass Bulrush Laurel Sumac
Cordqrass Diatoms Worms
Crabs Brass Buttons Harlequin Bug
Savannah Sparrow Curly Dock Deerweed
Diatoms Worms Locoweed
Sea Lavender Sedge Box Thorn
Rove Beetle
Fill out dtiring or after a visit to thp coastal wetlands
�
PICKLEWEED COROGRASS CATTAILS SEA LAVENDER BUCKWHEAT OTHER
Grows in the salt rrows in the lowest Grows in fresh water Grows in upper salt Grows on dry soils
HABITAT marsh. levels of the salt marshes and ditches. marsh. with sagebrush.
marsh. Requires fresh water
to Qrow.
Low, dull green. Grass - two to three Tall thin leaves. Large leaves at base Shrub 1-2 feet high.
Looks like many feet tall. Forms After blooming it of tall, lacy flower Needle-shaped leaves,
APPEARANCE small pickles strung broad, dense patches looks like it has a stalk with tiny, clusters of pink
together. in the staff marsh. hot dog growing on blue flowers. flowers.
its top.
Grows from seeds and Grows from broken Grows from seeds that Grows from seed. Reproduces from
root from the stems. pieces of plants. are carried by the small, naked seeds.
REPRODUCTION Also grows from wind or from broken
seeds. pieces of roots or
stems.
Perennial Perennial Perennial Perennial Perennial
Stores water in the Has special cells in They do not grow in Has special cells in Does not grow in
ADAPTATION TO stems and dilutes its leaves that push salty places. its leaves to push damp, salty soils.
SALT salt. salt out of the salt out of plant.
plants.
Nesting sites for Nesting place for Roots are edible. Indicates upper Is an indicator of
two endangered the Clapper Rail. The roots stabilize marsh. Two cousins upland areas.
ECOLOGICAL species. Clapper Important food the shore edge. with blue straw-
REI-ATIONSHIPS Rail. Belding's source for many tiny Nesting places for flowers indicate
Savannah Sparrow organisms of the birds. (Long-Billed disturbed areas.
salt marsh. Marsh Wren)
�
WETLANDS FILL-IN
HUDFLAT AND MARINE SALTMARSH BIRDS FRESH MARSH
Crab Clapper Rail Curlew Cattail
Clam
cucumber Cordgrass Coot
Anchovy Atriplex Avocet Arroyo Willow
A
Arrow Goby Alkali Weed
L Least - Tern Limonium Long-Billed Curlew Long-billed Marsh Wren
Ice Plant Insects
F Fish Frankenia Foster's Tern Frog
0 owl owl Oppossum
R Ruddy Duck Rail Red-winged Blackbird Rush
N Nightshade
I Ice Plant Insects
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WETLANDS SCAVENGER HUNT
UPLAND PLANTS ANIMALS
Saqebrush ............. Bees pollinating ...........
BI adderpod ............. Harloquin buq ...........
Cucumber ............. Jack Rabbit (5) ...........
Locoweed ............. Savannah Sparrow (5) ..........
Box Thorn ............. Clapper Rail (10) ...........
Glohemallow ............. Hummingbird ...........
Laurel Sumac ............. Snake ...... Duck
Cholla Cactus ............. Avocet ...... Heron
Flat-Top Buckwheat ............ Hawk ...... Worm
Rove
neerwepd ............. Crab ...... Beetle
TOTAL ............. TOTAL
RIPARIAN PLAMTS HALOPHYTES
Mulefat ............. Pickleweed ...........
Arroyo Willow ............. Saltbush ...........
Galls ............. Salt grass ...........
Black Willow ............. Cordqrass ...........
Cattail ............. Salt on leaves ...........
Celery ............. Sea lavender ...........
Watercress ............. Bat-is ...........
Sedqes .............
TOTAL ........ ..... TOTAL ..........
GRAND TOTAL ..............
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Answer Key
VOCABULARY
Write the definition of each of the following words.
ECOSYSTEM ... A self-sustaining system with an outside source of energy.
