Tide pool
Tide pools, or rock pools, are rocky pools on the sea shore which are filled with seawater. Many of these pools exist as separate pools only at low tide.
Many tide pools are habitats of especially adaptable animals that have engaged the 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]
Zones from shallow to deep
Tidal pools exist in the intertidal zones. These zones are submerged by the sea at high tides and during storms, and may receive spray from wave action. At other times the rocks may undergo other extreme conditions, baking in the sun or exposed to cold winds. Few organisms can survive such harsh conditions. Lichens and barnacles live in this region.[1] In this zone, different barnacle species live at very tightly constrained elevations. Tidal conditions precisely determine the exact height of an assemblage relative to sea level.
The intertidal zone is periodically exposed to sun and wind, which desiccate barnacles, which need to be well adapted to water loss. Their calcite shells are impermeable, and they possess two plates which they slide across their mouth opening when not feeding. These plates also protect against predation.
High tide zone
The high tide zone is flooded during each high tide. Organisms must survive wave action, currents, and exposure to the sun. This zone is predominantly inhabited by seaweed and invertebrates, such as sea anemones, starfish, chitons, crabs, green algae, and mussels. Marine algae provide shelter for nudibranches and hermit crabs. The same waves and currents that make life in the high tide zone difficult bring food to filter feeders and other intertidal organisms.
Low tide zone
Also called the Lower Littoral Zone. This area is usually under water - it is only exposed when the tide is unusually low. This sub region is mostly submerged, but it is exposed only during low tide often it teems with life and has much more marine vegetation, especially seaweeds. There is also greater biodiversity. Organisms in this zone do not have to be as well adapted to drying out and temperature extremes. Low tide zone organisms include abalone, anemones, brown seaweed, chitons, crabs, green algae, hydroids, isopods, limpets, and mussels. These creatures can grow to larger sizes because there is more available energy and better water coverage: the water is shallow enough to allow more sunlight for photosynthetic activity, and the salinity is at almost normal levels. This area is also relatively protected from large predators because of the wave action and shallow water.
Life in the tide pool
Tide pools provide a home for hardy organisms such as starfish, mussels and clams. Inhabitants must be able to deal with a frequently changing environment — fluctuations in water temperature, salinity, and oxygen content. Hazards include waves, strong currents, exposure to midday sun and predators.
Waves can dislodge mussels and draw them out to sea. Gulls pick up and drop sea urchins to break them open. Starfish prey on mussels and are eaten by gulls themselves. Even black bears sometimes feast on intertidal creatures at low tide.[2] Although tide pool organisms must avoid getting washed away into the ocean, drying up in the sun, or getting eaten, they depend on the tide pool's constant changes for food.[1]
Fauna
The sea anemone Anthopleura elegantissima reproduces clones of itself through a process called longitudinal fission, in which the animal splits into two parts along its length.[3] The sea anemone Anthopleura sola often engages in territorial fights. The white tentacles (acrorhagi), which contain stinging cells, are for fighting. The sea anemones sting each other repeatedly until one moves.[4]
Some species of starfish can regenerate lost arms. Most species must retain an intact central part of the body to be able to regenerate, but a few can regrow from a single ray. The regeneration of these stars is possible because the vital organs are in the arms.[5]
Flora
Sea palms look similar to palm trees. They live in the middle to upper intertidal zones in areas with greater wave action. 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, 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]
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A large sea anemone Anthopleura sola consuming a "by-the-wind-sailor" Velella velella a blue hydrozoan
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Postelsia palmaeformis at low tide in a tide pool
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Sea star, Pisaster ochraceus consuming a mussel in tide pools
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Sea anemones, Anthopleura sola engaged in a battle for territory
See also
References
- 1 2 3 "NPCA Tide pools". npca.org. September 5, 2008. Retrieved 2008-09-06.
- ↑ "Botanical Beach Tide Pools". juandefucamarinetrail.com. September 5, 2008. Retrieved 2008-09-06.
- ↑ "Sea Anemones". homepages.ed.ac.uk. September 5, 2008. Retrieved 2008-09-06.
- ↑ "Snakelocks Anemone". British Marine Life Study Society. September 5, 2008. Retrieved 2008-09-06.
- ↑ "Biology:Regeneration". Dana Krempels, Ph.D. September 5, 2008. Retrieved 2008-09-06.
- ↑ Blanchette, Carol Anne (1995). "Seasonal patterns of disturbance influence recruitment of the sea palm, Postelsia palmaeformis". Department of Zoology, Oregon State University. Retrieved 13 July 2007.
- ↑ Paine, R.T. (1998). "Habitat Suitability and Local Population Persistence of the Sea Palm Postelsia palmaeformis". Ecology 69 (6): 1787–1794. doi:10.2307/1941157. JSTOR 1941157.
External links
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