Hostname: page-component-8448b6f56d-wq2xx Total loading time: 0 Render date: 2024-04-18T15:28:16.770Z Has data issue: false hasContentIssue false
  • English
  • Français

Age structure and life cycles of the Argentine shortfin squid Illex argentinus (Cephalopoda: Ommastrephidae) in southern Brazil

Published online by Cambridge University Press:  25 April 2012

R. Schwarz  and
J.A.A. Perez
R. Schwarz*
Affiliation:
Grupo de Estudos Pesqueiros (GEP), Centro de Ciências Tecnológicas da Terra e do Mar, Universidade do Vale do Itajaí, Rua Uruguai, 458 Centro, Itajaí, SC, Brasil
J.A.A. Perez
Affiliation:
Grupo de Estudos Pesqueiros (GEP), Centro de Ciências Tecnológicas da Terra e do Mar, Universidade do Vale do Itajaí, Rua Uruguai, 458 Centro, Itajaí, SC, Brasil
*
Correspondence should be addressed to: R. Schwarz, Grupo de Estudos Pesqueiros (GEP) Centro de Ciências Tecnológicas da Terra e do Mar, Universidade do Vale do Itajaí, Rua Uruguai, 458 Centro, Itajaí, SC, Brasil email: richard.schwarz@univali.br
Get access Rights & Permissions [Opens in a new window]

Abstract

Age structure and hatchling dates of the squid Illex argentinus collected by bottom-trawl fishery in southern Brazilian waters were assessed by the analysis of statolith growth increments. Catches occurred between 2001 and 2002, from 23° to 32°S at depths of 100–700 m. Squid from juvenile to post-spawning stages were collected year round, with age estimated from 98 to 320 days and mantle lengths ranging from 112 to 376 mm. Duration of life cycle events based on statolith growth zones revealed that squids can spend about 14% of their lifespan as paralarva (~30 days), 70% as juvenile (~130 days), leaving maturity and spawning condition to the terminal 10–20% (~30–60 days). The results suggest that, unlike estimates available for Patagonian populations, a general 0.5 year lifespan is predicted for I. argentinus off Brazil. The wide range of size-at-ages implied that catches of shortfin squid off southern Brazil probably include squid hatched throughout the year. Mature and spawning squid caught in summer months hatched in winter and spring, while winter catches revealed mature-spawning individuals hatched both in summer/autumn (~6 months of age) and winter/spring periods (~10–11 months of age). It has been argued that such groups may combine both squid resident of Brazilian outer shelf and slope (22°–34°S) with a six months' lifespan and migrating squid originated from the northern Patagonian shelf (~42°S) with 10–11 months' lifespan.

