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Digestion and assimilation of protein by Mytilus trossulus (Bivalvia: Mollusca) fed mixed carbohydrate/protein microcapsules

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Abstract

Cross-linked walled protein microcapsules have previously been developed and shown to be ingested, digested and assimilated by suspension-feeding bivalves. In this study, we examined the effect of adding carbohydrate to protein capsules on the utilization of encapsulated protein by mussels (Mytilus trossulus) in a series of in vitro enzyme incubations and an in vivo feeding experiment. Two types of carbohydrate (amylose and maltodextrin) were separately encapsulated at a carbohydrate to protein ratio of 1:1 by weight. In vitro carbohydrate and protein leakage rates from mixed carbohydrate/protein capsules were low [e.g. <4% (24h)-1] compared to previously reported leakage rates for protein capsules [e.g. 5 to 20% (24h)-1]. Proteolytic breakdown of mixed carbohydrate/protein capsules by mussel-style extracts was similar to that for protein capsules, when the encapsulated carbohydrate was amylose, a straight-chain (α-1,4-linkage) polysaccharide; however, capsules containing maltodextrin, which is partially comprised of α-1,6-linkages, were not as readily digestible in vitro. In contrast to results from in vitro enzyme assays, maltodextrin/protein capsules were utilized in vivo by mussels with similar efficiencies to those for protein and amylose/protein capsules. These findings demonstrate that utilization of microencapsulated protein by mussels cannot be accurately predicted from results of in vitro enzyme assays. Importantly, up to 50% of the dry weight of cross-linked walled protein microcapsules can be replaced with carbohydrate without significantly affecting encapsulated protein digestion and assimilation efficiencies for M. trossulus.

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References

  • Asmus R. M., Asmus, H. (1991). Mussel beds: limiting or promoting phytoplankton? J. exp. mar. Biol. 148: 215–232

    Google Scholar 

  • Baird, D., Ulanowicz, R. E. (1989). The seasonal dynamics of the Chesapeake Bay ecosystem. Ecol. Monogr. 59: 329–364

    Google Scholar 

  • Bayne, B. L. (1987). Genetic aspects of physiological adaptation in bivalve molluscs. In: Calow, P. (ed.) Evolutionary physiological ecology. Cambridge University Press, New York, p. 169–189

    Google Scholar 

  • Bayne, B. L., Newell, R. C. (1983). Physiological energetics of marine Mollusca. In: Saleuddin, A. S. M., Wilbur, K. M. (eds.) The Mollusca. 4. Academic Press, New York, p. 407–515

    Google Scholar 

  • Castell, J. D., Kean, J. C., D'Abramo, L. R., Conklin, D. E. (1989). A standard reference diet for crustacean nutritional research. I. Evaluation of two formulations. J. Wld Aquacult. Soc. 20: 93–99

    Google Scholar 

  • Chang, T. M. S., MacIntosh, F. C., Mason, S. G. (1966). Semipermeable aqueous microcapsules. I. Preparation and properties. Can. J. Physiol. Pharmac. 44: 115–128

    Google Scholar 

  • Chu, F., Webb, K. L., Hepworth, D., Roberts, M. (1982). The acceptability and digestibility of microcapsules by larvae of Crassostrea virginica. J. Shellfish Res. 2: 29–34

    Google Scholar 

  • Dame, R. F., Spurrier, J. D., Wolaver, T. G. (1989). Carbon, nitrogen and phosphorus processing by an oyster reef. Mar. Ecol. Prog. Ser. 54: 249–256

    Google Scholar 

  • Dame, R. F., Wolaver, T. G., Libes, S. M. (1985). The summer uptake of nitrogen by an intertidal oyster reef. Neth. J. Sea Res. 19: 265–268

    Google Scholar 

  • Dame, R. F., Zingmark, R. G., Haskin, E. (1984). Oyster reefs as processors of estuarine materials. J. exp. mar. Biol. Ecol. 83: 239–247

    Google Scholar 

  • Dame, R., Zingmark, R., Stevenson, H., Nelson, D. (1980). Filter-feeding coupling between the estuarine water column and benthic subsystems. In: Kennedy, V. S. (ed.) Estuarine perspectives. Academic Press, New York, p. 521–526

