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Early life history of the ocellated icefish, Chionodraco rastrospinosus, off the Antarctic Peninsula

Published online by Cambridge University Press:  09 January 2013

Mario La Mesa ,
Barbara Catalano  and
Christopher D. Jones
Mario La Mesa*
Affiliation:
ISMAR-CNR, Istituto di Scienze Marine, Sede di Ancona, Largo Fiera della Pesca, 60125 Ancona, Italy
Barbara Catalano
Affiliation:
ISPRA, Istituto Superiore per la Protezione e la Ricerca Ambientale, Via di Casalotti 300, 00166 Roma, Italy
Christopher D. Jones
Affiliation:
Southwest Fisheries Science Center, National Marine Fisheries Service, NOAA, 8604 La Jolla Shores Drive, La Jolla, CA 92037, USA
*
m.lamesa@ismar.cnr.it
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Abstract

Age, growth and feeding habits of early life stages of Chionodraco rastrospinosus Dewitt & Hureau, the most abundant channichthyid in the larval fish assemblages of the Bransfield Strait, were studied by otolith microincrement counts and stomach content analyses. Individuals measuring 39–69 mm standard length were caught in the uppermost depth strata down to 300 m from Brabant to Joinville islands along the northern Antarctic Peninsula. The sample consisted of post-larvae and juveniles aged 105–211 days, with a mean growth rate of 0.25 mm day-1. Larval size at hatching was estimated to be c. 17.2 mm. Hatching was spread over a relatively long period from August–November. Sagittal otoliths were characterized by a strong check located at 23–52 microincrements of distance from the core, tentatively associated with the onset of first exogenous feeding. The relatively long period during which larvae can rely on yolk reserves and the large size at hatching enable them to utilize a wide size range of prey, as well as cope with occasional food shortages. The stomach contents consisted exclusively of euphausiids (furcilia and adults) and larvae of Pleuragramma antarcticum Boulenger. Based on growth rate, the residence time in pelagic waters of juvenile C. rastrospinosus was estimated to be about a year and a half.

Keywords

age and growthBransfield Straitchannichthyidsfeedinglarval stagesSouthern Ocean
Type
Biological Sciences
Information
Antarctic Science , Volume 25 , Issue 3 , June 2013 , pp. 373 - 380
Copyright
Copyright © Antarctic Science Ltd 2013 

