Abstract
Nutrient and Chlorophyll-a (Chl-a) concentrations were investigated monthly along three transects extending from a mariculture area to open waters around the Zhangzi Island area from July to December 2009. The objective of this study is to illustrate food availability to the bottom-sowed scallop Patinopecten yessoensis under the influences of the Yellow Sea Cold Water Mass (YSCWM), freshwater input and feedbacks of cultivated scallops. Significant thermal stratification was present in open waters from July to October, and salinity decreased in July and August in surface layers in the mariculture area. Nutrient concentrations increased with depth in both areas in summer, but were similar through water column in November and December. On average, nutrient increased from summer to autumn in all components except ammonia. Nutrient concentrations lower than the minimum thresholds for phytoplankton growth were present only in upper layers in summer, but stoichiometric nitrogen limitation existed in the entire investigation period. Column-averaged Chl-a concentration was lower in open waters than in mariculture area in all months. It increased significantly in mariculture area in August and October, and was less variable in open waters. Our results show that nutrients limitation to phytoplankton growth is present mainly in upper layer in association with stratification caused by YSCWM in summer. Freshwater input and upwelling of nutrients accumulated in YSCWM can stimulate phytoplankton production in mariculture area. Farming activities may change stoichiometric nutrient ratios but have less influence on Chl-a concentration.
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References
Andersen, S., and Naas, K. E., 1993. Shell growth and survival of scallop (Pecten maximus L) in a fertilized shallow seawater pond. Aquaculture, 110(1): 71–86.
Arin, L., Estrada, M., Salat, J., and Cruzado, A., 2005. Spatio-temporal variability of size fractionated phytoplankton on the shelf adjacent to the EbroRiver (NW Mediterranean). Continental Shelf Research, 25(9): 1081–1095.
Burford, M., 1997. Phytoplankton dynamics in shrimp ponds. Aquaculture Research, 28(5): 351–360.
Bury, S. J., Boyd, P. W., Preston, T., Savidge, G., and Owens, N. J. P., 2001. Size-fractionated primary production and nitrogen uptake during a North Atlantic phytoplankton bloom: Implications for carbon export estimates. Deep Sea Research Part I: Oceanograghic Research Papers, 48(3): 689–720.
Bec, B., Collos, Y., Souchu, P., and Vaquer, A., 2011. Distribution of picophytoplankton and nanophytoplankton along an anthropogenic eutrophication gradient in French Mediterranean coastal lagoons. Aquatic Microbial Ecology, 63(1): 29–45.
Chisholm, S. W., 1992. Phytoplankton size. In: Primary Productivity and Biogeochemical Cycles in the Sea. Falkowski, G., Woodhead, A. D., eds., Plenum, New York, 213–217.
Chen, C. T. A., Gong, G. C., Wang, S. L., and Alexander, S. B., 1996. Redfield ratios and regeneration rates of particulate matter in the Sea of Japan as a model of closed system. Geophysical Research Letters, 23(14): 1785–1788.
Chu, S. P., and Kuo, Y. C., 1959. A decade of marine phytoplankton research in China. Oceanologia et Limnologia Sinica, 2(4): 223–229 (in Chinese with English abstract).
Cranford, P. J., Emerson, C. W., Hargrave, B. T., and Milligan, T. G., 1998. In situ feeding and absorption of ea scallops Placopecten magellanicus (Gmelin) to storm-induced changes in the quantity and composition of the seston. Journal of Experimental Marine Biology and Ecology, 219(1–2): 45–70.
Dame, R. F., and Prins, T. C., 1998. Bivalve carrying capacity in coastal ecosystems. Aquatic Ecology, 31: 409–421.
Du, B., Zhang, Y. J., and Shan, Y. C., 1996. The characteristics of cold water mass variation at the bottom of the Northern Yellow Sea and its hydrological effects on the mortality of shellfish cultured in the waters of outer Chang-shan Islands. Marine Science Bulletin, 15(4): 17–28 (in Chinese with English abstract).
Dortch, Q., and Whitledge, T. E., 1992. Does nitrogen or silicon limit phytoplankton production in the Mississipi River plume and nearby regions. Continental Shelf Research, 12(11): 1293–1309.