    Google Scholar 

  • Dubois, M., Gilles, K. A., Hamilton, J. K., Rebers, P. A., Smith, F. (1956). A calorimetric method for the determination of sugars and related substances. Analyt. Chem. 28: 350–356

    Google Scholar 

  • Enright, C. T., Newkirk, G. F., Craigie, J. S., Castell, J. D. (1986a). Evaluation of phytoplankton as diets for juvenile Ostrea edulis L. J. exp. mar. Biol. Ecol. 96: 1–13

    Google Scholar 

  • Enright, C. T., Newkirk, G. F., Craigie, J. S., Castell, J. D. (1986b). Growth of juvenile Ostrea edulis L. fed Chaetocerus gracillus Schütt of varied chemical composition. J. exp. mar. Biol. Ecol. 96: 15–26

    Google Scholar 

  • Epifanio, C. E. (1979). Growth in bivalve molluscs: nutritional effects of two or more species of algae in diets fed to the American oyster Crassostrea virginica (Gmelin) and the hard clam Mercenaria mercenaria (L.). Aquaculture, Amsterdam 18:1–12

    Google Scholar 

  • Epifanio, C. E. (1982). Phytoplankton and yeast as foods for juvenile bivalves: a review of research at the University of Delaware. In: Pruder, G. D., Langdon, C., Conklin, D. (eds.) Proceedings of the 2nd International Conference of Aquaculture Nutrition: Biochemical and Physiological Approaches to Shellfish Nutrition. Louisiana State University. Baton Rouge, Louisiana, p. 292–304

    Google Scholar 

  • Gabbott, P. A., Jones, D. A., Nicols, D. H. (1975). Studies on the design and acceptability of microencapsulated diets for marine particle feeders. II. Bivalve molluses. Proc. 10th Eur. mar. Biol. Symp. 1: 127–141. [Persoone, G., Jaspers, E. (eds.) Universa Press, Wetteren, Belgium]

    Google Scholar 

  • Gallager, S. M., Mann, R. (1981). The effect of varying carbon/nitrogen ratio in the phytoplankter Thallassiosira pseudonana (3H) on its food value to the bivalve Tapes japonica. Aquaculture, Amsterdam 26: 95–105

    Google Scholar 

  • Gosling, E. M. (1992). Systematics and geographic distribution of Mytilus. In: Gosling, E. M. (ed.) The mussel Mytilus: ecology, physiology, genetics and culture. Elsevier, New York, p. 1–20

    Google Scholar 

  • Guillard, R. R. L., Ryther, J. (1962). Studies of marine planktonic diatoms. I. Cyclotella nana and Detonula confervacea. Can. J. Microbiol. 8: 229–239

    Google Scholar 

  • Hawkins, A. J. S. (1985). Relationships between the synthesis and breakdown of protein, dietary absorption and turnovers of nitrogen and carbon in the blue mussel, Mytilus edulis L. Oecologia 66: 42–49

    Google Scholar 

  • Hawkins, A. J. S., Bayne, B. L. (1984). Seasonal variation in the balance between physiological mechanisms of feeding and digestion in Mytilus edulis (Bivalvia: Mollusca). Mar. Biol. 82: 233–240

    Google Scholar 

  • Hawkins, A. J. S., Bayne, B. L. (1985). Seasonal variation in the relative utilization of carbon and nitrogen by the mussel Mytilus edulis: budgets, conversion efficiencies and maintenance requirements. Mar. Ecol. Prog. Ser. 25: 181–188

    Google Scholar 

  • Hawkins, A. J. S., Bayne, B. L. (1992). Physiological interrelations, and the regulation of production. In: Gosling, E. M. (ed.) The mussel Mytilus: ecology, physiology, genetics and culture. Elsevier, New York, p. 171–222

    Google Scholar 

  • Hawkins, A. J. S., Bayne, B. L., Clarke, K. R. (1983). Co-ordinated rhythms of digestion, absorption and excretion in Mytilus edulis (Bivalvia: Mollusca). Mar. Biol. 74: 41–48

    Google Scholar 

  • Hawkins, A. J. S., Bayne, B. L., Day, A. J., Rusin, J., Worrall, C. M. (1989). Genotype-dependent interrelations between energy metabolism, protein metabolism and fitness. In: Ryland, J. S., Tyler, P. A. (eds.) Reproduction, energetics and distributions of marine organisms. Olson & Olson, Fredensborg, p. 283–292

