Abstract
The fluxes of particulate and dissolved material between bivalve beds and the water column in the Oosterschelde estuary have been measured in situ with a Benthic Ecosystem Tunnel. On mussel beds uptake of POC, PON and POP was observed. POC and PON fluxes showed a significant positive correlation, and the average C:N ratio of the fluxes was 9.4. There was a high release of phosphate, nitrate, ammonium and silicate from the mussel bed into the water column. The effluxes of dissolved inorganic nitrogen and phosphate showed a significant correlation, with an average N:P ratio of 16.5. A comparison of the in situ measurements with individual nutrient excretion rates showed that excretion by the mussels contributed 31–85% to the total phosphate flux from the mussel bed. Ammonium excretion by the mussels accounted for 17–94% of the ammonium flux from the mussel bed. The mussels did not excrete silicate or nitrate. Mineralization of biodeposition on the mussel bed was probably the main source of the regenerated nutrients.
From the in situ observations net budgets of N, P and Si for the mussel bed were calculated. A comparison between the uptake of particulate organic N and the release of dissolved inorganic N (ammonium + nitrate) showed that little N is retained by the mussel bed, and suggested that denitrification is a minor process in the mussel bed sediment. On average, only 2/3 of the particulate organic P, taken up by the mussel bed, was recycled as phosphate. A net Si uptake was observed during phytoplankton blooms, and a net release dominated during autumn. It is concluded that mussel beds increase the mineralization rate of phytoplankton and affect nutrient ratios in the water column. A comparison of N regeneration by mussels in the central part of the Oosterschelde estuary with model estimates of total N remineralization showed that mussels play a major role in the recycling of nitrogen.
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References
Aller, R. C., 1979. Relationships of tube-dwelling benthos with sediment and overlying water chemistry. In: K. R. Tenore and B. C. Coull (eds), Marine benthic dynamics. Univ. South Carolina Press, Columbia: 285–308.
Asmus, H., 1987. Secondary production of an intertidal mussel bed community related to its storage and turnover compartments. Mar. Ecol. Prog. Ser. 39: 251–266.
Asmus, H., R. Asmus & K. Reise, 1990. Exchange processes in an intertidal mussel bed: a Sylt-flume study in the Wadden Sea. Ber. Biol. Anst. Helgoland 6: 1–79.
Asmus, R., 1986. Nutrient flux in short-term enclosures of intertidal sand communities. Ophelia 26: 1–18.
Asmus, R. M. & H. Asmus, 1991. Mussel beds: limiting or promoting phytoplankton? J. exp. mar. Biol. Ecol. 148: 215–232.
Bahr, L. M., 1976. Energetic aspects of the intertidal oyster reef community at Sapelo Island, Georgia (USA). Ecology 57: 121–131.
Balzer, W., K. Grasshoff, P. Dieckmann, H. Haardt & U. Petersohn, 1983. Redox-turnover at the sediment/water interface studied in a large bell jar system. Oceanol. Acta 6: 337–344.
Baudinet, D., E. Alliot, B. Berland, C. Grenz, M.-R. Plante-Cuny, R. Plante & C. Salen-Picard, 1990. Incidence of mussel culture on biogeochemical fluxes at the sediment-water interface. Hydrobiologia 207: 187–196.
Bayne, B. L. & C. Scullard, 1977. Rates of nitrogen excretion by species of Mytilus (Bivalvia:Mollusca). J. mar. biol. Ass. U.K. 57: 355–369.
Bayne, B. L. & J. widdows, 1978. The physiological ecology of two populations of Mytilus edulis L., Oecologia 37: 137–162.
Bayne, B. L., J. Widdows & R. J. Thompson, 1976. Physiology II. In: B. L. Bayne (ed.), Marine Mussels, their ecology and physiology. Cambridge University Press, Cambridge: 207–260.
Boucher, G. & R. Boucher-Rodoni, 1988. In situ measurement of respiratory metabolism and nitrogen fluxes at the interface of oyster beds. Mar. Ecol. Prog. Ser. 44: 229–238.
Boucher-Rodoni, R. & G. Boucher, 1990. In situ study of the effect of oyster biomass on benthic metabolic exchange rates. Hydrobiologia 206: 115–123.
Boynton, W. R., W. M. Kemp & C. G. Osborne, 1980. Nutrient fluxes across the sediment-water interface in the turbid zone of a coastal plain estuary. In: V. S. Kennedy (ed.), Estuarine perspectives. Academic Press, New York: 93–109.
Callender, E. & D. E. Hammond, 1982. Nutrient exchange across the sediment-water interface in the Potomac river estuary. Estuar. Coast. Shelf Sci. 15: 395–413.
Carlson, D. J., D. W. Townsend, A. L. Hilyard & J. F. Eaton, 1984. Effect of an intertidal mudflat on plankton of the overlying water column. Can. J. Fish. aquat. Sci. 41: 1523–1528.