ORGANISM .... A living thing.
MICROORGANISM..A living thing that is so small that it can only be seen with
the aid of a microscope.
WATER CYCLE .... The conversion of liquid water to a gas and back to a liquid
again. Ocean water evaporates and moves over the land. It
then condenses and falls to the earth as rain or snow.
EVAPORATION .... Liquid changing into a gas (vapor).
CONDENSATION ... Vapor changing into a liquid.
PRECIPITATION ... Rain or snow from condensation of water vapor
RUN OFF ..... Liquid water moving across the surface of the land
TRANSPIRATION ... Water vapor being lost from a living plant
DECOMPOSERS .... Organisms that break waste materials into their elemental
parts. These parts become nutrients for plants.
WETLANDS .... Lands which are periodically or permanently covered by water. If
not disturbed, such areas support plants which grow in or near
water or saturated soils.
MARSH ... Part of a wetland where water tolerant plants can grow.
ESTUARY .... Where a fresh water stream enters the sea.
SALT MARSH .... A marsh that is periodically covered by the tides.
COASTAL WETLANDS .... Wetlands that are found near the sea.
HABITAT ..... The place where an organism lives (its home).
ALGAE .... A simple plant found in all wetlands.
DIATOMS...Simple algae with glass shell and a droplet of oil in its body.
FOOD WEB ... The sum total of all the interacting food chains in an ecosystem.
PERENNIAL ... A plant which lives for more than two years.
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WETLAND CROSSWORD PUZZLE
D E E R W E E D R
A 0 0
I CA C T U S
C Y C L E K N
D
B S
L E M 0 N A D E B E R R I E S E
E L A E
S N A I L A P I C K L E W E E D
D T
S E D G E H A B I T A T
E U
M T E R N S
A 0 P H A L 0 P H Y T E
C R A B 0 E
S A D L
H C I
C S 0 W C
C 0 R D G R A S S A L G A E
L P T N
E G R E T R E
A R
Y
ACROSS DOWN
1. Yellow and orange flowers 1. Thin as a . . . .
signal bees
2. Rushes are . . . .
2. Pokes when picked
3. Pollinates flowers
3. Regularly repeats itself
4. Carries new life
4. berries make a delicious, tart drink
5. Stinky, but pretty
5. Vacuums its dinner from the mud
6. An upland halophyte
6. Halophyte where the Savannah
Sparrow nests 7. Where water-tolerant plants grow
7. ...... have edges B. Tree with yellow trumpet flowers
B. home sweet home 9. Can hold more in its mouth, than its
9. AN ENDANGERED SPECIES belly can
10. Plants that can tolerate salt 10. A chemical from the sea
11. Fiddles 11. Fish eagle
12. Salt marsh plant in the wettest soil 12. Life can't live without it
13. Simple plant
14. Snowy marsh bird
-53-
�
What are "wetlands?"
Wetlands are low places which are covered by shallow water all or part of
the time.
What is an estuary?
An estuary is the area in which salt water and fresh water meet.
What are halophytes?
Halophytes are plants that can withstand salt in the soil and/or water.
What is the water cycle? Where does the water come from?
The water cycle is the unending series and changes water goes through.
The water comes from condensing vapor; the vapor comes from evaporating
water. The changes continue.
What is a food web?
A food web is the pattern shown by following the transfer of energy (or
food) through the organisms in a system.
What i@; a habitat?
A habitat is the ,pacn or area where a given living thing is naturdlly
found.
How do plants tell us about soil and water conditions?
When we know how much moisture and salt a plant can stand, we can judge
how much moisture and salt must be in the soil we find it growing in.
How do tides help the wetlands?
Tides bring in nutrients for plants and plankton to feed animals. They
recycle waste products by washing detritus to decomposers. They carry
away and filter other wastes or pollutants.
Why is the coastal wetland such a rich environment what is so special about
it?
It is the most productive of all environments and it supports rare and
uni quP 1 i fe forms as wel I .
