Time Frame
1hour

Fifth Grade Indicators

5-1.1	Identify questions suitable for generating a hypothesis.
5-1.3	Plan and conduct controlled scientific investigations, manipulating one variable at a time.
5-1.6	Evaluate results of an investigation to formulate a valid conclusion based on evidence and communicate the findings of the evaluation in oral or written form.
5-2.2	Summarize the composition of an ecosystem, considering both biotic factors (including populations to the level of microorganisms and communities) and abiotic factors.
5-2.3	Compare the characteristics of different ecosystems (including estuaries/salt marshes, oceans, lakes and ponds, forests, and grasslands).
5-2.4	Identify the roles of organisms as they interact and depend on one another through food chains and food webs in an ecosystem, considering producers and consumers (herbivores, carnivores, and omnivores), decomposers (microorganisms, termites, worms, and fungi), predators and prey, and parasites and hosts.
5-2.5	Explain how limiting factors (including food, water, space, and shelter) affect populations in ecosystems.

BACKGROUND
Key Points
This section will give you the main information you should know to teach the activity

• A food chain is a series of organisms linked together in order of who eats whom that shows how energy moves through one segment of a community.
• All the energy in a food chain comes from the sun.
• The organisms in a food chain occupy different niches. Plants are producers, because they can make their own food from the energy of the sun. Animals are consumers, because they can only get their food by eating other organisms. The species at the top of a food chain who is not eaten by anything else is known as an apex consumer.
• The energy produced by plants will not transfer in its entirety across the food chain to the apex consumer. Only 10 to 20% of the energy received by one consumer will pass to the next consumer. Some of the energy will be lost in indigestible food parts and some will used by the various organisms in the food chain to perform their life functions (breathing, moving, growing, etc.). The amount of energy contained in the apex consumer is always less than the amount of energy collected from the sun by the producers. For this same reason, there are always less organisms the higher you go up a food chain because there is less energy to sustain them. There will always be less consumers than producers, and less apex consumers than primary consumers.

Detailed Information
This section gives more in-depth background to increase your own knowledge, in case you want to expand upon the activity or you are asked detailed questions by students.

This activity will focus on one of South Carolina's many aquatic environments- the saltmarsh tidal creek. A South Carolina tidal creek is a creek in a saltmarsh that has both freshwater and saltwater. The freshwater flows down the creek from inland areas and meets ocean water that floods into it during high tide. In tidal creeks the freshwater and saltwater mix together to form brackish water. A tidal creek has a variety of plants and animals, some of which normally live in freshwater, some in saltwater and some that can live in both. For this reason, the tidal creek is a good environment to use for a food chain activity.

There are many different possible food chains in a tidal creek, all of which can be taking place at the same time. This activity will focus on potential food chains consisting of only six organisms. The two food chains in this activity will always start with diatoms and end with river otters. Diatoms are small, single-celled algae that live in water. The diatoms in this food chain rest on the bottom of the tidal creek, however many other types of diatoms float in the water. Diatoms use sunlight to make food through the process of photosynthesis. Since diatoms produce their own food they are called producers. Diatoms are the first stage, or trophic level, of these  food chains. The next link in the chain can be fiddler crabs or marsh snails. They are herbivores, or primary consumers. A herbivore, or primary consumer, is an animal that only eats plants. Fiddler crabs crawl around on the mud when the tide is out. They scoop up the mud and sift out the diatoms. Marsh snails crawl through the marsh and feed on diatoms and other algae. Marsh snails are prey to blue crabs. The next link in the chain is diamondback terrapins because they eat fiddler crabs and marsh snails, or blue crabs because they eat marsh snails. Terrapins and blue crabs are carnivores (they eat other animals) and, in this food chain, are considered to be secondary consumers. Secondary consumers are animals that eat herbivores. Diamondback terrapins are small turtles that swim around in the salt marsh. These turtles and blue crabs are both prey to river otters. River otters are considered to be tertiary consumers. In this food chain, they are also apex consumers. An apex consumer is the final link in a food chain. Some examples of possible food chains are as follows: diatoms- fiddler crabs- diamondback terrapins- river otters. Diatoms- marsh snails- diamondback terrapins- river otters. Diatoms- marsh snails- blue crabs- river otters.