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References

Ashford, J., La Mesa, M., Fach, B.A., Jones, C.Everson, I. 2010. Testing early life connectivity using otolith chemistry and particle-tracking simulations. Canadian Journal of Fisheries and Aquatic Sciences, 67, 13031315.CrossRefGoogle Scholar
Beamish, R.J.Fournier, D.A. 1981. A method of comparing the precision of a set of age determinations. Canadian Journal of Fisheries and Aquatic Sciences, 38, 982983.CrossRefGoogle Scholar
Campana, S.E. 2001. Accuracy, precision and quality control in age determination, including a review of the use and abuse of age validation methods. Journal of Fish Biology, 59, 197242.CrossRefGoogle Scholar
Campana, S.E.Jones, C. 1992. Analysis of otolith microstructure data. In Stevenson, D.K.&Campana, S.E.,eds. Otolith microstructure examination and analysis. Canadian Special Publication of Fisheries and Aquatic Sciences, 117, 73–100.Google Scholar
Capella, J.E., Ross, R.M., Quetin, L.B.Hofmann, E.E. 1992. A note on the thermal structure of the upper ocean in the Bransfield Strait-South Shetland Islands region. Deep-Sea Research I, 39, 12211229.CrossRefGoogle Scholar
Chang, W.Y.B. 1982. A statistical method for evaluating the reproducibility of age determination. Canadian Journal of Fisheries and Aquatic Sciences, 39, 12081210.CrossRefGoogle Scholar
Fach, B.A.Klinck, J.M. 2006. Transport of Antarctic krill (Euphausia superba) across the Scotia Sea. Part I. Circulation and particle tracking simulations. Deep-Sea Research I, 53, 9871010.CrossRefGoogle Scholar
Galarza, J.A., Carreras-Carbonell, J., MacPherson, E., Pascual, M., Roques, S., Turner, G.F.Rico, C. 2009. The influence of oceanographic fronts and early-life-history traits on connectivity among littoral fish species. Proceedings of the National Academy of Sciences of the United States of America, 106, 14731478.CrossRefGoogle ScholarPubMed
Garcia, M.A., Castro, C.G., Rios, A.F., Doval, M.D., Roson, G., Gomis, D.Lopez, O. 2002. Water masses and distribution of physico-chemical properties in the western Bransfield Strait and Gerlache Strait during austral summer 1995/96. Deep Sea Research II, 49, 585602.CrossRefGoogle Scholar
Gubsch, G. 1982. Zur Verbreitung und zur Biologie der Eisfische (Chaenichthyidae) im atlantischen Sektor der Antarktis. Fischerei-Forschung, 20, 3947.Google Scholar
Hofmann, E.E., Klinck, J.M., Lascara, C.M.Smith, D.A. 1996. Water mass distribution and circulation west of the Antarctic Peninsula and including Bransfield Strait. Antarctic Research Series, 70, 6180.CrossRefGoogle Scholar
Hyslop, E.J. 1980. Stomach contents analysis - a review of methods and their application. Journal of Fish Biology, 17, 411429.CrossRefGoogle Scholar
Kellermann, A. 1986. On the biology of early life stages of notothenioid fishes (Pisces) off the Antarctic Peninsula. Berichte zur Polarforschung, 31, 1149.Google Scholar
Kellermann, A. 1989a. The larval fish community in the zone of seasonal ice cover and its seasonal and interannual variability. Archiv für Fischereiwissenschaft, 39, 89109.Google Scholar
Kellermann, A. 1989b. Food and feeding of early stage Chionodraco rastrospinosus DeWitt & Hureau 1979 (Pisces; Notothenioidei) off the Antarctic Peninsula. Pesquesa Antartica Brasiliana, 1, 2530.Google Scholar
Kellermann, A. 1990. Catalogue of early life stages of Antarctic notothenioid fish. Berichte zur Polarforschung, 67, 45136.Google Scholar
Kellermann, A.Kock, K.H. 1984. Post-larval and juvenile notothenioids (Pisces, Perciformes) in the southern Scotia Sea and northern Weddell Sea during FIBEX 1981. Meeresforschung, 30, 8293.Google Scholar
Kellermann, A.Kock, K.H. 1988. Patterns of spatial and temporal distribution and their variation in early life stages of Antarctic fish in the Antarctic Peninsula region. In Sahrhage, D.,ed. Southern Ocean and resources variability. Berlin: Springer, 147159.CrossRefGoogle Scholar
Kellermann, A.Schadwinkel, S. 1991. Winter aspects of the ichthyoplankton community in Antarctic Peninsula waters. Polar Biology, 11, 117127.CrossRefGoogle Scholar
