Hostname: page-component-cd9895bd7-q99xh Total loading time: 0 Render date: 2024-12-26T19:23:41.023Z Has data issue: false hasContentIssue false

A first attempt to evaluate the age and growth of blue hake Antimora rostrata (Moridae, Gadiformes, Teleostei) from the Lazarev and Weddell seas (Antarctic)

Published online by Cambridge University Press:  08 July 2019

Elena V. Vedishcheva
Affiliation:
Russian Federal Research Institute of Fisheries and Oceanography (VNIRO), 17, V. Krasnoselskaya, Moscow, 107140, Russia
Nikolai B. Korostelev
Affiliation:
A.N. Severtsov Institute of Ecology and Evolution, Russian Academy of Sciences, 33, Leninsky Prospekt, Moscow, 119071, Russia
Ilya I. Gordeev
Affiliation:
Russian Federal Research Institute of Fisheries and Oceanography (VNIRO), 17, V. Krasnoselskaya, Moscow, 107140, Russia Lomonosov Moscow State University, 1-12, Leninskiye Gory, Moscow, 119192, Russia
Alexei M. Orlov*
Affiliation:
Russian Federal Research Institute of Fisheries and Oceanography (VNIRO), 17, V. Krasnoselskaya, Moscow, 107140, Russia A.N. Severtsov Institute of Ecology and Evolution, Russian Academy of Sciences, 33, Leninsky Prospekt, Moscow, 119071, Russia Dagestan State University, 43a, Gadzhiyev St., Makhachkala, 367000, Russia; Tomsk State University, 36, Lenina St., Tomsk, 634050, Russia Tomsk State University, 36, Lenina St., Tomsk, 634050, Russia
*
Author for correspondence: Alexei M. Orlov, E-mail: orlov@vniro.ru

Abstract

For the first time, the results of the study of the age and growth of blue hake Antimora rostrata in the waters of the Lazarev and Weddell seas (Antarctic) are presented. The longline catches were represented by fish from 42 to 69 cm in total length with weights between 420 and 2,900 g, and most individuals aged 25 to 27 years. A minimum age of 16 years was observed in a fish 47 cm long and weighing 450 g, while a maximum age of 35 years was recorded for an individual of 69 cm in length and 1,640 g in weight. The blue hake in the Lazarev and Weddell seas shows similar growth patterns to the fish from the Ross Sea and waters off Greenland.