Keywords

Illex argentinusstatolithsagepopulation structuresouthern Brazil
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 93 , Special Issue 2: Fish and Fisheries , March 2013 , pp. 557 - 565
Copyright
Copyright © Marine Biological Association of the United Kingdom 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Arkhipkin, A.I. (1990) Edad y crescimiento del calamar (Illex argentinus). Frente Marítimo 6, 2535.Google Scholar
Arkhipkin, A.I. (1993) Age, growth, stock structure and migratory rate of pre-spawning short finned squid, Illex argentinus based on statolith ageing investigations. Fisheries Research 16, 313338.CrossRefGoogle Scholar
Arkhipkin, A.I. (2004) Diversity in growth and longevity in short-lived animals: squid of suborder Oegopsina. Marine and Freshwater Research 55, 341355.CrossRefGoogle Scholar
Arkhipkin, A.I. (2005) Statoliths as ‘blackboxes’ (life recorders) in squid. Marine and Freshwater Research 56, 573583.CrossRefGoogle Scholar
Arkhipkin, A.I. and Perez, J.A.A. (1998) Life history reconstruction. In Rodhouse, P.G., Dawe, E.G. and O'Dor, R.K. (eds) Squid recruitment dynamics. The genus Illex as a model. The commercial lllex species. The influences on variability. Rome: FAO, Fisheries Technical Paper, pp. 157180.Google Scholar
Arkhipkin, A.I., Jereb, P. and Ragonese, S. (2000) Growth and maturation in two successive groups of the short-finned squid, Illex coindetii from the Strait of Sicily (Central Mediterranean). ICES Journal of Marine Sciences 57, 3141. doi: 10.1006/JMSC.1999.0488.CrossRefGoogle Scholar
Balch, N., Sirois, A. and Hurley, G.V. (1988) Growth increments in statoliths from paralarvae of the ommastrephid squid Illex (Cephalopoda: Teuthoidea). Malacologia 29, 103112.Google Scholar
Bazzino, G., Quiñones, R.A. and Norbis, W. (2005) Environmental associations of shortfin squid Illex argentinus (Cephalopoda: Ommastrephidae) in the Northern Patagonian Shelf. Fisheries Research 76, 401416.CrossRefGoogle Scholar
Boyle, P. and Rodhouse, P.G. (2005) Cephalopods: ecology and fisheries. Oxford: Blackwell Publishing, 452 pp.CrossRefGoogle Scholar
Brunetti, N.E. (1990) Escala para la identificación de estadios de madurez sexual del calamar, (Illex argentinus). Frente Marítimo 7(A), 4552.Google Scholar
Castro, B.M., Lorenzetti, J.A., Silveira, I.C.A. and Miranda, L.B. (2006) Estrutura termohalina e circulação na região entre o Cabo de São Tomé (RJ) e o Chuí (RS). In Rossi-Wongtschowski, C.L.D.B. and Madureira, L.S.P. (eds) The oceanographic environment of continental shelf and slope off south-east–south Brazil. São Paulo: EDUSP, pp. 11120. [In Portuguese.]Google Scholar
Dawe, E.G., O'Dor, R.K., Odense, P.H. and Hurley, G.V. (1985) Validation and application of an ageing technique for short-finned squid (Illex illecebrosus). Journal of Northwest Atlantic Fisheries Science 6, 107116.CrossRefGoogle Scholar
FAO (2010) Fishery and aquaculture statistics. 2008/FAO annuaire. Rome: FAO, 72 pp.Google Scholar
Hayashi, Y. (1970) Studies on the maturity condition of the common squid—I. a method of expressing maturity conditions by numeric values. Bulletin of the Japanese Society of Scientific Fisheries 36, 995999.CrossRefGoogle Scholar
Haimovici, M. and Perez, J.A.A. (1990) Distribución y maduración sexual Del calamar argentino, Illex argentinus (Castellanos, 1960) (Cephalopoda: Ommastrephidae) en el sur de Brasil. Scientia Marina 54, 179195.Google Scholar
Haimovici, M., Vidal, E.G. and Perez, J.A.A. (1995) Larvae of Illex argentinus from five surveys on the continental shelf of southern Brazil. ICES Marine Science Symposia 199, 414424.Google Scholar
Haimovici, M., Brunetti, N.E., Rodhouse, P.G., Csirke, J. and Leta, R.H. (1998) Illex argentinus. In Rodhouse, P.G., Dawe, E.G. and O'Dor, R.K. (eds) Squid recruitment dynamics. The genus Illex as a model. The commercial lllex species. The influences on variability. Rome: FAO. Fisheries Technical Paper, pp. 2758.Google Scholar