    Google Scholar 

  • Jones, D. A., Holland, D. L., Jabborie, S. (1984). Current status of microencapsulated diets for aquaculture. Appl. Biochem. Technol. 10: 275–288

    Google Scholar 

  • Jones, D. A., Kurmaly, K., Arshard, A. (1987). Penaeid shrimp hatchery trials using microencapsulated diets. Aquaculture, Amsterdam 64: 133–146

    Google Scholar 

  • Jones, D. A., Möller, T. H., Campbell, R. J., Munford, J. G., Gabbott, P. A. (1976). Studies on the design and acceptability of microencapsulated diets for marine particle feeders. I. Crustacea. Proc. 10th Eur. mar. Biol. Symp. 2: 229–235. [Persoone, G., Jaspers, E. (eds.) Universa Press, Wetteren, Belgium]

    Google Scholar 

  • Jones, D. A., Munford, J. G., Gabbett, P. A. (1974). Microcapsules as artificial food particles for aquatic filter feeders. Nature, Lond 247: 233–235

    Google Scholar 

  • Jordan, T. E., Valiela, I. (1982). A nitrogen budget of the ribbed mussel, Geukensia demissa, and its significance in nitrogen flow in a New England salt marsh. Limnol. Oceanogr. 27: 75–90

    Google Scholar 

  • Kautsky, N., Evans, S. (1987). Role of biodeposition by Mytilus edulis in the circulation of matter and nutrients in a Baltic coastal ecosystem. Mar. Ecol. Prog. Ser. 38: 201–212

    Google Scholar 

  • Koehn, R. K. (1991). The genetics and taxonomy of species in the genus Mytilus. Aquaculture, Amsterdam 94: 125–145

    Google Scholar 

  • Koehn, R. K., Bayne, B. L. (1989). Towards a physiological and genetic understanding of the energetics of the stress response. Biol. J. Linn. Soc. 37: 157–171

    Google Scholar 

  • Kreeger, D. A. (1992). Utilization of dietary protein by the mussels, Mytilus edulis trossulus. Ph.D. dissertation. Oregon State University

  • Kreeger, D. A. (1993). Seasonal patterns in the utilization of dietary protein by the mussel, Mytilus trossulus. Mar. Ecol. Prog. Ser. 95: 215–232

    Google Scholar 

  • Kreeger, D. A., Langdon, C. J. (1993). Effect of dietary protein content on growth of juvenile mussels, Mytilus trossulus (Gould, 1850). Biol. Bull. mar. biol. Lab., Woods Hole 185: 123–139

    Google Scholar 

  • Kreeger, D. A., Langdon, C. J., Newell, R. I. E. (1988). Utilization of refractory cellulosic carbon derived from Spartina alterniflora by the ribbed mussel Geukensia demissa. Mar. Ecol. Prog. Ser. 42: 171–179

    Google Scholar 

  • Kreeger, D. A., Newell, R. I. E., Langdon, C. J. (1990). Effect of tidal exposure on utilization of dietary lignocellulose by the ribbed mussel Geukensia demissa (Dillwyn) (Mollusca: Bivalvia). J. exp. mar. Biol. Ecol. 144: 85–100

    Google Scholar 

  • Laing, I. (1987). The use of artificial diets in rearing bivalve spat. Aquaculture, Amsterdam 65: 243–249

    Google Scholar 

  • Langdon, C. J. (1982). New techniques and their application to studies of bivalve nutrition. In: Pruder, G. D., Langdon, C., Conklin, D. (eds.) Proceedings of the 2nd International Conference on Aquaculture Nutrition: Biochemical and Physiological Approaches to Shellfish Nutrition. Louisiana State University, Baton Rouge, Louisiana, p. 305–320

    Google Scholar 

  • Langdon, C. J. (1989). Preparation and evaluation of protein microcapsules for a marine suspension-feeder, the Pacific oyster Crassostrea gigas. Mar. Biol. 102: 217–224

    Google Scholar 

  • Langdon, C. J., DeBevoise, E. A. (1990). Effect of microcapsule type on delivery of dietary protein to a marine suspension-feeder, the oyster Crassostrea gigas. Mar. Biol. 105: 437–443

    Google Scholar 

  • Langdon, C. J., Levine, D. M., Jones, D. A. (1985). Microparticulate feeds for marine suspension-feeders. J. Microencapsulation 2: 1–11

    Google Scholar 

  • Langdon, C. J., Newell, R. I. E. (1993). Digestion and nutrition. In: Eble, A., Kennedy, V. S., Newell, R. I. E. (eds.) The Eastern oyster, Crassostrea virginica. University of Maryland, College Park, Md (in press) (Univ. Md Sea Grant Publ.)

