[1]Davenport J, Smith RJJW, Packer M. Mussels Mytilus edulis:significant consumers and destroyers of mesozooplankton. Mar Ecol Prog Ser, 2000(198): 131 - 137
[2]
[2]Mazzola A, Sara G.The effect of fish farming organic waste on food availability for bivalve mollusks (Gaeta Gulf, Central Tyrrhenian, MED): stable carbon isotopic analysis. Aqua culture, 2001(192) :361 - 379
[3]
[3]Haven D S, Morales -Alamo R. Biodeposition as a factor in sedimentation of fine suspended solids in estuaries. Geological Society of American, 1972 (133): 121 - 130
[4]
[4]Haven D S, Morales - Alamo R. Aspects of biodeposition by oysters and other invertebrate filter feeders. Limno Oceanogr,1966(11): 487- 498
[5]
[5]Nakamura M, Yamamuro M, Ishikawa M, et al. Role of the bivalve Corbicula japonica in the nitrogen cycle in a mesohaline lagoon. Mar Biol, 1988(99): 369 - 74
[6]
[6]Navarro J M, Thompson R J. Biodeposition produced by horse mussel Modiolus modiolus (Dilluga) during spring diatombloom. J Exp Mar Biol Ecol, 1997(209): 1 - 13
[7]
[7]Jaramillo E, Bertran C, Bravo A. Mussel biodeposition in an estuary in southern Chile. Mar Ecol Prog Ser, 1992(82) :85- 94
[8]
[8]Peterson B J, Heck Jr. K L. The potential for suspension feeding bivalves to increase seagrass productivity. J Exp Mar Biol Ecol, 1999(240): 37 - 52
[9]
[9]Heiskanen A S, Haaphla J, Gundersen K. Sedimentation and pelagic retention of particulate C, N and P in the coastal northem Baltic Sea, Estuar Coast Shelf Sci, 1998, 46: 703- 712
[10]
[10]Heiskanen AS. Contamination of sediment trap fluxes by vertically migrating phototrophic micro-organisms in the coastal Baltic Sea. Mar Ecol Prog Ser, 1995(122): 45- 58
[11]
[11]Hawkins A J S, Bayne B L. Seasonal variation in the relative utilization of carbon and nitrogen by the mussel Mytilus edulis:budgets, conversion efficiencies and maintainance requirements. Mar Ecol Prog Ser, 1985(25): 181 - 188
[12]
[12]Hatcher A, Grant J, Schofield B. Effects of suspended mussel culture (Mytilus spp. ) on sedimentation benthic respiration and sediment nutrient dynamics in a coastal bay. Mar Ecol Prog Set, 1994(115): 219- 235
[13]
[13]Kautsky N, Evans S. Role of biodeposition by Mytilus edulis in the circulation of matter and nutrients in a Baltic coastal ecosystem. Mar Ecol Prog Ser, 1987(38): 201 - 212
[15]Widdows J, Fieth P, Worrall C M. Relationship between seston, available food and feeding activity in the common mussel, Mytilus edulis. Mar Biol, 1979(50): 195 - 207
[16]
[16]MacDonald B A, Thompson R J. Influence of temperature and food availability on the ecological energetics of the giant scallop Placopecten magellanicus Ⅲ. Physiological ecology, the gametogenic cycle and scope for growth. Mar Ecol Prog Ser,1986(93): 37- 48
[17]
[17]Kaspar H F, Gillespie P A, Boyer I C, et al. Effects of mussel aquaculture on the nitrogen cycle and benthic communities in Kanepru Sounds. New Zealand, Mar Biol,1985(85): 127- 136
[18]
[18]Stuart V, Newell R C, Lucas M I. Conversion of kelp debris and faecal material from the mussel Aulacomya ater by marine microorganisms. Mar Ecol Prog Ser, 1982(7): 45 - 57
[19]
[19]Radziejewska T. On the role of Mytilus edulis aggregations in enhancing meiofauna communities off the southern Baltic coast.Ophelia, 1986(Suppl. 4):211- 218
[20]
[20]Ragnarsson S A, Raffaelli D. Effects of the mussel Mytilus edulis L. on the invertebrate fauna of sediments. J Exp Mar Biol Ecol, 1999(241): 31 - 43
[21]
[21]Gilbert F, Souchu P, Bianchi M, et al. Influence of shellfish farming activities on nitrification, nitrate reduction to armmonium and denitrification at the water-sediment interface of the Thau lagoon, France. Mar Ecol Prog Scr, 1997(151): 143 -153
[22]
[22]Cockcroft A C, McLachlan A. Nitrogen budget for a highenergy ecosystem. Mar Ecol Prog Ser, 1993(100): 287 - 299
[23]
[23]Mazouni N, Gaertner J, Deslous-Paoli J, et al. Nutrient and oxygen exchanges at water-sediment interface in a shellfish farning lagoon (Thau,France). J Exp Mar Biol Ecol, 1996(205): 91 - 113
[24]
[24]Reusch T B H, Chapman A R O, Groger J P. Blue mussels Mytilus edulis do not in terfere with eelgrass Zostera marina but fertilizer shoot growth through biodeposition. Mar Ecol Prog Ser, 1994(108): 265 - 282
[25]
[25]Asmus R M, Asmus H. Mussel beds: limiting or prcmoting phytoplankton?. J Exp Mar Biol Ecol, 1991(148):215-232