Kellermann, A.K., Gauldie, R.W.Ruzicka, J.J. 2002. Otolith microincrements in the Antarctic fishes Notothenia coriiceps and Pseudochaenichthys georgianus. Polar Biology, 25, 799807.CrossRefGoogle Scholar
Kock, K.H. 1989. Reproduction in Antarctic fish around Elephant Island. Archiv für Fischereiwissenschaft, 39, 171210.Google Scholar
Kock, K.H. 2005. Antarctic icefishes (Channichthyidae): a unique family of fishes. A review, Part I. Polar Biology, 28, 862895.CrossRefGoogle Scholar
Kock, K.H.Jones, C.D. 2005. Fish stocks in the Southern Scotia Arc region - a review and prospects for future research. Reviews in Fisheries Science, 13, 75108.CrossRefGoogle Scholar
Kock, K.H.Kellermann, A. 1991. Reproduction in Antarctic notothenioid fish. Antarctic Science, 3, 125150.CrossRefGoogle Scholar
Kock, K.H., Jones, C.D.Wilhelms, S. 2000. Biological characteristics of Antarctic fish stocks in the southern Scotia Arc region. CCAMLR Science, 7, 142.Google Scholar
La Mesa, M.Ashford, J. 2008. Age and early life history of juvenile Scotia Sea icefish, Chaenocephalus aceratus, from Elephant and the South Shetland islands. Polar Biology, 31, 221228.CrossRefGoogle Scholar
Loeb, V., Kellermann, A., Koubbi, P., North, A.W.White, M.G. 1993. Antarctic larval fish assemblages: a review. Bulletin of Marine Science, 53, 416449.Google Scholar
Morales-Nin, B., Palomera, I.Schadwinkel, S. 1995. Larval fish distribution and abundance in the Antarctic Peninsula region and adjacent waters. Polar Biology, 15, 143154.CrossRefGoogle Scholar
Morley, S.A., Belchier, M., Dickson, J.Mulvey, T. 2005. Daily otolith increment validation in larval mackerel icefish, Champsocephalus gunnari. Fisheries Research, 75, 200203.CrossRefGoogle Scholar
Orsi, A.H., Whitworth, T. Nowlin Jr, W.D. 1995. On the meridional extent and fronts of the Antarctic Circumpolar Current. Deep-Sea Research I, 42, 641673.CrossRefGoogle Scholar
Papetti, C., Susana, E., Patarnello, T.Zane, L. 2009. Spatial and temporal boundaries to gene flow between Chaenocephalus aceratus populations at South Orkney and South Shetland Islands. Marine Ecology Progress Series, 376, 269281.CrossRefGoogle Scholar
Papetti, C., Pujolar, J.M., Mezzavilla, M., La Mesa, M., Rock, J., Zane, L.Patarnello, T. 2012. Population genetic structure and gene flow patterns between populations of the Antarctic icefish Chionodraco rastrospinosus. Journal of Biogeography, 39, 13611372.CrossRefGoogle Scholar
Radtke, R.L.Kellermann, A. 1991. Microstructural analysis of growth patterns in the early life history of Antarctic fishes. In Di Prisco, G., Maresca, B.&Tota, B., eds. Biology of Antarctic fish. Berlin: Springer, 101115.CrossRefGoogle Scholar
Sinque, C., Koblitz, S.Costa, L.M. 1986. Ichthyoplankton of Bransfield Strait - Antarctica. Neritica, 1, 91102.Google Scholar
Slosarczyk, W. 1987. Contribution to the early life history of Channichthyid from the Bransfield Strait and South Georgia (Antarctica). In Kullander, S.O.&Fernholm, B., eds. Proceedings of Fifth Congress of the European Ichthyological Society. Stockholm: Swedish Museum of Natural History, 427433.Google Scholar
Slosarczyk, W.Rembiszewski, J.M. 1982. The occurrence of juvenile Notothenioidei (Pisces) within krill concentrations in the region of the Bransfield Strait and the southern Drake Passage. Polish Polar Research, 3, 299312.Google Scholar
Smith, D.A., Hofmann, E.E., Klinck, J.M.Lascara, C.M. 1999. Hydrography and circulation of the west Antarctic Peninsula continental shelf. Deep Sea Research I, 46, 925949.CrossRefGoogle Scholar
Stein, M. 1989. Seasonal variation of water masses in Bransfield Strait and adjacent waters. Archiv für Fischereiwissenschaft, 39, 1538.Google Scholar
Thompson, A.F., Heywood, K.J., Thorpe, S.E.Trasviña, A. 2009. Surface circulation at the tip of the Antarctic Peninsula from drifters. Journal of Physical Oceanography, 39, 226.CrossRefGoogle Scholar
Vanella, F.A., Calvo, J., Morriconi, E.R.Aureliano, D.R. 2005. Somatic energy content and histological analysis of the gonads in Antarctic fish from the Scotia Arc. Scientia Marina, 69, 305316.CrossRefGoogle Scholar