Dahlbäck, B. & L. H. Gunnarson, 1981. Sedimentation and sulfate reduction under a mussel culture. Mar. Biol. 63: 269–275.
Dame, R. F. & N. Dankers, 1988. Uptake and release of materials by a Wadden Sea mussel bed. J. exp. mar Biol. Ecol. 118: 207–216.
Dame, R. F., J. D. Spurrier & T. G. Wolaver, 1989. Carbon, nitrogen and phosphorus processing by an oyster reef. Mar. Ecol. Prog. Ser. 54: 249–256.
Dame, R. F., T. G. Wolaver & S. M. Libes, 1985. The summer uptake and release of nitrogen by an intertidal oyster reef. Neth. J. Sea Res. 19: 265–268.
Dame, R. F., R. G. Zingmark & E. Haskin, 1984. Oyster reefs as processors of estuarine materials. J. exp. mar. Biol. Ecol. 83: 239–247.
Dame, R. F., R. Zingmark, H. Stevenson & D. Nelson, 1980. Filter feeding coupling between the estuarine water column and benthic subsystems. In: V. S. Kennedy. (ed.), Estuarine perspectives. Academic Press, New York: 521–526.
Dame, R. F., N. Dankers, T. Prins, H. Jongsma & A. Smaal, 1991. The influence of mussel beds on nutrients in the Western Wadden Sea and Eastern Scheldt estuaries. Estuaries 14: 130–138.
Day, J. W., C. A. S. Hall, W. M. Kemp & A. Yáñez-Arancibia, 1989. Estuarine ecology. Wiley-Interscience, New York, 558 pp.
De Vries, I. & C. F. Hopstaken, 1984. Nutrient cycling and ecosystem behaviour in a salt-water lake. Neth. J. Sea Res. 18: 221–245.
Doering, P. H., 1989. On the contribution of the benthos to pelagic production. J. mar. Res. 47: 371–383.
Doering, P. H., C. A. Oviatt & J. R. Kelly, 1986. The effects of the filter-feeding clam Mercenaria mercenaria on carbon cycling in experimental marine mesocosms. J. Mar. Res. 44: 839–861.
Doering, P. H., J. R. Kelly, C. A. Oviatt & T. Sowers, 1987. Effect of the hard clam Mercenaria mercenaria on benthic fluxes of inorganic nutrients and gases. Mar. Biol. 94: 377–383.
Falcao, M. & C. Vale, 1990. Study of the Ria Formosa ecosystem: benthic nutrient remineralization and tidal variability of nutrients in the water. Hydrobiologia 207: 137–146.
Feuillet-Girard, M., M. Héral, J. M. Sornin, J. M. Deslous-Paoli, J. M. Robert, F. Mornet & D. Razet, 1988. Eléments azotés de la colonne d'eau et de l'interface eau-sédiment du bassin de Marennes-Oléron: influence des cultures d'huîtres. Aquat. Living Resourc. 1: 251–265.
Fréchette, M. & E. Bourget, 1985. Food-limited growth of Mytilus edulis L. in relation to the benthic boundary layer. Can. J. Fish aquat. Sci. 42: 1166–1170.
Grenz, C., M.-N. Hermin, D. Baudinet & Daumas, 1990. In situ biochemical and bacterial variation of sediments enriched with mussel biodeposits. Hydrobiologia 207: 153–160.
Haven, D. S. & R. Morales-Alamo, 1972. Biodeposition as a factor in sedimentation of fine suspended solids in estuaries. Geol. Soc. Am. Mem. 133: 121–130.
Hawkins, A. J. S., P. N. Salkeld, B. L. Bayne, E. Gnaiger & D. M. Lowe, 1985. Feeding and resource allocation in the mussel Mytilus edulis: evidence for time-averaged optimization. Mar. Ecol. Prog. Ser. 20: 273–287.
Helder, W. & F. Ø. Andersen, 1987. An experimental approach to quantify biologically mediated dissolved silica transport at the sediment-water interface. Mar. Ecol. Prog. Ser. 39: 305–311.
Helder, W., R. T. P. De Vries & M. M. Rutgers van der Loeff, 1983. Behavior of nitrogen nutrients and dissolved silica in the Ems-Dollard estuary. Can. J. Fish aquat. Sci. 40 (Suppl. 1): 188–200.
Henriksen, K., A. Jensen & M. B. Rasmussen, 1984. Aspects of nitrogen and phosphorus mineralization and recycling in the northern part of the Danish Wadden Sea. Neth. Inst. Sea Res. Publ. Ser. 10: 51–69.
Herman, P. M. J. & H. Scholten, 1990. Can suspension-feeders stabilise estuarine ecosystems? In M. Barnes & R. N. Gibson (eds.), Trophic relationships in the marine environment. Aberdeen University Press, Aberdeen: 104–116.