Fisher, T. R., Peele, E. R., and Ammerman, J. W., 1992. Nutrient limition of phytoplankton in Chesapeake Bay. Marine Ecology Progress Series, 82: 51–63.
Gao, S., and Li, Z. Y., 2009. Spatial and seasonal variation of Chlorophyll a and primary productivity in summer and winter in the Northern Yellow Sea. Periodical of Ocean University of China, 39(4): 604–610 (in Chinese with English abstract).
Giles, H., and Pilditch, C. A., 2004. Effects of diet on sinking rates and erosion thresholds of mussel(Perna Canaliculus) biodeposits. Marine Ecology Progress Series, 282: 205–219.
Hattori, A., 1982. The nitrogen cycle in the sea with special reference to biogeochemical processes. Journal of Oceanography, 38(4): 245–265.
He, C. B., Wang, Y. X., and Xu, S., 1959. A preliminary study of the formation of Yellow Sea Cold Water Mass and its properties. Oceanologia ET Limnologia Sinica, 2(1): 11–15 (in Chinese with English abstract).
Huang, W. X., Shen, L. F., and Zhu, L., 1984. Phytoplankton in the Yellow Sea. Marine Environmental Science, 3(3): 19–26 (in Chinese).
Justic, D., Rabalais, N. N., and Turner, R. E., 1995. Stoichiometry nutrient balance and origin of coastal eutrophication. Marine Pollution Bulletin, 30(1): 41–46.
Jansen, H. M., Strand, O., and Strohmeier, T., 2011. Seasonal variability in nutrient regeneration by mussel Mytilus edulis rope culture in oligotrophic systems. Marine Ecology Progress Series, 431: 137–149.
Karlsson, O., Jonsson, P. R., and Larsson A. I., 2003. Do large seston particles contribute to the diet of the bivalve Cerastoderma edule? Marine Ecology Progress Series, 261: 164–173.
Kautsky, N., and Evans, S., 1987. Role of biodeposition by Mytilus edulis in the circulation of matter and nutrients in a Baltic Coastal ecosystem. Marine Ecology Progress Series, 38: 201–212.
Li, W. J., and Tan, K. F., 2009. The inspiration on massive mortality of Scallop Patinopecten yessoensi resolved by Japan. Fisheries Science, 28(10): 609–612 (in Chinese with English abstract).
Li, Z., 2010. Chlorophyll-a concentration distribution and its relation with environmental factors in the Southern Yellow Sea in summer. Master Thesis. First Research Institute of State Oceanic Administration. 25–84.
MacDonald, B. A., and Ward, J. E., 1994. Variation in food quality and particle selectivity in the sea scallop Placopecten magellanicus (Mollusca: Bivalvia). Marine Ecology Progress Series, 104: 251–264.
Møhlenberg, F., and Riisgård, H. U., 1978. Efficiency of particle retention in 13 species of suspension-feeding bivalves. Ophelia, 17: 239–246.
Naylor, R. L., Goldburg, R. J., Primavera, J. H., Kautsky, N., Beveridge, M. C. M., Clay, J., Folke, C., Lubchenco, J., Mooney, H., and Troell, M., 2000. Effect of aquaculture on world fish supplies. Nature, 405: 1017–1024.
Newell, R. I. E., 1988. Ecological changes in Chesapeake Bay: are they the result of overharvesting the eastern oyster (Crassostrea virginica)? In: Understanding the Estuary. Advances in Chesapeake Bay research, Lynch, M. P., and Krome, E. C., eds., Chesapeake Research Consortium Publ. 129, Gloucester Point, VA, 536–546.
Newell, R. I. E., 2004. Ecosystem influences of natural and cultivated populations of suspension-feeding bivalve molluscs: a review. Journal of Shellfish Research, 23(1): 51–61.
Nixon, S. W., and Pilson, M. E. Q., 1983. Nitrogen in estuarine and coastal marine ecosystems. In: Nitrogen in the Marine Environment. Carpenter, E. J., and Capone, D. G., eds., Academic, 565–648.
