Individual biovolume of some dominant copepod species in coastal waters off Buenos Aires Province, Argentine Sea

Delia Viñas, María; Diovisalvi, Nadia Rosalía; Cepeda, Georgina Daniela

ALCARAZ, M.; SAIZ, E.; CALBET, A.; TREPAT, I.; BROGLIO. E. Estimating zooplankton biomass through image analysis. Mar. Biol, v.143, p. 307-315, 2003.
ANGELESCU, V. Ecología trófica de la anchoíta del Mar Argentino (Engraulidae, Engraulis anchoíta). Parte II. Alimentación, comportamiento y relaciones tróficas en el ecosistema. Serie Contribuciones INIDEP, Mar del Plata, Argentina, v. 409, 83 p., 1982.
BEAUGRAND, G.; BRANDER, K. M.; LINDLEY, J. A.; SOUISSI, S.; REID, P.C. Plankton effect on cod recruitment in the North Sea. Nature, v. 426, p. 661–664, 2003.
CALBET, A.; LANDRY, M. R.; SCHEINBERG, R. D. Copepod grazing in a subtropical bay: species specific responses to a mid-summer increase in nanoplankton standing stock. Mar. Ecol Prog. Ser, v. 193, p. 75-84, 2000.
CHISHOLM, L. A.; ROFF, J. C. Size-weight relationships and biomass of tropical neritic copepods off Kingston, Jamaica. Mar. Biol, v. 106, p. 71-77, 1990.
CHOJNACKI, J.; HUSSEIN, M. M. Body length and weight of the dominant copepod species in the Southern Baltic Sea. Zesz. Nauk. Akad. Roln. Szczec, v. 103, p. 53-64, 1983.
CHRISTENSEN, V.; PAULY, D. ECOPATH II-A software for balancing steady-state ecosystem models and calculating network characteristics. Ecol. Model, v. 61, p. 169-185, 1992.
CIECHOMSKI, J. D. DE ;WEISS, G. Estudios sobre la alimentación de larvas de la merluza, Merluccius merluccius hubbsi y de la anchoíta Engraulis anchoita en el mar. Physis, Buenos Aires, v. 33, p. 199-208, 1974.
COHEN, R. E.; LOUGH, R. G. Length-weight relationships for several copepods dominant in the Georges Bank-Gulf of Maine area. J. Northw. Atl. Fish. Sci, v. 1, p. 47-52, 1981.
CONOVER, R. J.; HUNTLEY, M. Copepods on ice-covered seas – distribution, adaptations to seasonally limited food, metabolism, growth patterns and life cycle strategies in polar seas. J. Mar. Syst, v. 2, p.1-41,1991.
FERNÁNDEZ ARÁOZ, N. C. Individual biomass, based on body measures of copepod species considered as main forage items for fishes of the Argentine shelf. Oceanologica Acta, v. 14, p. 575-580, 1991.
GROSJEAN, PH.; PICHERAL, M.; WAREMBOURG, C.; GORSKY, G. Enumeration, measurement, and identification of net zooplankton samples using the ZOOSCAN digital imaging system. ICES J. Mar. Sci, v. 61, p. 518-525, 2004.
HOPCROFT, R. R.; ROFF, J. C.; LOMBARD, D. Production of tropical copepods in Kingston Harbour, Jamaica: the importance of small species. Mar. Biol, v. 130, p. 593-604, 1998.
HUNTER, J. R. Feeding ecology and predation of marine fish larvae. In: Marine fish larvae, morphology, ecology and relation to fisheries Washington: Univ. of Washington Press, 1981.131 p.
IRIGOIEN, X.; FERNÁNDES, J. A.; GROSJEAN, P.; DENIS, K.; ALBAINA, A.; SANTOS, M. Spring zooplankton distribution in the Bay of Biscay from 1998 to 2006 in relation with anchovy recruitment. J. Plankton Res, v. 31, p. 1-17, 2009.
KIMMERER, W. J.; HIRST, A. G.; HOPCROFT, R. R.; MCKINNON, A. D. Estimating juvenile copepod growth rates: corrections, inter-comparisons and recommendations. Mar. Ecol. Prog. Ser, v. 336, p. 187-202, 2007.
MAUCHLINE, J. The biology of calanoid copepods, Advances in Marine Biology, v. 33, Academic Press, New York, 1998. 710 p.
MC KINNON, A. D.; DUGGAN, S.; DE'ATH, G. Mesozooplankton dynamics in inshore waters of the Great Barrier Reef. Estuar. Coast. Shelf. Sci, v. 63, p. 497-511, 2005.
OMORI, M.; IKEDA, T. Methods in Marine Zooplankton Ecology, Wiley- Interscience, New York, 325 pp. 1984.
PÁJARO, M. Alimentación de la anchoíta argentina (Engraulis anchoita Hubbs y Marini, 1935) (Pisces: Clupeiformes) durante la época reproductiva. Rev. Invest. y Des. Pesq , v. 15, p. 111-125, 2002.
PEARRE, S. The copepod width-weight relation and its utility in food chain research. Can. J. Zool , v. 58, p. 1884-1891, 1980.
POSTEL, L., FOCK, H.; HAGEN, W. Biomass and Abundance. In: ICES Zooplankton Methodology Manual, Academic Press, London, 2000, p. 83-192.
RAMÍREZ, F. C. Zooplancton y producción secundaria. Parte I: Variación y distribución estacional de los copépodos. Contr. Inst. Nac. de Invest. y Des. Pesq , v. 383, p. 202-212, 1981.
UYE, S.; SANO, K., Seasonal variations in biomass, growth rate and production rate of the small cyclopoid copepod Oithona davisae in a temperate eutrophic inlet. Mar. Ecol. Prog. Ser., v. 163, p. 37-44, 1998.
VIÑAS, M. D.; GAUDY, R. Annual cycle of Euterpina acutifrons (Copepoda: Harpacticoida) in the Gulf of San Matías (Argentina) and in the Gulf of Marseilles (France). Sci. Mar , v. 60, p. 307-318, 1996.
VIÑAS, M. D.; NEGRI, R. M.; RAMÍREZ, F. C.; HERNÁNDEZ, D. Zooplankton assemblages and hydrography in the spawning area of anchovy (Engraulis anchoita) off Río de la Plata estuary (Argentina, Uruguay). Mar. Freshwat. Res , v. 53, p. 1031-1043, 2002.
VIÑAS, M. D.; RAMÍREZ, F. C. Gut analysis of first-feeding anchovy larvae from Patagonian spawning area in relation to food availability. Arch. Fish. Mar. Res , v. 43, p. 321-256, 1996.
WEBBER, M. K.; ROFF, J. C. Annual biomass and production of the oceanic copepod community off Discovery Bay, Jamaica. Mar. Biol , v. 123, p. 481-495, 1995.

