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Symbiotic Relationships in the Kelp Forest Ecosystem

by Rory Bratcher, Demand Media Google
    Giant kelp thrives in cold waters with temperatures ranging from 50 to 60 degrees Fahrenheit (10 to 15.5 degrees Celsius).

    Giant kelp thrives in cold waters with temperatures ranging from 50 to 60 degrees Fahrenheit (10 to 15.5 degrees Celsius).

    Giant kelp forms dense, underwater forests in coastal waters along western North America, South America, South Africa, Southern Australia and New Zealand. These forests have layers, just like a rainforest, and also experience seasonal variations in plant density. Some species within the kelp forest have developed close associations with one another resulting in an interdependence that has direct impacts on one or both organisms.

    Sea Otters and Kelp

    The mutually beneficial symbiotic relationship between sea otters and kelp is essential to the health of the entire kelp forest ecosystem. Sea urchins found in kelp forests typically eat drift kelp, but when it is scarce they eat living kelp plants. In some instances, entire kelp forests can disappear. However, s

ea otters feed upon sea urchins, reducing the intensity of grazing pressure on the kelp. This allows the kelp to develop dense populations that, in turn, provide the otters with cover that protects them from predators and strands that anchor them in place while they rest.

    Moray Eel and Red Rock Shrimp

    Red rock shrimp cluster in groups on the rocky bottom of the kelp forest and provide cleaning stations for other species such as garibaldi and spiny lobsters. But they have a special, symbiotic relationship with the California moray eel. These shrimp often live in the same crevice as their partner eel. The shrimp rid the moray of dead skin and parasites. In return, the eel provides the shrimp with protection from predators.

    Sunburst Anemone and Zooxanthellae

    The sunburst anemone is often found attached to rocks within the kelp forest. These anemones have endosymbiotic zooxanthellae, or internal dinoflagellate algae. This relationship provides benefits for both species. The zooxanthellae are protected within the tissues of the anemone and receive carbon dioxide and nitrogen from the anemone's metabolism, which are used for photosynthesis. In exchange, the zooxanthellae provide the anemone with the oxygen and glucose formed during photosynthesis, which it uses to fuel its metabolic processes.

    Bat Star and Annelid Worms

    The bat star is one of the most common sea stars in the kelp forests along the west coast of the United States. A type of annelid worm that is able to live freely in the mud may also be found living in the grooves that run along the arms of a bat star. These commensal worms are able to scavenge food scraps from the bat star and may derive some protection as well, but do not benefit nor harm their host.

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    About the Author

    Rory Bratcher is a writer specializing in travel with children and aquatic biology. She chronicles her adventures in family travel online. Bratcher has more than 11 years of writing experience with work featured on websites including the U.S. Bureau of Reclamation's Watershare site. She holds a Master of Science in biology from Texas Christian University.

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