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http://dx.doi.org/10.1080/19768354.2011.620173

Distribution and reproductive aspects of the pandalid shrimp, $Pandalus$ $eous$, in the deep sea of the East Sea, Korea  

Park, Hye-Min (Department of Marine Biology, Pukyong National University)
Oh, Chul-Woong (Department of Marine Biology, Pukyong National University)
Sohn, Myeong-Ho (Dokdo Fisheries Research Center, National Fisheries Research and Development Institute)
Publication Information
Animal cells and systems / v.16, no.1, 2012 , pp. 77-84 More about this Journal
Abstract
The objective of the study was to investigate if reproductive characteristics of $Pandalus$ $eous$ affect the depth distribution in the East Sea of Korea. $P.$ $eous$ was found at depths of 500-900 m in the East Sea of Korea, with the highest percentage occurrence (34%) at 500 m. A negative correlation was observed between the number of individuals and the depth. The overall sex ratio also turned out to be significantly correlated with depth. On average, the larger individuals (bigger than 26.37 cm), which included transitional, female, and ovigerous females, were mostly distributed at 700 m depth. The percentage of males increased by depth and ovigerous females were mainly distributed in the shallow water (300 m) during winter. Ovigerous females were not found at 900 m, which is the deepest depth range in this study. The percentage of transitional individuals was greatest at 500 m and decreased gradually with depth. All ovigerous female individuals were of the spent ovarian stage in winter. Female numbers in the ripe ovarian stage increased with depth and immature females rarely appeared. The gonadosomatic indices of the nonovigerous females and ovigerous females were highest at 700 m in depth. The mean egg size of $P.$ $eous$ was $0.83{\pm}0.11mm^3$ in the non-eyed stage and $0.93{\pm}0.17mm^3$ in the eyed stage.
Keywords
Pandalus eous; deep water shrimp; vertical distribution; reproduction; East Sea;
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1 Clark SH, Cadrin SX, Schick DF, Diodati PJ, Armstrong MP, Mccarron D. 2000. The Gulf of Maine Northern shrimp (Pandalus borealis) fishery: a review of the record. J Northw Atl Fish Sci. 27:193-226.   DOI
2 Company JB, Sarda F. 1997. Reproductive patterns and population characteristics in five deep water pandalid shrimps in the Western Mediterranean along a depth gradient (150-1100 m). Mar Ecol Prog Ser 148:49-58.   DOI
3 Company JB. 1995. Estudi comparatiu de les strategies biologiques dels crustacis decapodes del talus de la Mar Catalana [doctor's thesis]: University of Barcelona.
4 Company JB, Sarda F, Puig P, Cartes JE, Palanques A. 2003. Duration and timing of reproduction in decapod crustaceans of the NW Mediterranean continental margin: is there a general pattern? Mar Ecol Prog Ser. 261:201-216.   DOI
5 Daoud D., Chabot D., Audet C., Lambert Y. 2007. Temperature induced variation in oxygen consumption of juvenile and adult stages of the northern shrimp, Pandalus borealis. J Exp Mar Biol Ecol. 347:30-40.   DOI
6 Fortier L, Leggett WC. 1982. Fickian transport and the dispersal of fish larvae in estuaries. Can J Fish Aquat Sci. 39:1150-1163.   DOI
7 Gage JD, Tyler PA. 1991. Deep sea biology: A natural history of organisms at the deep-sea floor. Cambridge University Press. 263-282.
8 Haynes EB, Wigley RL. 1969. Biology of the northern shrimp, Pandalus borealis, in the Gulf of Maine. Trans Am Fish Soc. 98:60-76.   DOI
9 Hazlett BA. 1983. Parental behavior in decapod crustacea. In: Rebach S, Dunham DW, editors, Studies in Adaptation: The Behavior of Higher Crustaceans. 171-193.(Wiley, New York).
10 Herring P. 2002. The Biology of the Deep Ocean: 314 (OxfordUniversity Press, Oxford).
11 Hjort J, Ruud JT. 1938. Deep-sea prawn fisheries and their problems. Hvalradets Skrifter. 17:1-144.
12 Holthuis LB. 1980. FAO species catalogue 1. Shrimps and prawns of the world. An annotated catalogue of species of interest to fisheries. FAO fish Synop. 125(1):1-271.
13 Horstedt SA, Smidt E. 1956. The deep-sea prawn (Pandalus borealis Kr.) in Greenland waters. Meddelelser fra Danmarks Fiskeri og Havundersogelser(NS) 1:116.
14 Kim BA, Jo HJ. 1985. Studies on the fishing conditions of Korean Shrimp Trawl Fisheries and Stock Assessment of Pandalus borealis, KRFYER, in the Southeastern Part of Japan Sea. Bulletin of National Fisheries Research and Development Institute. 36:29-39.
15 King MG, Moffitt RB. 1984. The sexuality of tropical deepwater shrimps (Decapoda: Pandalidae). J Crust Biol. 4:567-571.   DOI
16 Koeller PA, Mohn R, Etter M. 2000. Density dependant sex change in Northern shrimp, Pandalus borealis, on the Scotian Shelf. J Northw Atl Fish Sci. 27:107-118.   DOI
17 Koeller PA, Covey M, King M. 2003. Is size at sex transition an indicator of growth or abundance in pandalid shrimp? Fish Res. 65:217-230.   DOI
18 Abello P, Cartes JE. 1992. Population characteristics of the deep water lobsters Polycheles typhlops and Stereomastis sculpta (Decapoda: Polychelidae) in a bathyal mud community of the Mediterranean Sea. Mar Biol. 114:109-117.
19 Abello P, Macpherson E. 1991. Distribution patterns and migration of Lithodes ferox (Filhol) (Anomura: Lithodidae) off Namibia. J Crust Biol. 11:261-268.