Type
Research Article
Copyright
© Cambridge University Press 2019 

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

Beamish, R. J., & Chilton, D. E. (1982). Preliminary evaluation of a method to determine the age of sablefish (Anoplopoma fimbria). Canadian Journal of Fisheries and Aquatic Sciences, 39, 277287.CrossRefGoogle Scholar
Beamish, R. J., & McFarlane, G. A. (1987). Current trends in age determination methodology. In R. Summerfelt, C. & G. Hall, E., (Eds.), Age and growth of fish. Ames: Iowa State University Press.Google Scholar
Cohen, D. M., Inada, T., Iwamoto, T., & Scialabba, N. (1990). Gadiform fishes of the world (Order Gadiformes). An annotated and illustrated catalogue of cods, hakes, grenadiers and other gadiform fishes known to date. FAO Fisheries Synopsis, 10(125), 1442.Google Scholar
Collins, M. A., Priede, I. G., & Bagley, P. M. (1999). In situ comparison of activity in two deep-sea scavenging fishes occupying different depth zones. Proceedings of the Royal Society London, Part B, 266, 20112016.CrossRefGoogle Scholar
Devine, J. A., Baker, K. D., & Haedrich, R. L. (2006). Deep-sea fishes qualify as endangered. Nature, 439(5), 29.CrossRefGoogle ScholarPubMed
Fossen, I., & Bergstad, O. A. (2006). Distribution and biology of blue hake Antimora rostrata (Pisces: Moridae), along the mid-Atlantic Ridge and off Greenland. Fisheries Research, 82, 1929.CrossRefGoogle Scholar
Frey, P. H., Keller, A. A., & Simon, V. (2017). Dynamic population trends observed in the deep-living Pacific flatnose, Antimora microlepis, on the U.S. West Coast. Deep-Sea Research Part I, 122, 105112.CrossRefGoogle Scholar
González, J. A., Santana, J. I., García-Mederos, A. M., Tuset, V. M., Lozano, I. J., Jiménez, S., & Biscoito, M. (2008). New data on the family Moridae (Gadiformes) from the Canary Islands (northeastern Atlantic Ocean), with first record of Laemonema robustum . Cybium, 32, 173180.Google Scholar
Gordon, J. D. M., & Duncan, J. A. R. (1985). The biology of fish of the family Moridae in the deep-water of the Rockall Trough. Journal of Marine Biological Association of the United Kingdom, 65, 475485.CrossRefGoogle Scholar
Hammer, Ø., Harper, D. A. T., & Ryan, P. D. (2001). PAST: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica, 4(1), 9. Article 4.Google Scholar
Horn, P. L., & Sutton, C. P. (2015). An assessment of age and growth of violet cod (Antimora rostrata) in the Ross Sea, Antarctica. Polar Biology, 38(9), 15531558.CrossRefGoogle Scholar
Iwamoto, T. (1975). The abyssal fish Antimora rostrata (Gűnther). Comparative Biochemistry and Physiology, 52B, 711.Google Scholar
Kulka, D. W., Simpson, M. R., & Inkpen, T. D. (2003). Distribution and biology of blue hake (Antimora rostrata Gűnther, 1878) in the Northwest Atlantic with comparison to adjacent areas. Journal of Northwest Atlantic Fisheries Science, 31, 299318.CrossRefGoogle Scholar
Laevastu, T. (1965). Manual of methods in fisheries biology. Rome: FAO.Google Scholar
Magnússon, J. V. (1998). Age, maturity and other biological parameters of two morid species Lepidion eques (Gűnther, 1887) and Antimora rostrata Gűnther, 1878, in Icelandic waters. ICES C.M. O:32. Copenhagen: ICES Headquarters.Google Scholar
Magnússon, J. V. (2001). Distribution and some other biological parameters of two morid species Lepidion eques (Gűnther, 1887) and Antimora rostrata (Gűnther, 1878) in Icelandic waters. Fisheries Research, 51, 267281.CrossRefGoogle Scholar
Novikov, N. P., Panov, B. N., Rebik, S. T., & Timokhin, I. G. (2010). Fishes of the open Indian Ocean. Kerch: YugNIRO (In Russian).Google Scholar
Novikov, N. P., & Timokhin, I. G. (2009). Blue hake Antimora rostrata (Moridae) of the southern Indian Ocean seamounts. Fisheries of the Ukraine, 1, 25. (In Russian).Google Scholar
Orlov, A. M., Grigorov, I. V., & Lazareva, N. I. (2018a). Comparative morphological analysis of morid cods (Antimora spp., Moridae, Gadiformes) from ichthyological collections. Zoologicheskie Issledovania, 20, 98111 (In Russian with English abstract).Google Scholar
Orlov, A. M., Sytov, A. M., Mari, N., Figueroa, D. E., Barbini, S. A., Costa, P. A. S., Marin, Y. H., & Mincarone, M. M. (2019). Blue hake Antimora rostrata (Moridae) off the Atlantic coast of South America: An overview on its distribution and biology. Journal of Ichthyology, 59(2), 174185.CrossRefGoogle Scholar
Orlov, A. M., Vedishcheva, E. V., Trofimova, A. O., & Orlova, S. Yu, . (2018b). Age and growth of blue antimora Antimora rostrata (Moridae) in southwestern Greenland waters. Journal of Ichthyology, 58(2), 217225.CrossRefGoogle Scholar
Parin, N. V., Timokhin, I. G., Novikov, N. P., & Shcherbachev, Yu. N. (2008). On the composition of talassobathyal ichthyofauna and commercial productivity of Mozambique Seamount (the Indian Ocean). Journal of Ichthyology, 48(5), 361366.CrossRefGoogle Scholar
Piotrovsky, A. S. (1989). Morid fishes and rattails. In Parin, N. V., Novikov, N. P. (Eds.), Biological resources of the Indian Ocean. Moscow: Nauka (In Russian).Google Scholar
Pravdin, I. F. (1966). Guidelines to studies of fishes. Moscow: Pishchevaya Promyshlennost’ (In Russian).Google Scholar
Rodríguez Mendoza, R. P. (2006). Otoliths and their applications in fishery science. Ribarstvo, 64(3), 89102.Google Scholar
Shcherbachev, Y. N. (1987). Preliminary list of thalassobathyal fishes of tropical and subtropical waters of the Indian Ocean. Voprosy Ikhtiologii, 27(1), 311 (In Russian).Google Scholar
Small, G. J. (1981). A review of the bathyal fish genus Antimora (Moridae: Gadiformes). Proceedings of the California Academy of Sciences, 42(13), 341348.Google Scholar
Wenner, C. A., & Musick, J.A. (1977). Biology of the morid fish Antimora rostrata in the western North Atlantic. Journal of Fisheries Research Board of Canada, 24, 23622368.CrossRefGoogle Scholar
Yeh, J., & Drazen, J.C. (2009). Depth zonation and bathymetric trends of deep-sea megafaunal scavengers of the Hawaiian Islands. Deep-Sea Research Part I, 56, 251266.CrossRefGoogle Scholar