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Tide pools are rocky pools by oceans that are filled with seawater. Tide pools are habitats of uniquely adaptable animals that have engaged the special attention of naturalists and marine biologists, as well as philosophical essayists: John Steinbeck wrote in The Log from the Sea of Cortez, "It is advisable to look from the tide pool to the stars and then back to the tide pool again."1
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The life in tide pools
Tide pools provide a home for hardy organisms. Inhabitants must be able to cope with a constantly changing environment — fluctuations in water temperature, salinity, and oxygen content. Huge waves, strong currents, exposure to midday sun and predators are only few hazards that tide pools animals should endure to survive. Waves crashing on rocks threaten to dislodge mussels and draw them out to sea. Sea gulls are picking up and dropping down sea urchins to break them open. Starfishs prey on mussels and make a good lunch for gulls themselves. Even such big predators as Black bears sometimes feast on tide pools creatures at low tide.2Although organisms here must struggle to survive—avoid getting washed away into the ocean, drying up in the sun, getting eaten—they depend on the tide pool's constant changes for food.1
Tide pool zones, from shallow to deep
- Spray/splash zone—This zone gets spray during high tides, and water during storms. At other times the rocks bake in the sun, or suffer cold winds. Only few organisms can survive such harsh conditions. Lichens and barnacles live in this region.1
Within this zone, different species of barnacle live in very tightly constrained locations, allowing the exact height of an assemblage above or below sea level to be precisely determined.
Since the intertidal zone periodically desiccates, barnacles are well adapted against water loss. Their calcite shells are impermeable, and they possess two plates which they can slide across their aperture when not feeding. These plates also protect against predation.verification needed
- High and mid tide zone — the high tide zone is flooded for few hours every day during each high tide. The organisms there must survive wave action, currents and exposure to the sun. The high tide zone is inhabited by sea anemones, starfishes, chitons, crabs, green algae, and mussels. Marine algae can provide shelter for such organisms as nudibranchs and hermit crabs. The same waves and currents, which make the life in the high tide zone so difficult, bring in food to the filter feeders and other tide pool animals.
- Low tide zone — This subregion is mostly submerged - it is only exposed at the point of low tide and for a longer period of time during extremely low tides. This area is teeming with life; the most notable difference of this subregion compared to the other three is that there is much more marine vegetation, especially seaweeds. There is also a great biodiversity. Organisms in this zone generally are not well adapted to periods of dryness and temperature extremes. Some of the organisms in this area are abalone, anemones, brown seaweed, chitons, crabs, green algae, hydroids, isopods, limpets, mussels, nudibranchs, sculpin, sea cucumber, sea lettuce, sea palms, sea stars, sea urchins, shrimp, snails, sponges, surf grass, tube worms, and whelks. Creatures in this area can grow to larger sizes because there is more available energy in the localised ecosystem and because marine vegetation can grow to much greater sizes than in the other three intertidal subregions due to the better water coverage: the water is shallow enough to allow plenty of light to reach the vegetation to allow substantial photosynthetic activity, and the salinity is at almost normal levels. This area is also protected from large predators such as large fish because of the wave action and the water still being relatively shallow.
Tide Pool Fauna
Sea anemone, Anthopleura elegantissima clone to reproduce. The process calls longitudinal fission. Few hours (or days) later after longitudinal fission has began instead of one sea anemone there will be two.3
Sea anemones, Anthopleura sola are often seen to fight a war for territory. The white tentacles are fighting tentacles called acrorhagi. The acrorhagi contain stinging cells. The fighting sea anemones will continue to sting each other over and over again. After war ends one of them should move.4
Some species of starfish have the ability to regenerate lost arms and can regrow entire new arms in time. Most species must have the central part of the body intact to be able to regenerate, but a few can grow an entire starfish from a single ray.The regeneration of these stars is possible due to the vital organs kept in their arms.5
Tide pool flora
Sea palms look very much as palm trees do. They live in the middle to upper intertidal zones in very wavy areas. High wave action may increase nutrient availability and moves the blades of the thallus, allowing more sunlight to reach the organism so that it can photosynthesize. In addition, the constant wave action removes competitors, such as the mussel species Mytilus californianus. Recent studies have shown that Postelsia grows in greater numbers when such competition exists - a control group with no competition produced fewer offspring than an experimental group with mussels; from this it is thought that the mussels provide protection for the developing gametophytes.6 Alternatively, it is thought that the mussels may prevent the growth of competing algae such as Corallina or Halosaccion, allowing Postelsia to grow freely after wave action removes the mussels.7
See also
References
- ^ a b c "NPCA Tide pools", npca.org (September 05, 2008). Retrieved on 6 September 2008.
- ^ "Botanical Beach Tide Pools", juandefucamarinetrail.com (September 05, 2008). Retrieved on 6 September 2008.
- ^ "Sea Anemones", homepages.ed.ac.uk (September 05, 2008). Retrieved on 6 September 2008.
- ^ "Snakelocks Anemone", British Marine Life Study Society (September 05, 2008). Retrieved on 6 September 2008.
- ^ "Biology:Regeneration", Dana Krempels, Ph.D. (September 05, 2008). Retrieved on 6 September 2008.
- ^ Blanchette, Carol Anne. "Seasonal patterns of disturbance influence recruitment of the sea palm, Postelsia palmaeformis" Department of Zoology, Oregon State University. 1995. 13 July 2007 <http://www.ingentaconnect.com/els/00220981/1996/00000197/00000001/art00141>.
- ^ Paine, R.T. "Habitat Suitability and Local Population Persistence of the Sea Palm Postelsia palmaeformis." Ecology, Vol. 69, No. 6. 1998. 13 July 2007 <http://links.jstor.org/sici?sici=0012-9658(198812)69:6%3C1787:HSALPP%3E2.0.CO;2-W>.
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