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Spatio-temporal and ontogenetic changes in the diet of the Argentine hake Merluccius hubbsi

Published online by Cambridge University Press:  24 June 2014

Mauro Belleggia*
Affiliation:
Instituto Nacional de Investigación y Desarrollo Pesquero, Paseo Victoria Ocampo 1, Mar del Plata, B7602HSA, Argentina Laboratorio de Ictiología, Instituto de Investigaciones Marinas y Costeras, Universidad Nacional de Mar del Plata, Funes 3350, B7602AYL, Mar del Plata, Argentina Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Avenida Rivadavia 1917, C1033AAJ, Cuidad Autónoma de Buenos Aires, Argentina
Daniel E. Figueroa
Affiliation:
Laboratorio de Ictiología, Instituto de Investigaciones Marinas y Costeras, Universidad Nacional de Mar del Plata, Funes 3350, B7602AYL, Mar del Plata, Argentina
Gabriela Irusta
Affiliation:
Instituto Nacional de Investigación y Desarrollo Pesquero, Paseo Victoria Ocampo 1, Mar del Plata, B7602HSA, Argentina
Claudia Bremec
Affiliation:
Instituto Nacional de Investigación y Desarrollo Pesquero, Paseo Victoria Ocampo 1, Mar del Plata, B7602HSA, Argentina Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Avenida Rivadavia 1917, C1033AAJ, Cuidad Autónoma de Buenos Aires, Argentina
*
Correspondence should be addressed to: M. Belleggia, Instituto Nacional de Investigación y Desarrollo Pesquero, Paseo Victoria Ocampo 1, Mar del Plata, B7602HSA, Argentina email: [email protected]

Abstract

The diet and the trophic level of the Argentine hake Merluccius hubbsi was investigated in the south-west Atlantic Ocean. Stomachs from 3405 specimens, ranging from 10 to 94 cm total length, collected on three research cruises carried out during winter 2011 and summer 2012, were examined at the laboratory. Dietary shifts related to sex, maturity stage, size, age, season, region and hour were examined using generalized linear models. The Argentine hake M. hubbsi fed mainly on zooplankton crustaceans (Themisto gaudichaudii, Euphausia lucens and Munida spp.), followed by fish and cephalopods. During summer, cephalopods (mainly Illex argentinus) were the main prey of M. hubbsi, indicating spatio-temporal changes in the diet. This work also revealed ontogenetic dietary changes associated with size, from zooplankton crustaceans during early life stages (E. lucens, T. gaudichaudii and Munida spp.) to fish and cephalopods. The trophic level of M. hubbsi ranged from 3.43 to 4.51 according to season and region. Cannibalism increased with predator length and contributed a maximum of 8.14% to the diet of M. hubbsi during winter on the inner Patagonian continental shelf.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2014 