Hatanaka, H., Kawahara, S. and Uozomi, Y. (1985) Comparison of life cycles of five ommastrephid squids fished by japan, Todarodes pacificus, Illex illecebrosus, Illex argentinus, Nototodarus sloanii sloanii and Nototodarus sloanii gouldi . NAFO Scientific Council Studies 9, 5968.Google Scholar
Jackson, G.D. and O'Dor, R.K. (2001) Time, space and ecophysiology of squid growth, life in the fast lane. Vie et Milieu 51, 205215.Google Scholar
Laptikhovsky, V.V., Arkhipkin, A.I. and Golub, A.A. (1993) Larval age, growth and mortalilty in the oceanic squid Sthenoteuthis pteropus (Cephalopoda, Ommastrephidae) from the eastern tropical Atlantic. Journal of Plankton Research 15, 375384.CrossRefGoogle Scholar
O'Dor, R.K. and Coelho, M.L. (1993) Big squid, big currents and big fisheries. In Okutani, T., O'Dor, R.K. and Kubodera, T. (eds) Recent advances in fisheries biology. Tokyo: Tokai University Press, pp. 385396.Google Scholar
Perez, J.A.A., Lucato, S.H.B., Andrade, H.A., Pezzuto, P.R. and Rodrigues-Ribeiro, M. (1998) Programa de amostragem da pesca industrial desenvolvido para o porto de Itajaí, SC. Notas Técnicas da FACIMAR 2, 93108.Google Scholar
Perez, J.A.A., Silva, T.N., Schroeder, R., Schwarz, R. and Martins, R.S. (2009a) Biological patterns of the Argentine shortfin squid Illex argentinus in slope trawl fishery off Brazil. Latin American Journal of Aquatic Research 37, 409428.CrossRefGoogle Scholar
Perez, J.A.A., Pezzuto, P.R., Wahrlich, R. and Soares, A.L.S. (2009b) Deep-water fisheries in Brazil: history, status and perspectives. Latin American Journal of Aquatic Research 37, 513542.CrossRefGoogle Scholar
Rodhouse, P.G., Dawe, E.G. and O'Dor, R.K. (1998) Squid recruitment dynamics. The genus Illex as a model. The commercial lllex species . The influences on variability. Rome: FAO. FisheriesTechnical Paper, 376 pp.Google Scholar
Sakai, M., Brunetti, N., Ivanovic, M., Elena, B. and Nakamura, K. (2004) Interpretation of statolith microstructure in reared hatchling paralarvae of Illex argentinus . Marine and Freshwater Research 55, 403413.CrossRefGoogle Scholar
Santos, R.A. and Haimovici, M. (1997) Reproductive biology of winter–spring spawners of Illex argentinus (Cephalopoda: Ommastrephidae) off southern Brazil. Scientia Marina 61, 5364.Google Scholar
Santos, R.A. and Haimovici, M. (2000) The Argentine short-finned squid Illex argentinus in the food webs of southern Brazil. Sarsia 85, 4960.CrossRefGoogle Scholar
Schroeder, R. and Perez, J.A.A. (2010) The study of intra-specific growth variability of Illex argentinus (Cephalopoda: Teuthida) in Brazilian waters as reconstructed from the gladius microstructure. Fisheries Research 106, 163170.CrossRefGoogle Scholar
Schwarz, R. and Perez, J.A.A. (2007) Diferenciação populacional do calamar—argentino (Illex argentinus) (CEPHALOPODA: TEUTHIDEA) no sul do Brasil através da morfologia e morfometria do estatólito. Brazilian Journal of Aquatic Science and Technology 11, 112. [In Portuguese.]CrossRefGoogle Scholar
Schwarz, R. and Perez, J.A.A. (2010) Growth model identification of short-finned squid Illex argentinus (Cephalopoda: Ommastrephidae) off southern Brazil using statoliths. Fisheries Research 106, 177184.CrossRefGoogle Scholar
Uozumi, Y. and Shiba, C. (1993) Growth and age composition of Illex argentinus (Cephalopoda: Oegopsida) based on daily increment counts in statoliths. In Okutani, T., O'Dor, R.K. and Kubodera, T. (eds) Recent advances in cephalopod fisheries biology. Tokyo: Tokai Universtiy Press, pp. 591606.Google Scholar
Vidal, E.A.G. (1994) Relative growth of paralarvae and juveniles of Illex argentinus (Castellanos, 1960) in southern Brazil. Antarctic Science 6, 275282.CrossRefGoogle Scholar
Waluda, C.M., Rodhouse, P.G., Podestá, G.P., Trathan, P.N. and Pierce, G.P. (2001) Surface oceanography of the inferred hatching grounds of Illex argentinus (Cephalopoda: Ommastrephidae) and influences on recruitment variability. Marine Biology 139, 671–639.Google Scholar