Marine Life of Californias Rocky Shores Image 23
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Marine Life of California's Rocky Shores (Image 23)

June 28, 2010
Marine Life of California's Rocky Shores (Image 23) Aggregating Anemone (Anthopleura elegantissima) clone with the lower half group underwater (and open) and the upper half above water (and closed). At low tide these anemones pull in their tentacles and become a lump on the rock. The sides of their bodies are covered with adhesive structures that attach bits of shell, rock and seaweed. When closed up, the attached material causes the anemone to look like a bed of crushed shell, but when you touch it, the anemone (whose body can be up to 80 percent water) releases water and feels gushy. The bits of debris probably reflect light to keep the anemone cooler and reduce water loss at low tide since the animal does not have a protective shell. The debris could also be dispersing wave action as the tide ebbs and flows each day. A. elegantissima live in the Mid Tide Zone, the area between sea level and two and a half feet, where the rocks are only left dry at the low, low tide (see "More about this Series" below, to learn more about the zones). [Image 23 in a series. See Image 24.] More about this Series This series of images examines the various marine life that can be found in the different sea levels, or zones, of the rocky shores of the California coast. The images were photographed by Genevieve (Genny) Anderson of the Biological Sciences Department, Santa Barbara City College, as part of her ongoing research on the subject. Rocky shores provide a stable substrate for plant and animal life or organisms, as opposed to sandy beaches where the substrate (sand) is constantly moving. When the tide goes out then the influences of the air and weather (sun, rain, snow) begin to play important roles--more with the higher zones. At any tide level on a rocky shore, a pool of water--called tidepools--can be left with the receding tide. These pools provide welcome ocean water for marine life left high and dry with a receding tide. The pools highest in the intertidal may become very hot due to the sun which may not be comfortable for some species. The pools closest to the low tide have the least influence from the air and weather and thus the greatest variety of marine life. These tidepools often mirror what is actually subtidal (below the lowest low tide, as opposed to intertidal which is between the tides). As the water goes down, most of the ocean creatures go out with it, but some can't move and are left on rocks. These creatures must be adapted to withstand not only the dryness of their area, but waves, storms, wind and rain. It is their ability to withstand dryness, and their interactions with each other (eating, being eaten, competing for space, and reproducing) that determine who dominates within the rocky intertidal areas. In examining the marine life of the exposed rocky surfaces of California's shores, it is easiest to look at these rocky surfaces where they live in "zones." Above five feet, the surface is covered only by the highest high tide and thus dry three-quarters of the day. This is called the "Splash" Zone. Then, between five feet and two and a half feet, the surface is covered alternately by both high tides so it is dry between the high tides--about half a day. This band is called the "High Tide" Zone. Between sea level and two and a half feet the rocks are only left dry at the low, low tide. This area is thus dry only a quarter of each average day and called the "Mid Tide" Zone. Then there is what we call the "Low Tide" Zone, the area below sea level that is exposed for only a few hours every few weeks at special "minus" tides (remember, zero sea level is the average of the low, low tides). To learn more about Genevieve (Genny) Anderson's research on marine life along California's rocky shores, visit her Web page, "California Tidepools (Rocky Shores)." Anderson, who has been a teacher of Marine Biology and Biological Oceanography at Santa Barbara City College for over thirty years, has other interesting lesson plans and lecture material available on her Web site, Here.

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