Hickel, W., 1989. Inorganic micronutrients and the eutrophication in the Wadden Sea of Sylt (German Bight, North Sea). Proc. 21st EMBS, Polish Acad. Sciences, Inst. Limnology, Gdansk: 309–318.
Jenkins, M. C. & W. M. Kemp, 1984. The coupling of nitrification and denitrification in two estuarine sediments. Limnol. Oceanogr. 29: 609–619.
Jørgensen, B. B., 1977. Bacterial sulfate reduction within reduced microniches of oxidized marine sediments. Mar. Biol. 41: 7–17.
Jørgensen, C. B. 1990. Bivalve filter feeding: hydrodynamics, bioenergetics, physiology and ecology. Olsen & Olsen, Fredensborg, Denmark. 140 pp.
Kaspar, H. F., P. A. Gillespie, I. C. Boyer & A. L. McKenzie, 1985. Effects of mussel aquaculture on the nitrogen cycle and benthic communities in Kenepuru Sound, Marlborough Sounds, New Zealand. Mar. Biol. 85: 127–136.
Kautscky, N. & S. Evans,; 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.
Kautsky, N. & I. Wallentinus, 1980. Nutrient release from a Baltic Mytilus-red algal community and its role in benthic and pelagic production. Ophelia, suppl. 1: 17–30.
Kemp, W. M., P. Sampou, J. Caffrey, M. Mayer, K. Henriksen & W. R. Boynton, 1990. Ammonium recycling versus denitrification in Chesapeake Bay sediments. Limnol. Oceanogr. 35: 1545–1563.
Kuenzler, E. J., 1961. Phosphorus budget of a mussel population. Limnol. Oceanogr. 6: 400–415.
Lerat, Y., P. Laserre & P. Le Corre, 1990. Seasonal change in pore water concentrations of nutrients and their diffusive fluxes at the sediment-water interface. J. exp. mar. Biol. Ecol. 135: 135–160.
Murphy, R. C. & J. N. Kremer, 1985. Bivalve contribution to benthic metabolism in a California lagoon. Estuaries 8: 330–341.
Nichols, F. H., 1985. Increased benthic grazing: an alternative explanation for low phytoplankton biomass in northern San Francisco Bay during the 1976–1977 drought. Estuar. coast Shelf Sci. 21: 379–388.
Nixon, S. W., 1981. Remineralization and nutrient cycling in coastal marine ecosystems. In: B. J. Neilson & L. E. Cronin (eds), Estuaries and nutrients. Humana Press, Clifton, New Jersey: 111–138.
Nixon, S. W., J. R. Kelly, B. N. Furnas, C. A. Oviatt & S. S. Hale, 1980. Phosporus regeneration and the metabolism of coastal marine bottom communities. In: K. R. Tenore and B. C. Coull , (eds), Marine benthic dynamics. Univ. South Carolina Press, Columbia: 219–242.
Nixon, S. W., C. A. Oviatt, J. Garber & V. Lee, 1976. Diel metabolism and nutrient dynamics in a salt marsh embayment. Ecology 57: 740–750.
Nixon, S. W. & M. E. Q. Pilson, 1983. Nitrogen in estuarine and coastal marine ecosystems. In: E. J. Carpenter & D. G. Capone (eds), Nitrogen in the marine environment. Academic Press, New York: 565–648.
Oenema, O., 1988. Early diagenesis in recent fine-grained sediments in the Eastern Scheldt. Ph. D. thesis, University of Utrecht, 222 pp.
Owens, N. J. P., 1986. Estuarine nitrification: a naturally occurring fluidized bed reaction? Estuar. coast. Shelf Sci. 22: 31–44.
Prins, T. C. & A. C. Smaal, 1990. Benthic-pelagic coupling: the release of inorganic nutrients by an intertidal bed of Mytilus edulis. In M. Barnes & R. N. Gibson (eds), Trophic relationships in the marine environment. Aberdeen University Press, Aberdeen: 89–103.
Ricker, W. E., 1973. Linear regressions in fishery research. J. Fish. Res. Bd Can. 30: 409–434.
Redfield, A. C., B. H. Ketchum & F. A. Richards, 1963. The influence of organisms on the composition of sea-water. In N. M. Hill (ed.), The Sea, Vol. 2. Wiley-Interscience, New York: 26–77.
Riemann, B., T. G. Nielsen, S. J. Horsted, P. K. Bjørnsen & J. Pock-Steen, 1988. Regulation of phytoplankton biomass in estuarine enclosures. Mar. Ecol. Prog. Ser. 48: 205–215.
Sayama, M. & Y. J. Kurihari, 1983. Relationships between burrowing activity of the polychaetous annelid, Neanthes japonica (Izuka) and nitrification-denitrification processes in the sediments. J. exp. mar. Biol. Ecol 72: 233–241.