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References

REFERENCES

Acha, E.M., Mianzan, H.W., Guerrero, R.A., Favero, M. and Bava, J. (2004) Marine fronts at the continental shelves of austral South America. Physical and ecological processes. Journal of Marine Systems 44, 83105.Google Scholar
Angelescu, V. and Cousseau, M.B. (1969) Alimentación de la merluza en la región del talud continental Argentino, época invernal (Merluccidae Merluccius hubbsi). Boletín del Instituto de Biología Marina 19, 584.Google Scholar
Angelescu, V., Gneri, F.S. and Nani, A. (1958) La merluza del mar Argentino (biologia y taxonomía). Buenos Aires: Secretaría Marina, Servicio de Hidrografía Naval.Google Scholar
Angelescu, V. and Prenski, L.B. (1987) Ecología trófica de la merluza común del mar Argentino (Merluccidae, Merluccius hubbsi). Parte 2. Dinámica de la alimentación analizada sobre la base de las condiciones ambientales, la estructura y las evaluaciones de los efectivos en su área de distribución. Contribución INIDEP 561, 1205.Google Scholar
Arkhipkin, A.I., Middleton, D.A.J., Portela, J.M. and Bellido, J.M. (2003) Alternative usage of common feeding grounds by large predators: the case of two hakes (Merluccius hubbsi and M. australis) in the Southwest Atlantic. Aquatic Living Resources 16, 487500.Google Scholar
Aubone, A., Bezzi, S.I., Cañete, G., Castrucci, R., Dato, C., Irusta, G., Madirolas, A., Pérez, M., Renzi, M., Santos, B., Simonazzi, M. and Villarino, M.F. (2004) Evaluación y sugerencias de manejo del recurso merluza (Merluccius hubbsi). La situación hasta 1999. In Sánchez, R. and Bezzi, S. (eds) El Mar Argentino y sus recursos pesqueros. Tomo IV. Los peces marinos de interés pesquero. Caracterización biológica y evaluación del estado del estado de explotación. Mar del Plata: INIDEP, pp. 207235.Google Scholar
Bastida, R.O. and Torti, M.R. (1973) Los Isópodos Serolidae en la Argentina. Clave para su reconocimiento. Physis 84, 1946.Google Scholar
Bastida, R.O., Roux, A. and Martínez, D.E. (1992) Benthic communities of the Argentine continental shelf. Oceanologica Acta 15, 687698.Google Scholar
Bezzi, S.I., Verazay, G.A. and Dato, C.V. (1995) Biology and fisheries of Argentine hakes (M. hubbsi and M. australis). In Alheit, J. and Pitcher, T.J. (eds) Hake: biology, fisheries and markets. London: Chapman & Hall, pp. 229267.Google Scholar
Brunetti, N.E. and Ivanovic, M.L. (1992) Distribution and abundance of early life stages of squid (Illex argentinus) in the south-west Atlantic. ICES Journal of Marine Science 49, 175183.Google Scholar
Brunetti, N.E., Ivanovic, M., Rossi, G., Elena, B. and Pineda, S. (1998) Fishery biology and life history of Illex argentinus. In Okutani, T. (ed.) Contributed papers to International Symposium on Large Pelagic Squid. Tokyo: Marine Fishery Resources Research Center, pp. 217–232.Google Scholar
Buckley, T.W. and Livingston, P.A. (1997) Geographic variation in the diet of Pacific hake with a note on cannibalism. California Cooperative Oceanic Fisheries Investigations 38, 5362.Google Scholar
Carpentieri, P., Colloca, F., Cardinale, M., Belluscio, A. and Ardizzone, G.D. (2005) Feeding habits of European hake (Merluccius merluccius) in the central Mediterranean Sea. Fishery Bulletin 103, 411416.Google Scholar
Cartes, J.E., Hidalgo, M., Papiol, V., Massutí, E. and Moranta, J. (2009) Changes in the diet and feeding of the hake Merluccius merluccius at the shelf-break of the Balearic Islands: influence of the mesopelagic-boundary community. Deep-Sea Research I 56, 344365.Google Scholar
Chiou, W., Chen, C., Wang, C. and Chen, C. (2006) Food and feeding habits of ribbonfish Trichiurus lepturus in coastal waters of south-western Taiwan. Fisheries Science 72, 373381.Google Scholar
Ciancio, J., Pascual, M. and Beauchamp, D. (2007) Energy density of Patagonian aquatic organisms and empirical predictions based on water content. Transactions of the American Fisheries Society 136, 14151422.Google Scholar
Cochrane, K.L. (2002) The use of scientific information in the design of management strategies; Chapter 5. Rome: FAO, Fisheries Technical Paper No. 424, pp. 95–130.Google Scholar
Cordo, H.D. (1981) Resultados sobre la alimentación de la merluza del mar epicontinental Argentino (Merluccius hubbsi). Análisis biológico y estadístico de los datos obtenidos de las campañas de B/I “Shinkai Maru” y “Walther Herwig” (1978–1979). In Angelescu, V. (ed.) Campañas de investigación pesquera realizadas en el mar Argentino por los B/I “Shinkai Maru” y “Walther Herwig”, años1978 y 1979. Resultados de la parte argentina. Mar del Plata: INIDEP, pp. 299312.Google Scholar
Cortés, E. (1997) A critical review of methods of studying fish feeding based on analysis of stomach contents: application to elasmobranch fishes. Canadian Journal of Fisheries and Aquatic Sciences 54, 726738.Google Scholar