    Google Scholar 

  • Langton, R. W. (1977). Digestive rhythms in the mussel Mytilus edulis. Mar. Biol. 41: 53–58

    Google Scholar 

  • Langton, R. W., Winter, J. E., Roels, O. A. (1977). The effect of ration size on growth and growth efficiency of the bivalve mollusc Tapes japonica. Aquaculture, Amsterdam 12: 283–292

    Google Scholar 

  • Levy, M. C., Andry, M. C. (1991). Mixed-walled microcapsules made of cross-linked proteins and polysaccharides: preparation and properties. J. Microencapsulation 8: 335–347

    Google Scholar 

  • Morton, B. (1977). The tidal rhythm of feeding and digestion in the Pacific oyster, Crassostrea gigas (Thunberg). J. exp. mar. Biol. Ecol. 26: 135–151

    Google Scholar 

  • Morton, B. (1983). Feeding and digestion in Bivalvia. In: Saleuddin, A. S. M., Wilbur, K. M. (eds.) The Mollusca. Vol. 5(2). Academic Press, New York, p. 65–147

    Google Scholar 

  • Officer, C. B., Smayda, T. J., Mann, R. (1982). Benthic filter feeding: a natural eutrophication control. Mar. Ecol. Prog. Ser. 9: 203–210

    Google Scholar 

  • Peirson, W. M. (1983). Utilization of eight algal species by the bay scallop, Argopecten irradians concentricus (Say). J. exp. mar. Biol. Ecol. 68: 1–11

    Google Scholar 

  • Santo, J. E., Abend, P. G. (1971). U. S. Patent 3,607,776, September 21; assigned to Pennwalt Corporation

  • Sokal, R. R., Rohlf, F. J. (1969). Biometry. The principles and practice of statistics in biological research. W. H. Freeman & Co., San Francisco

    Google Scholar 

  • Southgate, P. C., Lee, P. S., Nell, J. A. (1992). Preliminary assessment of a microencapsulated diet for larval culture of the Sydney rock oyster, Saccostrea commercialis (iredale & Roughley). Aquaculture, Amsterdam 105: 345–352

    Google Scholar 

  • Utting, S. D. (1986). A preliminary study on growth of Crassostrea gigas larvae and spat in relation to dietary protein. Aquaculture, Amsterdam 56: 123–138

    Google Scholar 

  • Webb, K. L., Chu, F.-L. E. (1982). Phytoplankton as a food source for bivalve larvae. In: Pruder, G. D., Langdon, C., Conklin, D. (eds.) Proceedings of the 2nd International Conference on Aquaculture Nutrition: Biochemical and Physiological Approaches to Shellfish Nutrition, Louisiana State University, Baton Rouge, Louisiana, p. 272–291

    Google Scholar 

  • Whyte, J. N. C., Bourne, N., Hodgson, C. A. (1989). Influence of algal diets on biochemical composition and energy reserves in Patinopecten yessoensis (Jay) larvae. Aquaculture, Amsterdam 78: 333–347

    Google Scholar 

  • Wurzburg, O. B. (1986). Modified starches: properties and uses. CRC Press, Boca Raton, Florida

    Google Scholar 

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  1. D. A. Kreeger

    Present address: The Academy of Natural Sciences, 1900 Benjamin Franklin Parkway, 19103, Philadelphia, Pennsylvania, USA

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  1. Harfield Marine Science Center, Department of Fisheries and Wildlife, Oregon State University, 97365, Newport, Oregon, USA

    D. A. Kreeger & C. J. Langdon

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  2. C. J. Langdon
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Communicated by M. G. Hadfield, Honolulu

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Kreeger, D.A., Langdon, C.J. Digestion and assimilation of protein by Mytilus trossulus (Bivalvia: Mollusca) fed mixed carbohydrate/protein microcapsules. Marine Biology 118, 479–488 (1994). https://doi.org/10.1007/BF00350305

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