Scholten, H. & M. W. van der Tol, 1994. SMOES: a simulation model for the Oosterschelde ecosystem. Part II: Calibration and validation. Hydrobiologia 282/283: 453–474.
Seitzinger, S. P., 1988. Denitrification in freshwater and coastal marine ecosystems: Ecological and geochemical significance. Limnol. Oceanogr. 33: 702–724.
Smaal, A. C., M. Knoester, P. H. Nienhuis & P. M. Meire, 1991. Changes in the Oosterschelde ecosystem induced by the Delta works. In M. Elliott and J-P. Ducrotoy (eds), Estuaries and coasts: Spatial and temporal intercomparisons. Olsen & Olsen, Fredensborg, Denmark: 375–384.
Smaal, A. C. & M. R. Van Stralen, 1990. Average annual growth and condition of mussels as a function of food source. In D. S. McClusky, V. N. de Jonge and J. Pomfret (eds), North Sea-Estuaries Interactions. Hydrobiologia 195: 179–188.
Smaal, A. C., J. H. G. Verhagen, J. Coosen & H. A. Haas, 1986. Interactions between seston quantity and quality and benthic suspension feeders in the Oosterschelde, The Netherlands. Ophelia 26: 385–399.
Sornin, J. M., M. Feuillet, M. Héral & J. M. Deslous-Paoli, 1983. Effet des biodépots de l'huître Crassostrea gigas (Thunberg) sur l'accumulation de matières organiques dans les parcs du bassin de Marennes-Oléron, J. moll. Stud., suppl. 12A:: 185–197.
Sorning, J. M., M. Feuillet, M. Héral & J. C. Fardeau, 1986. Influence des cultures d'huîtres Crassostrea gigas sur le cycle du phosphore en zone intertidale: rôle de la biodéposition. Oceanol. Acta 9: 313–322.
Sterner, R. W., 1986. Herbivores' direct and indirect effects on algal populations. Science 231: 605–607.
Stuart, V., R. C. Newell & M. I. Lucas, 1984. Conversion of kelp debris and gaecal material from the mussel Aulacomya ater by marine microorganisms. Mar. Ecol. Prog. Ser. 7: 47–57.
Van der Veer, H. W., W. van Raaphorst & M. J. N. Bergman, 1989. Eutrophication of the Dutch Wadden Sea: external nutrient loadings of the Marsdiep and Vliestroom basin. Helgoländer Meeresunters. 43: 501–515.
Van Raaphorst, W. & H. W. van der Veer, 1990. The phosphorus budget of the Marsdiep tidal basin (Dutch Wadden Sea) in the period 1950–1985: importance of the exchange with the North Sea. Hydrobiologia 195: 21–38.
Van Stralen, M. R. & R. D. Dijkema, 1994. Mussel culture in a changing environment: the effects of a coastal engineering project on mussel culture (Mytilus edulis L.) in the Oosterschelde estuary (SW Netherlands). Hydrobiologia 282/283: 359–379.
Verwey, J., 1952. On the ecology of distribution of cockle and mussel in the Dutch Waddensea, their role in sedimentation and the source of their food supply. Arch. Néerl. Zool. 10: 171–239.
Wetsteyn, L. P. M. J. & C. Bakker, 1991. Abiotic characteristics and phytoplankton primary production in relation to a large-scale coastal engineering project in the Oosterschelde (The Netherlands): a preliminary evaluation. In M. Elliott & J-P. Ducrotoy (eds), Estuaries and coasts: spatial and temporal intercomparisons. Olsen & Olsen, Fredensborg, Denmark: 365–373.
Wildish, D. J. & D. D. Kristmanson, 1984. Importance to mussels of the benthic boundary layer. Can. J. Fish. aquat. Sci. 41: 1618–1625.
Wolff, W. J., 1983. Estuarine benthos In: B. H. Ketchum (ed.), Ecosystems of the world, 26. Estuaries and enclosed seas. Elsevier, Amsterdam: 151–182.
Wright, R. T., R. B. Coffin, C. P. Ersing & D. Pearson, 1982. Field and laboratory measurements of bivalve filtration of natural marine bacterioplankton. Limnol. Oceanogr. 27: 91–98.
Zeitzschel, B., 1980. Sediment-water interactions in nutrient dynamics. In: K. R. Tenore and B. C. Coull (eds.), Marine benthic dynamics. Univ. South Carolina Press, Columbia: 195–218.
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Prins, T.C., Smaal, A.C. The role of the blue mussel Mytilus edulis in the cycling of nutrients in the Oosterschelde estuary (The Netherlands). Hydrobiologia 282, 413–429 (1994). https://doi.org/10.1007/BF00024645
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DOI: https://doi.org/10.1007/BF00024645