     The terms "food chain" and "food web" are often easily confused. Although both are grounded in similar theory, a food chain is very different from a food web. A food chain is a simplified illustration of the predator-prey relationships between a few organisms within an environment. A food chain depicts the transfer of energy from trophic level (feeding level) to trophic level. A food web, on the other hand, shows the predator/prey relationships of many organisms in an environment. A food web is the elaborate, interconnected feeding relationships of who eats whom in an ecosystem. An illustration of a food web, with lines drawn between predators and prey, creates a web of relationships. In fact, a food web may have many different food chains embedded in it.

If we follow the energy that flows through a food chain, we discover that much of the original energy from the sun is lost from one step in the food chain to the other; thus the shape of an energy pyramid. The loss of energy starts with the plants. Plants are not very efficient at converting the sun’s energy into food. The sun provides solar energy to plants. Plants change this energy through the process of photosynthesis into food (starch). Plants are only able to convert 1-3% of the light that falls on them into food.

Animals are not very efficient either. They are not able to digest 100% of the energy stored in the foods they eat. A lot of the energy is lost via indigestible pieces and in the production of heat. In fact, the amount of energy that moves from one step in the food chain to another is only about 10-20%. Eventually the energy runs out. The food chain cannot go on forever. Some food chains can support up to five trophic levels, while others can only support two or three.

Because there is less energy available at each feeding level (trophic level), there are also fewer individual organisms at each level, as well. Therefore, there are fewer secondary consumers than primary consumers, and fewer primary consumers than autotrophs. Scientists often depict the flow of energy within a community or ecosystem as a pyramid of energy. The triangular shape represents two things:

1. As you move up the food chain, more of the original energy from the sun is lost
2. As you move up the food chain, there are fewer organisms at each feeding level (trophic level).

It takes a lot of energy and a lot of organisms at the bottom of a food chain to support a few organisms at the top.

South Carolina Aquarium Spotlight
Diatoms (class Bacillariophyceae)
Diatoms are very small, single-celled algae. Algae are aquatic plants that use the sun’s energy in the process of photosynthesis to create sugars for food energy and oxygen. Diatoms have an external skeleton made of silica that is divided in two pieces. The pieces can split and form two new diatoms, which is one way that they can reproduce. The shells of diatoms come in a variety of sizes and shapes and are quite beautiful in their designs. A microscope is needed, though, to see them.     

Fiddler Crab (Uca pugilator)
Fiddler crabs are small crabs, usually less than two inches in size, that are found predominately in the intertidal zone of the salt marsh. Fiddler crabs are easily recognizable, because the males have one very enlarged pincer, or front claw. They live along the sandy edges of salt marshes. They dig burrows up to two feet deep to escape predators and to protect them when  the high tide covers their burrows. They eat bacteria, diatoms (algae), and detritus. Their predators include blue crabs, terrapins, fish, raccoons, clapper rails and other marsh birds.  

Marsh Periwinkle (Littorina irrorata)
Marsh periwinkle snails are gray to white in coloration and grow to be 1 ¼ in long. They live in salt marshes on blades of Spartina grass. They eat detritus and algae, including diatoms, that is deposited on the grass by the tidal water. Their radula, which is similar to a tongue, can have up to 300 rows of teeth on it. They use the teeth to scrape algae and detritus off of the marsh grasses. Their predators include blue crabs and shore birds. Periwinkles are also eaten by humans as escargot. 

Blue Crab (Callinectes sapidus)
Callinectes means "beautiful swimmer" and sapidus means "tasty", so their scientific name means tasty beautiful swimmers. An adult blue crab can have a shell nine inches wide. Blue crabs have ten legs with the back two modified into paddle shaped swimming legs. Their claws are bright blue and their shell color is olive-green. Blue crabs live in brackish estuaries and salt marshes, but may wander into freshwater. They eat fiddler crabs, marsh periwinkles, shrimp, small fish, and animals that have died. Blue crabs are eaten by octopus, fish, gulls, herons, and humans. These crabs are a very important commercial species, the annual catch ranging from 20-80 million pounds.  