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SALT MARSH BIRDS AND SHORE BIRDS
These pages can be used in a number of ways.
..... Analyze the bills and suggest possible food items for each bird.
Use the Bird Key or Flash Cards to identify each bird, where does
each bird breed in the summer?
..... Color the birds using the Bird Poster or A Field Guide to Birds of
Morth America, National Geographic Society, or any other bird guide
for the W n United States for the colors.
..... Which habitat will each bird be found in? Would any be found in more
than one?
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Salt Marsh Birds
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321 East Chapman Avenue. Fullerton. CA 92&W Funded by California State Derwimeni of Education
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Salt Marsh Bi s
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Plinted by Fullerlon Colkq8 Printing TedwKfty
321 East Chapman Avenue. Fullerton, CA 92634 Funded hv Calilmnia Stale Department of Education
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Salt Marsh Birds
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Sa.1t Marsh Birds
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321 Easl Chapman Avenue. Fullerton. CA 92634 Funded bV Calilloonia Stale Department ol Education
(714) 871 -SM. Ext. 252 Frivronmenlal-Enargy Education Grant
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Salt -Marsh Birds
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Printed by Fullerton College Printing Technology Funded by Califoinia State Oepartment of Education
321 East Chapman Avenue. Fullerton, CA 92634 Environrnental-Enwgy Education C-dant
(7 14) e7 1 -8000. Ext 252
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SHORE BIRDS
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1--Red Tailed Hawk 16--Eared Grebe
2--Turkey Vulture 17--Belted Kingfisher
3--Forster's Tern 18--Willet
4--Ring-Billed Gull 19--Marbled Godwit
5--Red-Winged Blackbirds 20--Long-Billed Curlew
6--Black Phoebe 21--BlackBilled Plover
7--Long Billed March Wren 22--American Coot
8--Sora 23--Black-Necked Stilt
9--Double-Crested Cormorant 24--American Avocet
10--Great Blue Heron 25--Western Sandpipers
11--Great Egret 26--Dunlins
12--Snowy Egret 27--Dowitchers
13--Marsh Hawk 28--Savanna Sparrow
14--Least Terms 29--Clapper Rail
15--Western Grebes 30--Ruddy Duck
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SALTBUSH Pigweed Family LEMONADEBERRY Sumac Family
Atriplex 3 kinds Rhus integrifolia
Example: Atriplex lentiformis Griarl Brush LAUREL SUMAC
HABITAT: Seltbush can grow on fine, poorly-drained Rhus laurina
soil, but cannot stand being underwater. They do best
in coarse soils where there is air for the roots. HABITATt Both are common chaparral shrubs found on
dry uplands. They are not tolerant of salt marsh
APPEARANCE: Glands an the surface of the leaves give conditions.
seltbush a pearly-gray luster. If you are uncertain
if your plant is a saltbush or another gray plant like APPEARANCE: Look for thick, green leathery leaves.
sagebrush, check to see if the leaf covering is gray The smaller lemonadeberry leaves have teeth along
heir (sagebrush) or scales (saltbush). While checking the edge. the numerous, small flowers are rose
the leaf, break a small piece off and you will see the colored. The red fruits are covered with an acid,
bright green of chlorophyll underneath. sticky substance.
REPRODUCTION: Like other members of this family, the The larger leaves of laurel sumac are smooth-edqed
flowers are of different sexes, small and greenish. and folded up along the midrib. Masses of small,
The developed fruits form flattened discs. The plants white flowers are at the tip of Lhe branches.
are pollinated by the wind.
REPRnr)tICTION: Both of these Rhus reproduce by seed
ADAPTATION TO SALT: Saltbush does not grow in the only.
lower areas of the salt marsh, but they are tolerant
of salts because of special glands an the surface of ECOLOGICAL RELATIONSHIPS: As is true of most
the leaf. Under a powerful microscope, these glands chaparral shrubsq these Rhus are hard to kill and
look like tiny balloons. When a gland is full of the sprout from the crown of the root following a fire.
salts which are excreted out of the leaf, it falls off
another takes its place.
