Abstract
Laboratory experiments were conducted to assess the growth of Corbicula fluminea Müller (1774) fed mixed diets of the green alga Ankistrodesmus and five artificial foods (nine-grain cereal, rice flour, rye bran, denatured brewer's yeast and Ralston Purina trout chow). Clams lost weight after 30 days on each artificial diet; however, weight losses were significantly less than those of control clams which were not fed (p < 0.05). In contrast, clam growth was positive in each treatment which included Ankistrodesmus. There was no significant difference in the tissue growth of clams fed on an Ankistrodesmus monoculture and Ankistrodesmus supplemented with each artificial diet (p > 0.2). Therefore, we conclude that all of the artificial diets evaluated were of nutritional value. However, the alga Ankistrodesmus appears to be a superior food item. In subsequent experiments, clams were fed on diets consisting of various combinations of six genera of green algae (Pedinomonas, Ankistrodesmus, Chlamydomonas, Chlorella, Scenedesmus, and Selenastrum). All trialgal combinations of Chlamydomonas, Chlorella, Scenedesmus, and Ankistrodesmus and a dialgal culture of Chlamydomonas and Chlorella resulted in strong positive tissue growth. No other dialgal or monoalgal culture resulted in similar growth. Cultures of Selenastrum were found to be toxic, and their filtrate was determined to inhibit Corbicula filtration.
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References
American Public Health Association, 1975. 14th Ed., Amer. Wat. Wks. Ass., & Wat. Pollut. Cont. Fed., Washington, D.C., 1193 pp.
Armstrong, D. A., D. Chippendale, A. W. Knight & J. E. Colt, 1978. Interactions of ionized and unionized ammonia and short-term survival and growth of the prawn larvae, Macrobrachium rosenbergii. Biol. Bull. 154: 15–31.
Britton, J. C. & B. Morton, 1979. Corbicula in North America: the evidence reviewed and evaluated. pp. 249–288. In J. C. Britton (ed.), Proc. 1st Int. Corbicula Symp. Texas Christian University Research Foundation Publication, Texas.
Brody, S., 1945. Bioenergetics and Growth. New York Hafner Publishers, 1023 pp.
Castagna, M., 1975. Culture of the Bay Scallop Argopecten irradians in Virginia. Mar. Fish. Rev. 37: 19–24.
Castell, J. D. & D. J. Trider, 1974. Preliminary feeding trials using artificial diets to study the nutritional requirements of oysters (Crassostrea virginica). J. Fish. Res. Bd. Can. 31: 95–99.
Davis, H. C. & R. R. Guillard, 1958. Relative value of ten genera of microorganisms as food for oyster and clam larvae. Fish Bull. U.S. 58: 293–304.
Dunathan, J. P., R. M. Imgle & W. K. Haven, 1969. Effects of artificial foods on oyster fattening with potential commercial applications St. Florida, Dept. Nat. Resour., Tech. Ser. 58: 1–39.
Environmental Protection Angency (EPA), 1975. Methods for acute toxicity tests with fish, macroinvertebrates and amphibians. U.S. Envir. Prot. Ag. Ecol. Res. Ser. EPA. 660 3-75-009: 61 pp.
Epifanio, C. E., C. M. Logan & C. Turk, 1975. Culture of six species of bivalve in a recirculating seawater system. In G. Persoone & E. Jaspers (eds.) 10th Europ. Symp. Mar. Biol. Ostend, Belgium, September 17–23, 1975. Universal Press, Welteren, 1: 62 pp.
Flaak, A. R. & C. E. Epifanio, 1978. Dietary protein levels and growth of the oyster Crassostrea virginica. Mar. Biol. 45: 157–163.
Foe, C. G., 1985. Flow and substrate tolerance of juvenile Corbicula fluminea (bivalvia). In A. W. Knight (ed.), Factors influencing the biology of the Asiatic clam, Corbicula fluminea. Univ. of Calif., Dep. Land, Air & Wat. Resour., Wat. Sci. & Engng. Pap. No. 4515.
Foe, C. G. & A. W. Knight, 1985. The effect of phytoplankton and suspended sediment on the growth of Corbicula fluminea (bivalvia). Hydrobiologia 127: 105–115.
A. W. Knight (ed.), The evaluation of contaminated sediment employing selected benthic freshwater organisms. Univ. of Calif., Dept. Land, Air & Wat. Resour., Wat. Sci. & Engng. Pap. No. 4516: 71–101.
Foe, C. G. & A. W. Knight, in press. A thermal energy budget for juvenile Corbicula fluminea (bivalvia). In J. C. Britton & R. Prezant (eds.), Pro. 2nd Int. Corbicula Symp. Special Publication No. 2 A.M.B. (1985).
Fox, D. L., H. U. Sverdrup & J; P. Cunningham, 1937. The rate of water propulsion by the California mussel. Biol. Bull. 72: 417–438.
Hartman, M. C., E. Epifanio, G. Pruder & R. Srna, 1973. Farming the Artificial Sea: growth of clams in a recirculating seawater system. Proc. Gulf Caribb. Fish Inst. 26: 59–74.
Haven, D. S., 1965. Supplemental feeding of oysters with starch. Chesapeake Sci 6: 43–51.
Hill, W. R., 1985. Phytoplankton selection in the asiatic clam Corbicula fluminea (Muller). In A. W. Knight (ed.), Factors influencing the biology of the Asiatic clam, Corbicula fluminea. Univ. Calif., Dept. Land, Air & Wat. Resour., Wat. Scie. & Engng. Pap. No. 4515.
