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Seasonal migration of the snailfish Liparis tanakae and their habitat overlap with 0-year-old Japanese flounder Paralichthys olivaceus

Published online by Cambridge University Press:  03 June 2013

Takeshi Tomiyama ,
Manabu Yamada  and
Tetsuya Yoshida
Takeshi Tomiyama*
Affiliation:
Fukushima Prefectural Fisheries Experimental Station, Iwaki 970-0316, Japan
Manabu Yamada
Affiliation:
Fukushima Prefectural Fisheries Experimental Station, Iwaki 970-0316, Japan
Tetsuya Yoshida
Affiliation:
Fukushima Prefectural Fisheries Experimental Station, Iwaki 970-0316, Japan
*
Correspondence should be addressed to: T. Tomiyama, Graduate School of Biosphere Science, Hiroshima University, Higashi-Hiroshima 739-8528, Japan email: [email protected]
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Abstract

The snailfish Liparis tanakae is an annual fish, growing up to >300 mm in total length. This species is known as a predator of 0-year-old Japanese flounder Paralichthys olivaceus. To reveal when and where the predation occurs, monthly collections of both species at various depths were conducted off Fukushima, Japan. The snailfish inhabited shallow areas ≤50 m deep until June. Thereafter, they shifted their main habitat to offshore areas ≥100 m deep from July to September. The snailfish migrated to inshore areas with depths of ≤50 m again around October–December, during which time the habitat overlap between snailfish and 0-year-old Japanese flounder was observed. In that period, >40% of 0-year-old Japanese flounder were vulnerable to the snailfish. Larger snailfish showed stronger piscivory, and some flatfish were found in their stomachs. These results suggest that by not releasing hatchery-reared Japanese flounder until September can forestall predation by the snailfish.

Keywords

habitat shiftfeeding habitsontogenetic diet shiftpredator–prey relationship
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 93 , Issue 7 , November 2013 , pp. 1981 - 1987
Copyright
Copyright © Marine Biological Association of the United Kingdom 2013 

