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Material Type: Paper; Professor: Pogge; Class: Ecology Of San Francisco Bay; Subject: Biology; University: City College of San Francisco; Term: Spring 2006;
Typology: Papers
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Bio 25: San Francisco Bay Ecology Professor Crima Pogge
Oliver Hickman 5 March 2006 words: ~ Fig 1
Brine Shrimp Filling a gap in the food chain between the plankton and larger filter feeders, small fish and birds are the brine shrimp. Brine shrimp earn their common name from their fairly unique ability to live in a wide range of salinities, from nearly freshwater to saturated brine (MacGinite 1968). An ability, along with its fast reproduction cycle and their eggs' ability to survive dessication, which allows them to inhabit the very harsh environment of drying salt ponds where it finds little competition and is able to escape some predation by animals who cannot tolerate the high levels of salt (Brown 1960). The brine shrimp belong to the subclass Branchiopoda , from 'branch' meaning gill, and 'poda' meaning feet (Borror 1988), which are characterized by the fact that their appendages which are used for used for locomotion (and feeding as discussed later) are used for respiration. Habitat Ranging throughout the Western United States (Henger 425), brine shrimp prefer shallow, saline waters and have adapted to the hypersaline waters of drying saltwater ponds(Pearse 1987) (an adaptation that allows them to thrive in commercial salt ponds (SFBCDC 2005)). Though Artemia (the genus in which brine shrimp are found) is the only Branchiopoda adapted to salt water, all have adapted to living in seasonal ponds, again an adaptation that allows them to escape predation from populations of aquatic animals who cannot tolerate dessication. (Hickman 1967) Though wetlands in the San Francisco Bay are threatened and do not exist to the extent that they once did the brine shrimp's continued existence is not threatened because of its fast reproductive cycle. Brine shrimp may be found in any tidal marsh waters in the Bay. Reproduction and life cycle Generally reproduction is sexual with the male using his prehensile antennae to clasp onto the female during copulation (Fig. 3) (Hickman 1967), which may last as long as several days, and can
other functions the rhythmic beating of the limbs pumps food and watter through the median gully where the food is strained out by the limbs and retained in the food groove and later moved up to the mouth, broken into smaller pieces or discarded. (Borradale 1967) Digestion begins with the mandibles reducing the size of food particles and with the addition of a sticky secretion from glands near the mouth. The secretion helps hold the bolus together while secretions all along the digestive tract add digestive enzymes (Brown 1960). The food is passed into the mouth, through esophagus and into the combined stomach and intestine. Nutrients is taken up all along the digestive tract before the waste is passed on through the anus.(Borradale 1967) Adaptations to Hypersaline Environments Urine in the brine shrimp is used in osmotic regulation and is hypertonic (Hickman 1967), additionally the exoskeleton, though very thin is quite resistant to osmosis (Brown 1960) and thus helps the animal maintain its salt levels. The brine shrimp is able to absorb water through its digestive tract and to expel salt through special glands in the gills, both of which aid in osmoregulation (Hegner 1968). As mentioned above the eggs of brine shrimp are capable of dessication and may survive upto five years before reanimation. The eggs respond to salinity levels in the determination of hatching and thus will not hatch when the salinity is too high but will wait until fresher water is present, often from rains a following year (Pearse 1987). This too helps the population to survive extreme salinities. Other Physiology The elongated body is covered with a thin exoskeleton and usually consists of 19 segments, the first 11 of which have pairs of appendages, the next two which are often fused together carry the reproductive organs and finally the last lead to the tail (Hickman 1967). Though brine shrimp have a true head, thorax and abdomen, the delineation is often difficult to detect and so the body parts are usually termed as head and trunk (Brown 1960).
The rudimentary, compound eyes, set at the end of short stalks perform little more detecting light direction and intensity, though they may be able to aid in orientation based on the polarization of sunlight and are keen at detecting light movement which might indicate the advancement of predators. (Hickman 1967) Locomotion is achieved by the rhythmic beating of the appendages acting in pairs. Steering is accomplished by use of the telson (a type of flattened tail). The telson may also be used for rapid movements for escaping prey (Brown 1960). Respiration occurs on the surface of the legs through fibrous, feather like plates (lamellar epipodites) (Hickman 1967). In addition to locomotion, feeding and respiration, the legs or appendages serve to aid in the circulation of blood despite the existence of a long tube like heart. The blood which uses hemoglobins as its primary oxygen fixing pigment and lends the brine shrimp its pink color, does not flow through veins but rather flows in the hemocoelic spaces of the head and throughout the trunk and appendages (Brown 1960). The nervous system consists of two parallel chains leading from a small brain down length of the body and is cross connected (like a ladder) in each segment or somite.(Brown 1960) Many functions, including swimming, digestion and reproduction are not controlled through the brain though the brain may control some regulation or synchronization of these functions. Autonomy, the voluntary shedding or dropping of parts of the body for defense, is controlled locally along the nervous system aswell. (Hickman 1967) Human interactions Though human encroachment in the San Francisco Bay has dramatically reduced the amount of wetland habitat and had a dramatic impact on other marine organisms, the adaptability and rapid reproductive cycle of brine shrimp has lead to their continued existence. One of the encroachments
Images Fig. 2: The eggs that this female are carrying may be seen clearly through the clear walls of the ovisac. Fig. 3: The male of this mating pair may hold on for several days using his prehensile antenna.
Works Cited Print Sources Borradale, L. A. & F. A. Potts. The Invertebrata, A Manual for the use of Students. Cambridge Massachusetts: Cambridge University Press, 1967. Borror, Donald J. Dictionary of Word Roots and Combining Forms, Mountain View, California: Mayfield Publishing Company, 1988. Brown, Jr. Frank A., Ed. Selected Invertebrate Types, New York, New York: John Wiley & Sons, Inc. 1960 Buchsbaum, Ralph, Lorus J. Milne. The Lower Animals, Living Invertebrates of the World. Garden City, New York: Doubleday & Company, N.D. Grasse, Pierre-Paul, ed. Larousse Encyclopedia of the Animal World. New York, New York: Larousse & Co. Inc., 1975. Hegner, Robert W. & Joseph G. Engeman. Invertebrate Zoology 2nd^ ed. New York, New York: MacMillan, 1968. Hickman, Cleveland P. Biology of the Invertebrates. St. Louis, Missouri: C.V. Mosby Company, 1967. MacGinite, G.E. & Nettie MacGinite. Natural history of Marine Animals 2nd^ ed. New York, New York: McGraw-Hill, 1968. Pearse, Vicki, et al. Living Invertebrates. Palo Alto, California: Blackwell Scientific Publications,
On-line Sources California, Department of Water Resources “Agricultural Drainage Research Development and Demonstration (RD&D) Activities” 10 May 2007: n.pag.. On-line. Internet 5 March 2008. Available WWW: http://www.sjd.water.ca.gov/drainage/ifdm/download/index.cfm. California, San Francisco Bay Conservation and Development Commission “Findings and Policies Concerning Salt Ponds Around the Bay” August 2005: n.pag. On-line. Internet. 5 March 2008. Available WWW: http://www.bcdc.ca.gov/index.php?p=633&more=1&page=28.