Hillis, D. M. & J. C. Patton, 1982. Morphological and electrophoretic evidence for two species of Corbicula (Bivalvia: Corbiculidae) in North America. Am. Midl. Nat. 108: 74–80.
Imlay, M. J. & M. L. Paige, 1972. Laboratory growth of freshwater sponges, Unionid Mussels and Sphaeriid clams. Prog. Fish-Cult. 34: 210–216.
Jorgensen, C. B., 1966. Biology of Syspension Feeders. Pergammon Press, Oxford, 357 pp.
Kiørboe F, Møhlenberg & O. Nohr, 1981. Effect of suspended bottom material on growth and energetics of Mytilus edulis. Mar. Biol. 61: 283–286.
Kirby-Smith, W. W., 1976. The detritus problem and the feeding and digestion of an estuarine organism. In M. Wiley (ed.), Estuarine Processes, 1. Academic Press, N.Y.: 469–479.
Kirschmann, J. D., 1979. Nutrition Almanac. McGraw Hill, N.Y., 279 pp.
Kuwatani, Y. & T. Nishii, 1968. On the rice powder as a diet of the pearl oyster. Bull. Jap. Soc. Scient. Fish. 34: 191–205.
Loosanoff, V. L. & T. Murray, 1974. Maintaining adult bivalves for long periods on artificially grown phytoplankton. Veliger 16: 93–94.
Lutz, F., P. S. Welch, P. S. Galtsoff & J. G. Needham, 1959. Culture methods for invertebrates animals. Dover Publications Inc., N.Y., 590 pp.
McLeod, M. J., in press. Electrophoretic variation in North American Corbicula. In J. C. Britton & R. Prezant (eds.), Proc. 2nd Int. Corbicula Symp. Special Publication No. 2 A.M.B. (1985).
Morton, B., 1971. Studies on the biology of Dreissena polymorpha (Dall) Proc. malacol. Soc. Lond. 39: 289–301.
Murken, J., 1975. Feeding experiments with Mytilus edulis at a small laboratory scale, 3. Feeding of waste organic products from the fish industry of Bremerhaven as a means of recycling biodegradable wastes. In G. Persoone, & E. Jasper (eds.), 10th Europ. Symp. mar. Biol. Ostend Belgium Sept. 17–23, 1975. Universal Press Welteren 1: 622 pp.
Nichols, H. W., 1973. Growth media, freshwater. In J. R. Stein (ed.), Phycological Methods, 1. Cambridge University Press: 7–25.
Rice, T. R. & R. J. Smith, 1958. Filtering rates of hard-clams (Venus mercenaria) determined with radioactive phytoplankton. Fish. Bull. U.S. 58: 73–82.
Schulte, E. H., 1975. Influence of algal concentration and temperature on the filtration rate of Mytilus edulis. Mar. Biol. 30: 331–341.
Sharp, J. W., A. W. Knight, L. Maxfield & S. Li, 1985. Invertebrate cellulase activity in the Sacramento-San Joaquin Delta Estuary. A. W. Knight (ed.), Factors influencing the biol4ogy of the Asiatic clam, Corbicula fluminea. Univ. of Calif., Dep. Land, Air & Wat. Resour., Wat. Sci. & Engng. Pap. No. 4515.
Sinclair, R. M. & B. G. Isom, 1963. Further studies on the introduced Asiatic clam Corbicula in Tennessee. Tennessee Pollution Control Bd., 76 Tennessee Dept. Public Health. Cordell Hull Building, Nashville, Tennessee.
Solorzano, L., 1969. Determination of ammonia in natural water by the phenolhypochlorite method. Limnol. Oceanogr. 14: 799–801.
Starr, R. C., 1978. Culture collection of algae. J. Phycol. 14: 92–96.
Strickland, J. D. H. & T. R. Parsons, 1968. A practical handbook of seawater analysis. Fish. Res. Bd. Can., Ottawa, 311 pp.
Walne, P. R., 1970. Studies on the food value of nineteen genera of algae to juvenile bivalves of the genera Ostrea, Crassostrea, Mercenaria and Mytilus. Fish Invest. Ser. 2 Mar. Fish. G.B. Minist. Agric. Fish. Food. 26: 1–62.
Walne, P. R., 1973. Growth rates and nitrogen and carbohydrate contents of juvenile clams, Saxidomus gigantens fed three species of algae. J. Fish. Res. Bd. Can. 30: 1825–1930.
Widdows, J., F. Fieth & C. M. Worrall, 1979. Relationships between Seston, available food and feeding activity in the common mussel Mytilus edulis. Mar. Biol. 195–207.
Williams, P., 1981. Detritus utilization by Mytilus edulis. Estuarine Coastal & Mar. Sci. 12: 1–8.
Winter, J. E., 1969. On the influence of food concentration and other factors on filtration rate and food utilization in the mussel Arctica islandica and Modiolus modiolus. Mar. Biol. 4: 87–135.
Winter, J. E., 1974. Growth in Mytilus edulis using different types of food. Ber. Deutsch Wiss. Komm. Meeresforschungen 23: 360–375.
Winter, J. E., 1978. A review on the knowledge of suspension feeding in Lamellibrachiate bivalves with special reference to artificial aquaculture systems. Aquaculture 13: 1–33.
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Foe, C., Knight, A. Growth of Corbicula fluminea (bivalvia) fed artificial and algal diets. Hydrobiologia 133, 155–164 (1986). https://doi.org/10.1007/BF00031864
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DOI: https://doi.org/10.1007/BF00031864