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References

REFERENCES

Able, K.W. and Musick, J.A. (1976) Life history, ecology, and behavior of Liparis inquiunus (Pisces: Cyclopteridae) associated with the sea scallop, Placopecten magellanicus. Fishery Bulletin 74, 409421.Google Scholar
Bates, D., Maechler, M. and Bolker, B. (2011) lme4: Linear mixed-effects models using S4 classes. R package version 0.999375-42. Available at: http://CRAN.R-project.org/package=lme4 (accessed 17 April 2013).Google Scholar
Chen, D., Liu, Q., Zeng, X. and Su, Z. (1997) Catch composition and seasonal variation of setnet fisheries in the Yellow and Bohai Seas. Fisheries Research 32, 6168.CrossRefGoogle Scholar
Chernova, N.V. (2008) Systematics and phylogeny of fish of the genus Liparis (Liparidae, Scorpaeniformes). Journal of Ichthyology 48, 831852.CrossRefGoogle Scholar
Fujita, T., Inada, T. and Ishito, Y. (1995a) Depth-gradient structure of the demersal fish community on the continental shelf and upper slope off Sendai Bay, Japan. Marine Ecology Progress Series 118, 1323.CrossRefGoogle Scholar
Fujita, T., Kitagawa, D., Okuyama, Y., Ishito, Y., Inada, T. and Jin, Y. (1995b) Diets of the demersal fishes on the shelf off Iwate, northern Japan. Marine Biology 123, 219233.Google Scholar
Henderson, P.A. and Holmes, R.H.A. (1990) Population stability over a ten-year period in the short-lived fish Liparis liparis (L.). Journal of Fish Biology 37, 605615.CrossRefGoogle Scholar
Honda, H. (1985) Diel feeding cycle in a snailfish, Liparis tanakai (Gilbert et Burke). Tohoku Journal of Agricultural Research 36, 8591.Google Scholar
Huh, S.H. (1997) Feeding habits of snalilfish, Liparis tanakai. Korean Journal of Ichthyology 9, 7178.Google Scholar
Jamieson, A.J., Fujii, T., Solan, M., Matsumoto, A.K., Bagley, P.M. and Priede, I.G. (2009) Liparid and macrourid fishes of the hadal zone: in situ observations of activity and feeding behaviour. Proceedings of the Royal Society, B 276, 10371045.Google Scholar
Jin, X., Xu, B. and Tang, Q. (2003) Fish assemblage structure in the East China Sea and southern Yellow Sea during autumn and spring. Journal of Fish Biology 62, 11941205.CrossRefGoogle Scholar
Jin, X., Zhang, B. and Xue, Y. (2010) The response of the diets of four carnivorous fishes to variations in the Yellow Sea ecosystem. Deep-Sea Research II 57, 9961000.CrossRefGoogle Scholar
Kawasaki, T., Hashimoto, H., Honda, H. and Otake, A. (1983) Selection of life histories and its adaptive significance in a snailfish Liparis tanakai from Sendai Bay. Bulletin of the Japanese Society of Scientific Fisheries 49, 367377.CrossRefGoogle Scholar
Knudsen, S.W., Møller, P.R. and Gravlund, P. (2007) Phylogeny of the snailfishes (Teleostei: Liparidae) based on molecular and morphological data. Molecular Phylogenetics and Evolution 44, 649666.CrossRefGoogle ScholarPubMed
Kobayashi, T. and Hiyama, S. (1991) Distribution, abundance, and food habits of the snailfish Liparis tanakai in the Suo Sea, Seto Inland Sea. Japanese Journal of Ichthyology 38, 207210. [In Japanese with English abstract.]CrossRefGoogle Scholar
Plaza-Pasten, G., Katayama, S., Nagashima, H. and Omori, M. (2002) Early life history of larvae of the snailfish Liparis tanakai (Gilbert et Burke) in Sendai Bay, northern Japan. Bulletin of the Japanese Society of Fisheries Oceanography 66, 207215.Google Scholar
Rhodes, K.L. (1998) Seasonal trends in epibenthic fish assemblages in the near-shore waters of the western yellow sea, Qingdao, People's Republic of China. Estuarine, Coastal and Shelf Science 46, 629643.CrossRefGoogle Scholar
Schwenke, K.L. and Buckel, J.A. (2008) Age, growth, and reproduction of dolphinfish (Coryphaena hippurus) caught off the coast of North Carolina. Fishery Bulletin 106, 8292.Google Scholar
Stein, D.L., Drazen, J.C., Schlining, K.L., Barry, J.P. and Kuhnz, L. (2006) Snailfishes of the central California coast: video, photographic and morphological observations. Journal of Fish Biology 69, 970986.CrossRefGoogle Scholar
Sudo, H., Kajihara, N. and Fujii, T. (2008) Predation by the swimming crab Charybdis japonica and piscivorous fishes: a major mortality factor in hatchery-reared juvenile Japanese flounder Paralichthys olivaceus released in Mano Bay, Sado Island, Japan. Fisheries Research 89, 4956.CrossRefGoogle Scholar
Tomiyama, T. and Kurita, Y. (2011) Seasonal and spatial variations in prey utilization and condition of a piscivorous flatfish Paralichthys olivaceus. Aquatic Biology 11, 279288.CrossRefGoogle Scholar
Tomiyama, T., Watanabe, M. and Fujita, T. (2008) Community-based stock enhancement and fisheries management of the Japanese flounder in Fukushima, Japan. Reviews in Fisheries Science 16, 146153.CrossRefGoogle Scholar
Tomiyama, T., Ebe, K., Kawata, G. and Fujii, T. (2009) Post-release predation on hatchery-reared Japanese flounder Paralichthys olivaceus in the coast of Fukushima, Japan. Journal of Fish Biology 75, 26292641.CrossRefGoogle ScholarPubMed
Tomiyama, T., Uehara, S. and Kurita, Y. (2013) Feeding relationships among fishes in shallow sandy areas in relation to stocking of Japanese flounder. Marine Ecology Progress Series, 479, 163175.CrossRefGoogle Scholar
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