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06 Aug 2010
Date of issue
June 2010

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] ALCARAZ, M.; SAIZ, E.; CALBET, A.; TREPAT, I.; BROGLIO. E. Estimating zooplankton biomass through image analysis. Mar. Biol, v.143, p. 307-315, 2003.

[2] ANGELESCU, V. Ecología trófica de la anchoíta del Mar Argentino (Engraulidae, Engraulis anchoíta). Parte II. Alimentación, comportamiento y relaciones tróficas en el ecosistema. Serie Contribuciones INIDEP, Mar del Plata, Argentina, v. 409, 83 p., 1982.

[3] BEAUGRAND, G.; BRANDER, K. M.; LINDLEY, J. A.; SOUISSI, S.; REID, P.C. Plankton effect on cod recruitment in the North Sea. Nature, v. 426, p. 661–664, 2003.

[4] CALBET, A.; LANDRY, M. R.; SCHEINBERG, R. D. Copepod grazing in a subtropical bay: species specific responses to a mid-summer increase in nanoplankton standing stock. Mar. Ecol Prog. Ser, v. 193, p. 75-84, 2000.

[5] CHISHOLM, L. A.; ROFF, J. C. Size-weight relationships and biomass of tropical neritic copepods off Kingston, Jamaica. Mar. Biol, v. 106, p. 71-77, 1990.

[6] CHOJNACKI, J.; HUSSEIN, M. M. Body length and weight of the dominant copepod species in the Southern Baltic Sea. Zesz. Nauk. Akad. Roln. Szczec, v. 103, p. 53-64, 1983.

[7] CHRISTENSEN, V.; PAULY, D. ECOPATH II-A software for balancing steady-state ecosystem models and calculating network characteristics. Ecol. Model, v. 61, p. 169-185, 1992.

[8] CIECHOMSKI, J. D. DE ;WEISS, G. Estudios sobre la alimentación de larvas de la merluza, Merluccius merluccius hubbsi y de la anchoíta Engraulis anchoita en el mar. Physis, Buenos Aires, v. 33, p. 199-208, 1974.

[9] COHEN, R. E.; LOUGH, R. G. Length-weight relationships for several copepods dominant in the Georges Bank-Gulf of Maine area. J. Northw. Atl. Fish. Sci, v. 1, p. 47-52, 1981.