-)GICAL RELATIONSHIPS- Saltbush seeds contain lots
of protein and oil. They are a favorite food for
birds. People can eat them as emergency food.
FLAT-TOP BUCKWHEAT Buckwheat Family CALIFORNIA SAGEBRUSH Sunflower Family
Eriononum fasciculatum Artemisia californica
HABITAT: Common on the dry uplands. Grows on the HABITAT: Sagebrush is common on upland slopes and
edge of the salt marsh, but the land is elevated does not tolerate salty soils well.
beyond the reach of the tides.
APPEARANCE: This shrub can be from two to five
APPFAPANCE: A low shrub with many, leafy branches. feet tall. It has gray-green leaves that are very
The edges of the leaves turn under; green above and fine and linear.
grey wnoly beneath. The leaves come in bunches. The
flower he ads look like white or pink balls on the end REPRnDUCTION: Sagebrush blooms from August to
of a-stick. The flowers turn brick red after pollina- December. The tiny, hard-to-see flowers are polli-
tion and stay on the plant. nated by the wind.. It grows from seeds.
REPRODUCTION: Buckwheat reproduces only by.seeds. ECOLOGICAL RELATIONSHIPS: The best way to identify
Sagebrush is to rub the leaves and smell them. It
ECOLOGICAL RELATIONSHIPS: The nectar and pollen are will remind you of the seasoning for your Thanks-
used by the insects, and birds eat the seeds. It is giving turkey. And it can be used for just that
an important ground cover. There-are over 100 species purpose. Sagebrush was an important herb for
of Eriogonum in California, and the Indians have Indian women. -It was made into a tea that was
harvested the seeds from many of them. believed to help them during childbirth.
-64a-
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-65-
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BLADDERPOD Caper Family WILD RADISH Mustard Family
Isomeris arbores Raphanus sativus
HABITAT: Bladderpod is a common shrub in the desert HABITAT: Wild Radish is a common plant in disturb-
as well as the coast. In both places, it grows in ed soil and fields throughout much of California.
slightly salty areas. Wild Radish cannot grow in sea water.
APPEARANCE: Bladderpod is a bad-smelling shrub that APPEARANCE: Wild Radish has a four-petaled flower
is usually three to four feet tall with three leaflets from pale white to pink to yellow. All colors can
like a clover. The flowers can be the size of a be found in the same area. To be sure of your
quarter and are yellow and very showy. They have four identification, look for the cylindrical fruits
petals. The fruit is a swollen, hanging pod. The which are narrow between each seed.
pods start developing long before the petals wither.
REPRODUCTION: Wild Radish can spread only by
REPRODUCTION: Bladderpod reproduces by seeds. seeds.
ECOLOGICAL RELATIONSHIPS: Harlequin Bugs live on the ECOLOGICAL RELATIONSHIPS: Wild Radish is a native
Bladderpod. These are red and black "stink bugs" of Europe and the supermarket radish is a cultiva-
which concentrate a toxic chemical from the plant in ted form. The Wild Radish root is edible. This
their bodies. They are not bothered by the chemical, plant is pnllinated by bees.
but predators avoid them.
NIGHTSHADE Tomato Family DEERWEED Pea Family
Solanum Lotus scaparius
HABITAT: Nightshades seek the high, dry ground. They HABITAT: This common shrub grows on dry slopes.
are not tolerant of salt marsh conditions.
APPEARANCE: It is a low, bright green shrub with
APPEARANCE: The showy flowers have five continuous straiqht, spreading branches. It can look wild and
petals which make a colorful plate under the pillar- disorganized. The flowers are yellow, fading to
like, yellow stamens. Often there are green nectar red after pollination. Since the red petals do not
glands surrounding the stamens. Our common species fall off, the plant has a two-tone look.
has deec purple flowers. The fruits are small, dark
berries. REPRODUCTION: This plant reproduces from seed
only. The flowers are an important nectar source
REPRODUCTION: The flowers are insect-pollinated, and for bees.
plants reproduce from seeds.