Peterson, B. J., and Heck, Jr., K. L., 1999. The protential for suspension feeding bivalves to increase seagrass productivity. Journal of Experimental Marine Biology and Ecology, 240(1): 37–52.
Ragueneau, O., Chauvaud, L., Moriceau, B., Leynaert, A., Thouzeau, G., Donval, A., Le Loch, F., and Jean, F., 2005. Biodeposition by an invasive suspension feeder impacts the biogeochemical cycle of Si in a coastal ecosystem (Bay of Brest, France). Biogeochemistry, 75(1): 19–41.
Reitan, K. I., Øie, G., Vadstein, O., and Reinertsen, H., 2002. Response on scallop culture to enhanced nutrient supply by experimental fertilisation of a landlocked bay. Hydrobiologia, 484: 111–120.
Smaal, A. C., and Prins, T. C., 1993. The uptake of organic matter and the release of inorganic nutrients by bivalve suspension feeder beds. In: Bivalve Filter Feeders in Estuarine and Coastal Ecosystem Processes. Dame, R. F., ed., Springer Verlag, Berlin, 271–298.
Wang, Q. C., 1984. The introduction of Japanese scallop Patinopecten yessoensis and its farming prospect in Northern China. Fisheries Science, 4: 24–27 (in Chinese with English abstract).
Wang, B. D., 2000. Characteristics of variations and interrelations of biogenic elements in the Huanghai Sea Cold Water Mass. Acta Oceanologica Sinica, 22(6): 47–54 (in Chinese with English abstract).
Widdows, J., Brinsley, M. D., Salkeld, P. N., and Elliott, M., 1998. Use of annular flumes to determine the influence of current velocity and bivalves on material flux at the sediment matter interface. Estuaries, 21: 552–559.
Yuan, X., Zhang, M., Liang, Y., Liu D., and Guan, D., 2010. Self-pollutant loading from a suspension aquaculture system of Japanese scallop (Patinopecten yessoensis) in the Changhai sea area, Northern Yellow Sea of China. Aquaculture, 304: 79–87.
Zang, L., 2009. The research of biogenic elements seasonal characteristics in the North Yellow Sea and the contribution of the North Yellow Sea Cold Water Mass. Master Thesis. Ocean University of China. 19–35.
Zhang, F. S., He, Y., Ma, J. H., Liu, X. S., Li, S. Y., Qi, L. X., Yu, S. E., and Yuan, S. S., 1984. The introduction of Japanese scallop Patinopecten yessoensis into China, its spat-rearing and experimental cultivation. Marine Science, 36(5): 38–45 (in Chinese with English abstract).
Zhang, J. H., Fang, J. G., and Wang, S. H., 2008a. Carrying capacity for Patinopecten yessoensisin in Zhangzi Island. Journal of Fisheries of China, 32(2): 236–241 (in Chinese with English abstract).
Zhang, J. H., Fang, J. G., Jiang, Z. J., Wang, W., Wang, S. H., and Sun, S., 2008b. Seasonal variation of primary production and spatial-temporal distribution of chlorophyll a in mariculture area of Zhangzidao Island. Marine Fisheries Research, 29(4): 22–28 (in Chinese with English abstract).
Zhang, H., and Shi, X. Y., 2009. Distribution features of nutrients structure and nutrient limitation in the north of Yellow Sea. Periodical of Ocean University in China, 39(4): 773–780 (in Chinese with English abstract).
Zhang, G., Zhao, Z., Liu, C., Liu Q., and Ren, J., 2012. Influence of a flood event on salinity and nutrients in the Changshan Archipelago area (Northern Yellow Sea). Journal of Ocean University of China, 11(3): 1–8.
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Yin, J., Zhao, Z., Zhang, G. et al. Tempo-spatial variation of nutrient and chlorophyll-α concentrations from summer to winter in the Zhangzi Island Area (Northern Yellow Sea). J. Ocean Univ. China 12, 373–384 (2013). https://doi.org/10.1007/s11802-013-2101-4
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DOI: https://doi.org/10.1007/s11802-013-2101-4