[10] CONOVER, R. J.; HUNTLEY, M. Copepods on ice-covered seas – distribution, adaptations to seasonally limited food, metabolism, growth patterns and life cycle strategies in polar seas. J. Mar. Syst, v. 2, p.1-41,1991.

[11] FERNÁNDEZ ARÁOZ, N. C. Individual biomass, based on body measures of copepod species considered as main forage items for fishes of the Argentine shelf. Oceanologica Acta, v. 14, p. 575-580, 1991.

[12] GROSJEAN, PH.; PICHERAL, M.; WAREMBOURG, C.; GORSKY, G. Enumeration, measurement, and identification of net zooplankton samples using the ZOOSCAN digital imaging system. ICES J. Mar. Sci, v. 61, p. 518-525, 2004.

[13] HOPCROFT, R. R.; ROFF, J. C.; LOMBARD, D. Production of tropical copepods in Kingston Harbour, Jamaica: the importance of small species. Mar. Biol, v. 130, p. 593-604, 1998.

[14] HUNTER, J. R. Feeding ecology and predation of marine fish larvae. In: Marine fish larvae, morphology, ecology and relation to fisheries Washington: Univ. of Washington Press, 1981.131 p.

[15] IRIGOIEN, X.; FERNÁNDES, J. A.; GROSJEAN, P.; DENIS, K.; ALBAINA, A.; SANTOS, M. Spring zooplankton distribution in the Bay of Biscay from 1998 to 2006 in relation with anchovy recruitment. J. Plankton Res, v. 31, p. 1-17, 2009.

[16] KIMMERER, W. J.; HIRST, A. G.; HOPCROFT, R. R.; MCKINNON, A. D. Estimating juvenile copepod growth rates: corrections, inter-comparisons and recommendations. Mar. Ecol. Prog. Ser, v. 336, p. 187-202, 2007.

[17] MAUCHLINE, J. The biology of calanoid copepods, Advances in Marine Biology, v. 33, Academic Press, New York, 1998. 710 p.

[18] MC KINNON, A. D.; DUGGAN, S.; DE'ATH, G. Mesozooplankton dynamics in inshore waters of the Great Barrier Reef. Estuar. Coast. Shelf. Sci, v. 63, p. 497-511, 2005.

[19] OMORI, M.; IKEDA, T. Methods in Marine Zooplankton Ecology, Wiley- Interscience, New York, 325 pp. 1984.

[20] PÁJARO, M. Alimentación de la anchoíta argentina (Engraulis anchoita Hubbs y Marini, 1935) (Pisces: Clupeiformes) durante la época reproductiva. Rev. Invest. y Des. Pesq , v. 15, p. 111-125, 2002.

[21] PEARRE, S. The copepod width-weight relation and its utility in food chain research. Can. J. Zool , v. 58, p. 1884-1891, 1980.

[22] POSTEL, L., FOCK, H.; HAGEN, W. Biomass and Abundance. In: ICES Zooplankton Methodology Manual, Academic Press, London, 2000, p. 83-192.

[23] RAMÍREZ, F. C. Zooplancton y producción secundaria. Parte I: Variación y distribución estacional de los copépodos. Contr. Inst. Nac. de Invest. y Des. Pesq , v. 383, p. 202-212, 1981.

[24] UYE, S.; SANO, K., Seasonal variations in biomass, growth rate and production rate of the small cyclopoid copepod Oithona davisae in a temperate eutrophic inlet. Mar. Ecol. Prog. Ser., v. 163, p. 37-44, 1998.

[25] VIÑAS, M. D.; GAUDY, R. Annual cycle of Euterpina acutifrons (Copepoda: Harpacticoida) in the Gulf of San Matías (Argentina) and in the Gulf of Marseilles (France). Sci. Mar , v. 60, p. 307-318, 1996.

[26] VIÑAS, M. D.; NEGRI, R. M.; RAMÍREZ, F. C.; HERNÁNDEZ, D. Zooplankton assemblages and hydrography in the spawning area of anchovy (Engraulis anchoita) off Río de la Plata estuary (Argentina, Uruguay). Mar. Freshwat. Res , v. 53, p. 1031-1043, 2002.

[27] VIÑAS, M. D.; RAMÍREZ, F. C. Gut analysis of first-feeding anchovy larvae from Patagonian spawning area in relation to food availability. Arch. Fish. Mar. Res , v. 43, p. 321-256, 1996.

[28] WEBBER, M. K.; ROFF, J. C. Annual biomass and production of the oceanic copepod community off Discovery Bay, Jamaica. Mar. Biol , v. 123, p. 481-495, 1995.

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Individual biovolume of some dominant copepod species in coastal waters off Buenos Aires Province, Argentine Sea

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