Cortés, E. (1999) Standardized diet compositions and trophic levels of sharks. ICES Journal of Marine Science 56, 707717.Google Scholar
Cousseau, M.B. and Perrota, R.G. (2004) Peces Marinos de Argentina: Biología, Distribución y Pesca. Mar del Plata: INIDEP.Google Scholar
Crawley, M.J. (2005) Statistics: an introduction using R. Chichester: John Wiley & Sons.Google Scholar
Crespi, A.C.A., Morsan, E.M. and Barón, P.J. (2008) Contribution to understanding the population structure and maturation of Illex argentinus (Castellanos, 1960): the case of the inner-shelf spawning groups in San Matias Gulf (Patagonia, Argentina). Journal of Shellfish Research 27, 12251231.Google Scholar
Di Giácomo, E.E., Calvo, J., Perier, M.R. and Morriconi, E.R. (1993) Spawning aggregations of Merluccius hubbsi, in Patagonian waters: evidence for a single stock? Fisheries Research 16, 916.Google Scholar
Dunn, M.R., Stevens, D.S., Forman, J.S. and Connell, A. (2013) Trophic interactions and distribution of some Squaliforme sharks, including new diet descriptions for Deania calcea and Squalus acanthias. PLoS ONE 8, e59938. doi:10.1371/journal.pone.0059938.Google Scholar
Ebert, D.A. and Bizzarro, J.J. (2007) Standardized diet compositions and trophic levels of skates (Chondrichthyes: Rajiformes: Rajoidei). Environmental Biology of Fishes 80, 221237.Google Scholar
Ehrlich, M.D. and Ciechomski, J.D. (1994) Reseña sobre la distribución de huevos y larvas de merluza (Merluccius hubbsi) basada en veinte años de investigación. Frente Marítimo 15, 3750.Google Scholar
Franklin, A.B., Shenk, T.M., Anderson, D.R. and Burnham, K.P. (2001) Statistical model selection: the alternative to null hypothesis testing. In Shenk, T.M. and Franklin, A.B. (eds) Modeling in natural resource management: development, interpretation, and application. Washington, DC: Island Press, pp. 7590.Google Scholar
Garrison, L.P. and Link, J. (2000) Diets of five hake species in the northeast United States continental shelf ecosystem. Marine Ecology Progress Series 204, 243255.Google Scholar
Guerrero, R.A. and Piola, R.A. (1997) Masas de agua de la plataforma continental. In Boschi, E.E. (ed.) El Mar Argentino y sus Recursos Pesqueros. Volume I. Mar del Plata: INIDEP, pp. 107118.Google Scholar
Hollowed, A.B., Ianelli, J.N. and Livingston, P.A. (2000) Including predation mortality in stock assessments: a case study for Gulf of Alaska walleye Pollock. ICES Journal of Marine Science 57, 279293.Google Scholar
Iitembu, J.A., Miller, T.W., Ohmori, K., Kanime, A. and Wells, S. (2012) Comparison of ontogenetic trophic shift in two hake species, Merluccius capensis and Merluccius paradoxus, from the Northern Benguela Current ecosystem (Namibia) using stable isotope analysis. Fisheries Oceanography 21, 215225.Google Scholar
Johnson, J.B. and Omland, K.S. (2004) Model selection in ecology and evolution. Trends in Ecology and Evolution 19, 101108.Google Scholar
Juanes, F. (2003) The allometry of cannibalism in piscivorous fishes. Canadian Journal of Fisheries and Aquatic Sciences 60, 594602.Google Scholar
Laptikhovsky, V. and Fetisov, A. (1999) Scavenging by fish of discards from the Patagonian squid fishery. Fisheries Research 41, 9397.Google Scholar
Lloris, D., Matallanas, J. and Oliver, P. (2003) Merluzas del Mundo (Familia Merlucciidae). Catálogo comentado e ilustrado de las merluzas conocidas. Rome: FAO.Google Scholar
Lucifora, L.O., García, V.B. and Escalante, A.H. (2009) How can the feeding habits of the sand tiger shark influence the success of conservation programs? Animal Conservation 12, 291301.Google Scholar
Macchi, G.J. and Pájaro, M. (2003) Comparative reproductive biology of some commercial marine fishes from Argentina. Fisken og Havet 12, 6977.Google Scholar
Macchi, G.J., Pájaro, M. and Dato, C. (2007) Spatial variations of the Argentine hake (Merluccius hubbsi (Marini, 1933)) spawning shoals in the Patagonian area during a reproductive season. Revista de Biología Marina y Oceanografía 42, 345356.Google Scholar
Mahe, K., Amara, R., Brychaert, T., Kacher, M. and Brylinski, J.M. (2007) Ontogenetic and spatial variation in the diet of hake (Merluccius merluccius) in the Bay of Biscay and the Celtic Sea. ICES Journal of Marine Science 64, 12101219.Google Scholar
Nelson, J.S. (2006) Fishes of the world. New York: John Wiley and Sons.Google Scholar
Ocampo Reinaldo, M., González, R. and Romero, M.A. (2011) Feeding strategy and cannibalism of the Argentine hake Merluccius hubbsi. Journal of Fish Biology 79, 17951814.Google Scholar