ECOLOGICAL RELATIONSHIPS: Deerweed is frequently
ECOLOGICAL RELATIONSHIPS: This is one of the early found growing on disturbed land. Disturbance can
spring flowers which provide nectar and pollen for mean a trail or road edge, vacant lot or burned
numerous emerginq insects. In order to protect areas. It is one of the first important plants to
developing fruits from predators, many members of this follow a fire. Bacteria living on the roots are
family produce a toxin which attacks the nervous able to change nitroqen from the air into a form
system. Nightshade berries are very toxic. which plants can use.
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BLACK WILLOW Willow Family ARROYO WILLOW Willow-F - &ftly
Selix gooddingii Salix lasiolepis 66
HABITAT: Willows grow in wet ground. They probably HABITAT: Arroyo Willow does not like salt water.
bring air to their roots through small holes in the It grows where fresh water is getting to its roots.
bark. Where you find willows, you are sure to find fresh
water.
APPEARANCE: The Black Willow looks like the Arroyo
Willow, but has a rough, dark bark. The leaves are APPEARANCE: Arroyo Willow is a low-spreading tree
greyish-green. from six to thirty feet tall. Its branches are
slightly drooping, The leaves are lance-shaped and
several times longer than wide. They are from two
REPRODUCTION: Flowering catkins appear an the branch to four inches and drop off in the fall. They are
tips before the leaves. The Black Willow is wind- smooth and dark green on top and hairy underneath.
pnllinated. The leaves would get in the way if they The bark is smooth and the twigs are yellowish to
came before the flowers. dark brown and usually hairy.
ECOLnGICAL RELATIONSHIPS: Like other fresh water REPRODUCTION: Arroyo Willow flowers are in male
plants that grow on the edge of streams and marshes, and female catkins. A catkin is a slender cluster
roots of the Black Willow help to keep the bank stable of flowers. The tree is wind-pollinated so there
and the sail from washing away. are no petals. Arroyo Willow can grow from seeds
or from pieces of willow plant that are in contact
with the soil.
ECOLOGICAL RELATIONSHIPS: Birds use the Arroyo
Willow as a place to nest, gather food, hide from
enemies and rest. Insect galls grow on the leaves
and stems.
MULE FAT Sunflower Family TREE TOSACCO Nightshade Family
Baccharis glutinosa Nicotiana glauca
HABITAT: These shrubs are common in moist places and HABITAT: Tree Tobacco grows well wherever there is
dry stream beds. disturbed soil, and along stream banks that have
been scoured by rushing water.
APPEARANCE: Mule fat is a shrub that grows from six
to twelve feet high. Its leaves are one to four APPEARANCE: Tree Tobacco is a shrub that grows
inches long, lance-shaped, with small teeth at the from six to fifteen feet tall. It has long,
edge. The leaves remain on the plant all year long. slender stems. The leaves are covered with a
To distinguish from willows, look for three long veins whitish bloom. The flowers are long, slender
in the leaves. yellow tubes and many grow an the end of the stems.
REPRODUCTION: Mule fat has clusters of whitish REPRODUCTION: Tree Tobacco grows only by seeds.
flowers arranged at the tip of the branches. Seeds
are carried by the winds. ECOLOGICAL RELATIONSHIPS: The nectar inside the
TREE tob'acco flower is a favorite food for the
ECf)Lnr,ICAL RELATIONSHIPS: Mule fat is not tolerant of Annals hummingbird. , The tube is about the same
salt and is another indicator of fresh water seepage. length as the bird's bill. BUT THE NECTAR AND ALL
Its name comes from the belief that mules like to eat PARTS OF THIS PLANT ARE POISONOUS TO HUMANS. Like
the foliage. the name says, the plant is full of nicotine.
Nicotine is a powerful poison. Tree Tobacco is
native to Argentina and was introduced into
California from Mexico during the period of the
Spanish Missions. It probably would have made it
to North America without help, because it is an
excellent traveler.
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