Diamondback Terrapin (Malaclemy terrapin centrata)
Diamondback terrapins are turtles that grow to be four to nine inches long and have shells with bold patterns of dark rings on them. They swim in the waters of salt marshes, and are the only turtles regularly found in brackish water. They can often be found sunbathing on a log or the banks of a marsh. These turtles eat crabs, snails, insects, fish and sometimes worms. Their predators include raccoons, crows and humans.  

River Otter (Lontra Canadensis)
River otters are mammals with an elongate body, webbed toes with claws and a thick coat of brown fur. They can grow to a length of three to four feet and a weight of 11-23 pounds. River otters live in aquatic habitats from coastal estuaries and lower river systems to mountain streams, where they eat fish, crayfish, crabs, turtles, amphibians and even bird eggs. Young otters are prey to bobcats and alligators. River otters can swim up to 12 mph and can hold their breath for four to eight minutes.

PROCEDURES
Materials

• Medium-sized brown paper bags
• Scissors
• Small round disc-shaped objects such as buttons, popcorn, cutout paper, etc.
• Animal signs (1 for each student); Based on a class size of 32: 18 diatom signs, 4 fiddler crabs, 4 marsh snail signs, 2 diamondback terrapin signs, 2 blue crab signs, 2 river otter signs.

ASSESSMENT
Assessment: A Language and Art Link
Explain to students that scientists often draw the feeding structure of a community or ecosystem in the shape of a pyramid (or triangle). Students will then use art skills to draw a triangle on a piece of paper and then draw organisms in the correct places on the triangle as they would fit together in a food chain. For example, they might draw diatoms at the base of the triangle, periwinkle snails at the next level up, blue crabs at the next level up and river otters at the peak. At the bottom of their drawings, underneath the energy pyramid, students will answer the following question using full sentences: Why do you think scientists draw illustrations showing how energy flows through a food chain in the shape of a pyramid (triangle)?

Scoring rubric: (Out of 12 points):

RESOURCES
Teacher Reference Books
Audesirk, Gerald and Teresa Audesirk. Biology: Life on Earth. Macmillan Publishing Company, New York, 1993.
Do not be afraid of college textbooks. They are often the best sources for detailed information on general subjects such as biology and food chain ecology.

Hickman, Cleveland, Allan Larson and Larry Roberts. Integrated Principles of Zoology. Wm. C. Brown Publishers, 1996.
Another college textbook and another good source of information on animals.

Keener-Chavis, Paula and Leslie Reynolds Sautter. Of Sand and Sea: Teachings From the Southeastern Shoreline, SC Sea Grant Consortium, Charleston, 2000.
An excellent look at the biotic and abiotic factors that characterize the Coast and Ocean regions of South Carolina including information on the salt marsh. (Copies of this book may be obtained from the Charleston Math & Science Hub, 66 George Street, Charleston, SC 29424).

Meyer, Peter. Nature Guide to the Carolina Coast, Avian-Cetacean Press, Wilmington, NC, 1998. 
An informative look at the characteristics and wildlife of the Coast and Ocean regions of South and North Carolina, including much on the Salt Marsh.

Raven, Peter H., Ray F. Evert and Susan E. Eichhorn. Biology of Plants, W.H. Freeman and Company, New York, 1999.
Though admittedly college textbooks are often a little too dry and in-depth, with their text, photographs and illustrations they are often the best resources for finding information on a particular subject. This college textbook is an excellent resource for anyone wanting to know more about the biology of plants.

Ricklefs, Robert E. and Gary L. Miller. Ecology, W.H. Freeman Company, 1999.
This college textbook is a great resource for finding out how wildlife communities interact with each other as well as the abiotic factors of their environment. 

Teal, John and Mildred. Life and Death of the Salt Marsh, Ballantine Books, New York, 1969.
An in-depth look at one of the most important and productive ecosystems in South Carolina, with chapters on spartina grass and the other marsh plants and their effect on the surrounding wildlife communities.