Orlova, E.L., Dolgov, A.V., Rudneva, G.B. and Nesterova, V.N. (2005) The effect of abiotic and biotic factors on the importance of macroplankton in the diet of Northeast Arctic cod in recent years. ICES Journal of Marine Science 62, 14631474.Google Scholar
Pauly, D., Christensen, V., Dalsgaard, J., Froese, R. and Torres, F. Jr (1998) Fishing down marine food webs. Science 279, 860863.Google Scholar
Pérez Seijas, G.M., Ramírez, F.C. and Viñas, M.D. (1987) Variaciones de la abundancia numérica y biomasa del zooplancton de red en el Golfo San Jorge (Año 1985). Revista de Investigación y Desarrollo Pesquero 7, 520.Google Scholar
Pinkas, L.M., Oliphant, S. and Iverson, I.L.K. (1971) Food habits of albacore, bluefin tuna and bonito in Californian waters. California Fish and Game 152, 1105.Google Scholar
Piola, A.R., Avellaneda, N.M., Guerrero, R.A., Jardón, F.P., Palma, E.D. and Romero, S.I. (2010) Malvinas-slope water intrusions on the northern Patagonia continental shelf. Ocean Science Discussions 6, 29392974.Google Scholar
Pitcher, T.J. and Alheit, J. (1995) What makes a hake? A review of the critical biological features that sustain global hake fisheries. In Alheit, J. and Pitcher, T.J. (eds) Hake: biology, fisheries and markets. London: Chapman & Hall, pp. 114.Google Scholar
Ramírez, F.C. and Viñas, M.D. (1985) Hyperiid amphipods found in Argentine shelf waters. Physis 43, 2537.Google Scholar
Ramírez, F.C. (1971) Eufáusidos de algunos sectores del Atlántico Sud-Occidental. Physis 30, 385405.Google Scholar
Renzi, M.A. and Pérez, M.A. (1992) Un criterio para la determinación de la edad en juveniles de merluza (Merluccius hubbsi) mediante la lectura de otolitos. Frente Marítimo 11, 1531.Google Scholar
Roux, A. and Piñero, R. (2006) Crustáceos decápodos y estomatópodos asociados a la pesquería del langostino patagónico Pleoticus muelleri (Bate, 1888) en el Golfo San Jorge, Argentina. Revista de Investigación y Desarrollo Pesquero 18, 3343.Google Scholar
Ruiz, A.E. and Fondacaro, R.R. (1997) Diet of hake (Merluccius hubbsi Marini) in a spawning and nursery area within Patagonian shelf waters. Fisheries Research 30, 157160.Google Scholar
Sabatini, M.E. (2008) El ecosistema de la plataforma patagónica austral, marzo-abril 2000. Composición, abundancia y distribución del zooplancton. Revista de Investigación y Desarrollo Pesquero 19, 521.Google Scholar
Sabatini, M.E. and Álvarez Colombo, G.L. (2001) Seasonal pattern of zooplankton biomass in the Argentinian shelf off Southern Patagonia (45°–55°S). Scientia Marina 65, 2131.Google Scholar
Sánchez, F. (2009) Alimentación de la merluza (Merluccius hubbsi) en el Golfo San Jorge y aguas adyacentes. Informe Técnico INIDEP 75, 121.Google Scholar
Sánchez, F. and Prenski, L.B. (1996) Ecología trófica de peces demersales en el Golfo San Jorge. Revista de Investigación y Desarrollo Pesquero 10, 5771.Google Scholar
Sánchez, F. and García de la Rosa, S.B. (1999) Alimentación de Merluccius hubbsi e impacto del canibalismo en la región comprendida entre 34°50′S–47°S del Atlántico Sudoccidental. Revista de Investigación y Desarrollo Pesquero 12, 7793.Google Scholar
Santos, B.A. (1994) Biomasa y composición del zooplancton de interés trófico-pesquero en áreas del Atlántico Sudoccidental. Campaña H-01/93, 42°–51°S, enero 1993. Informe Técnico INIDEP 2, 521.Google Scholar
Sea Around Us (2014) A global database on marine fisheries and ecosystems. http://www.seaaroundus.org (accessed 15 April 2014).Google Scholar
Stergiou, K.I. and Karpouzi, V.S. (2002) Feeding habits and trophic levels of Mediterranean fish. Reviews in Fish Biology and Fisheries 11, 217254.Google Scholar
Tanasichuk, K.W., Ware, D.M., Shaw, W. and McFarlane, G.A. (1991) Variation in diet, daily ration, and feeding periodicity of Pacific hake (Merluccius productus) and spiny dogfish (Squalus acanthias) off the lower west coast of Vancouver Island. Canadian Journal of Fisheries and Aquatic Sciences 48, 21182128.Google Scholar
Temperoni, B., Viñas, M.D. and Buratti, C.C. (2013) Feeding strategy of juvenile (age-0+ year) Argentine hake Merluccius hubbsi in the Patagonian nursery ground. Journal of Fish Biology 83, 13541370.Google Scholar
Thrush, S.F. and Dayton, P.K. (2010) What can ecology contribute to ecosystem-based management? Annual Review of Marine Science 2, 419441.Google Scholar
Vögler, R., Milessi, A.C. and Duarte, L.O. (2009) Changes in trophic level of Squatina guggenheim with increasing body length: relationships with type, size and trophic level of its prey. Environmental Biology of Fishes 84, 4152.Google Scholar
Vollenweider, J., Heintz, R., Schaufler, L. and Bradshaw, R. (2011) Seasonal cycles in whole-body proximate composition and energy content of forage fish vary with water depth. Marine Biology 158, 413427.Google Scholar
Wootton, R.J. (1990) Ecology of teleost fishes. London, UK: Chapman & HallGoogle Scholar