20 Abello P, Abella A, Adamidou A, Jukic-Peladic S, Maiorano P, Spedicato MT 2002. Geographical patterns in abundance and population structure of Nephrops norvegicus and Parapenaeus longirostris (Crustacea Decapoda) along the European Mediterranean coasts. Sci. Mar. 66:125-141.   DOI
21 Allen JA. 1959. On the biology of Pandalus borealis Kroyer, with reference to a population off the Northumberland Coast. J Mar Biol Ass UK. 38:189-220.   DOI
22 Ardizzone GD, Gravina MF, Belluscio A, Schintu P. 1990. Depth-size distribution pattern of Parapenaeus longirostris (Lucas, 1846) (Decapoda) in the central Mediterranean Sea. J Crust Biol. 10:139-147.
23 Bauer RT. 2004. Remarkable shrimps: Adaptations and Natural History of the Carideans. University of Oklahoma Press, Norman.
24 Bell SS, McCoy ED, Muschinsky HR. 1990. Habitat structure: The physical arrangement of objects in space. London: Chapman & Hall. p. 254.
25 Bergtrom BI. 1991. Reproductive cycle and the effect of temperature on oogenesis of Pandalus borealis (Kroyer). J Shell Res. 10:327-331.
26 Bergtrom BI. 2000. The biology of Pandalus. In: Southward AJ, Tyler PA, Young CM, Fuiman LA, editors, Adv Mar Biol. 38:57-228 (Academic Press).
27 Castilho AL, Pie MR, Fransozo A, Pinheiro AP, Costa RC. 2008. The relationship between environmental variation and species abundance in shrimp community (Crustacea: Decapoda: Penaeoidea) in south-eastern Brazil. J Mar Biol Ass UK. 88:119-123.
28 Chace Jr FA. 1985. The caridean shrimps (Crustacea: Decapoda) of the Albatross Philippine Expedition, 1907-1910, Part 3: families Thalassocarididae and Pandalidae. Smithson. Contributions to zoology. 411:1-143.
29 Sastry AN. 1983. Ecological aspects of reproduction. The Biology of Crustaceans. 8:179-270.
30 Choi SL. 2002. Length distribution and sexual inversion of Pandalus eous [master's thesis]: Kangnung National University.
31 Shumway SE, Perkins HC, Schick DF, Stickney AP. 1985. Synopsis of biological data of the Pink Shrimp Pandalus borealis (Kroyer, 1838). FAO Fisheries Synopsis No. 144; NOAA Technical Report of the National Marine Fisheries Service. 57 pp.
32 Syms C. 1995. Multi-scale analysis of habitat association in a guild of blennioid fishes. Mar Ecol Prog Ser. 125:31-43.   DOI
33 Vinogradov ME. 1962. Feeding of the deep-sea zooplankton. Proc Cons Int Explor Mer. 153:114-120.
34 Yimin Y, Mohammed HMA, Bishop JM. 1999. Depth, temperature and salinity preferences of newly recruited penaeid shrimps in Kuwait waters. Fish Oceanogr. 8(2):128-138.   DOI
35 Nakame Y. 1991. Reproductive cycle and growth of pink shrimp, Pandalus borealis, around Musashi Bank in Japan Sea off Hokkaido, Japan. Sci Rep Hokkaido Exp Stn. 37:5-16.
36 Kurata H. 1981. Pandalid shrimp fisheries of Japan. In "Proceedings of the International Pandalid shrimp Symposium, Kodiak, Alaska, February 13-15, 1979" (T. Frady, ed.), Sea Grant Reports, 3:89-159, University of Alaska, Kodiak, Alaska.
37 Marshall NB. 1979. Developments in deep sea biology. Blanford Press Poole, Dorset.
38 Mauchline J. 1972. The biology of bathypelagic organisms, especially Crustacea. Deep-sea Res. 19:753-780.
39 Meredith SS. 1952. A study of Crangon vulgaris in the Liverpool Bay area. Proc Trans Liverpool Biol Soc. 58:75-109.
40 Morley SA, Belchier M, Dickson J, Mulvey T. 2006. Reproductive strategies of sub-Antarctic lithodid crabs vary with habitat depth. Polar Biol. 29:581-584.   DOI
41 Park HM. 2010. Vertical distribution and reproductive aspects of caridean shrimps in the deep-water of the East Sea, Korea. [master's thesis]: Pukyong National University.
42 Oh CW. Forthcoming 2011 Jun. Growth pattern of Pandalus gracilis (Decapoda: Pandalidae) on the southern coastal waters of Korea. Fish Aquat Sci. 14(2).
43 Ohtomi J. 1997. Reproductive biology and growth of the deep-water pandalid shrimp Plesionika semilaevis (Decapoda: Caridea). J Crust Biol. 17:81-89.   DOI
44 Ouellet P, Chabot D. 2005. Rearing Pandalus borealis (Kroyer) larvae in the laboratory. Mar Biol. 147:869-880.   DOI
45 Patricia BF, Cecilia BO, Fernando NS, Enrique LA. 2010. Reproductive traits of tropical deep-water pandalid shrimps (Heterocarpus ensifer) from the SW Gulf of Mexico. Deep-Sea Res. 57:978-987.   DOI
46 Politou CY, Tserpes G, Dokos J. 2008. Identification of deep-water pink shrimp abundance distribution patterns and nursery grounds in the eastern Mediterranean by means of generalized additive modelling. Hydrobiologia. 612:99-107.   DOI
47 Ramirez Llodra EZ. 2000. Reproductive patterns of deep-sea invertebrates related to phylogeny and energy availability [doctor's thesis]: University of Southampton.