Teacher Reference Videos
Attenborough, Sir David. Trials of Life (Video series), Turner Home Entertainment, 1995.
This is the most famous work of heralded nature documentary filmmaker Sir David Attenborough. This series shows the various behaviors animals have adapted in order to survive, including much on feeding.  Though the entire series may be too advanced for elementary students, it is a wonderful resource for teachers.

Teacher Reference Websites
Animal Planet 
http://animal.discovery.com
Information and interactive games on a variety of animals.

Food Chains: Prey and Predators
http://www.cas.psu.edu/DOCS/WEBCOURSE/WETLAND/WET1/main.html
This website created by  Pennsylvania State University contains activities and information on food chains.

Student Reference Books
Bennett, Paul. Nature's Secrets: Catching A Meal. Thomson Learning, New York, 1994.
Uses photographs and simple text to show the variety of different adaptations animals have developed to help them catch their prey.

Brooks, Bruce. Predator! Farrar Straus Giroux, New York, 1991.
A more in-depth look at how animals get the food they need that uses photographs and text.

Eyewitness Books: Plant, Alfred A. Knopf, Inc, New York, 1988.
These very attractive books use photographs, illustrations and text to teach the readers about plants and trees. Contains every thing from photographs that show how a seedling grows to photographs that show how fallen leaves decompose.

Eyewitness Science: Ecology, Dorling Kindersley, New York, 1993.
These very attractive books use photographs, illustrations and text to teach the readers about ecology, communities and the interactions of plants and animals. Includes information on food chains and producers and consumers.

Kalman, Bobbie D. How A Plant Grows, Crabtree Publishing Company, 1996.
Text for students on plants that includes information on photosynthesis and the importance of plants to food chains. Includes experiment activities.

Matthews, Downs. Wetlands, Simon & Schuster Books, New York, 1994.
This book describes different types of wetlands and the plants and animals found there.

Curricula
Aquatic Project WILD
Aquatic Project WILD is an interdisciplinary curriculum for K-12 teachers on aquatic wildlife and ecosystems. The activities cover a broad range of environmental and conservation topics. For information on signing up for workshops, call the South Carolina Department of Natural Resources at (803) 734-3814.

For more information click on:
www.dnr.state.sc.us/cec/educate/edu1.html#teacher

Project WILD
Project WILD is an interdisciplinary curriculum for K-12 teachers on a broad range of environmental and conservation topics. For information on signing up for workshops, call the South Carolina Department of Natural Resources at (803) 734-3814.

For more information click on:
www.dnr.state.sc.us/cec/educate/edu1.html#teacher

Field Trip Sites
Food Chains
One of the best places to see "living food chains" is in salt marshes. The Spartina grass that is so important to this habitat as the base of the food chain can be seen everywhere. Many other species (wading birds, fiddler crabs, oysters, periwinkle snails) can be easily observed participating in these food chains. Below are listed some of the sites where salt marshes are accessible to students.

• Cape Romain National Wildlife Refuge
  Located near Awendaw, this refuge preserves 64,000 acres of marshes, open water and barrier island. The Sewee Visitor and Environmental Education Center is an interpretive center for the public and school groups that is open Tuesday through Sunday. A boat tour to undeveloped Bulls Island is also available that allows a close up view of the marsh. For more information on Cape Romain National Wildlife Refuge call (843) 928-3368. For information on the boat trip to Bulls Island call (843) 881-4582.
  
  
• Ft Johnson Marine Resources Center
  Located on Charleston Harbor, this division of the South Carolina Department of Natural Resources offers interpretive programs that take students directly into a salt marsh. For information on making arrangements for a program call (843) 762-5437.
  
  
• ACE Basin National Estuarine Research Reserve
  This reserve, located between Edisto Beach and Hunting Island, contains 12,000 acres of tidal marshes and estuarine waters. The area is rich in wildlife: fish, crustaceans, birds and even mammals can all be found here. Boat tours are available through this area for high school and college students. For more information call (843) 762-5032.

If you are aware of other books, videos, websites, curricula, fieldtrip destinations or other materials that would make excellent resources for this activity, please e-mail them to us for inclusion in this list at: Education@scaquarium.org