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Distribution, reproductive biology and biochemical composition of Rhopalophthalmus indicus (Crustacea: Mysida) from a tropical estuary (Cochin backwater) in India

Published online by Cambridge University Press:  15 July 2010

A. Biju*
Affiliation:
National Institute of Oceanography, Regional Centre, Dr Salim Ali Road, Ernakulam North P.O., Cochin-18, Kerala, India
R. Gireesh
Affiliation:
National Institute of Oceanography, Regional Centre, Dr Salim Ali Road, Ernakulam North P.O., Cochin-18, Kerala, India
S.U. Panampunnayil
Affiliation:
National Institute of Oceanography, Regional Centre, Dr Salim Ali Road, Ernakulam North P.O., Cochin-18, Kerala, India
*
Correspondence should be addressed to: A. Biju, National Institute of Oceanography, Regional Centre, Dr Salim Ali Road, Ernakulam North P.O., Cochin-18, Kerala, India email: [email protected]
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Abstract

Distribution, reproductive biology and biochemical composition of Rhopalophthalmus indicus were investigated based on samples collected over a period of one year from Cochin backwater. Rhopalophthalmus indicus was recorded throughout the year with peak abundance during pre-monsoon. The population density was influenced by chlorophyll-a, dissolved oxygen, salinity and water temperature. The species showed periodicity in the abundance and produced more than one generation per year. The number of embryos carried by a single female ranged from six to 13, and was correlated with female body length (P > 0.05), tending to increase with the size of the female. Egg size varied between 0.42 and 0.47 mm, and was independent of female size. Both males and females attain sexual maturity at a length of 8.4 mm. Seasonality is observed in biochemical composition, as mature males and females had higher protein contents, immature stages contained high carbohydrate content and brooding females accumulated more lipids.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2010

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References

REFERENCES

Azeiteiro, U.M., Jesus, L. and Marques, J.C. (1999) Distribition, population dynamics, and production of the suprabenthic mysid Mesopodopsis slabberi in the Mondego Estuary, Portugal. Journal of Crustacean Biology 19, 498509.CrossRefGoogle Scholar
Baldo, F., Taracido, L.J., Arias, A.M. and Drake, P. (2001) Distribution and life history of the mysid Rhopalophthalmus mediterraneus in the Guadalquivir estuary (SW Spain). Journal of Crustacean Biology 21, 961972.CrossRefGoogle Scholar
Berril, M. (1971) The embryonic development of the avoidance reflex of Neomysis americana and Praunus flexuosus (Crustacea–Mysidacea). Animal Behavior 19, 707713.CrossRefGoogle Scholar
Biju, A. (2009) Studies on taxonomy and ecology of Mysidacea from the EEZ of India. PhD thesis. Cochin University of Science and Technology, Kerala, India.Google Scholar
Biju, A., Gireesh, R., Jayalaksmi, K.J., Haridevi, C.K. and Panampunnayil, S.U. (2009) Seasonal abundance, ecology, reproductive biology and biochemical composition of Mesopodopsis orientalis W.M. Tattersall (Mysida) from a tropical estuary (Cochin Backwaters) in India. Crustaceana 82, 981996.CrossRefGoogle Scholar
Bligh, E.G. and Dyer, W. (1959) A rapid method for total lipid extraction and purification. Canadian Journal of Biochemical Physiology 37, 911917.CrossRefGoogle ScholarPubMed
Cuzin-Roudy, J. and Tchernigovtzeff, C. (1985) Chronology of the female molt cycle in Siriella armata Milne-Edwards (Crustacea: Mysidacea) based on marsupial development. Journal of Crustacean Biology 5, 114.CrossRefGoogle Scholar
Dahl, E. (1977) The amphipod functional model and its bearing upon systematics and phylogeny. Zoologica Scripta 6, 211228.Google Scholar
Dubois, N., Gilles, K., Hamilton, J., Rebers, P. and Smith, F. (1956) Colorimetric method for determination of sugars and related substances. Analytical Biochemistry 28, 350356.Google Scholar
FAO (1989) Nutrition y alimentacion de peces y camarones cultivados. Manual de Capacitac. Proyectoion GCP/RLA/102/TTAL, Brazil, p. 516.Google Scholar
Fockedey, N. and Mees, J. (1997) Feeding of the hyperbenthic mysid Neomysis integer in the maximum turbidity zone of the Elbe, Westerschelde and Gironde estuaries. Journal of Marine Systems 22, 207228.Google Scholar
Grabe, S.A., Price, W.W., Ebrahim, A.A. and Richard, W.H. (2004) Shallow-water Mysida (Crustacea: Mysidacea) of Bahrain (Arabian Gulf): species composition, abundance and life history characteristics of selected species. Journal of Natural History 38, 23152329.CrossRefGoogle Scholar
Greenwood, J.G., Jones, M.B. and Greenwood, J. (1989) Salinity effects on brood maturation of the mysid crustacean Mesopodopsis slabberi. Journal of the Marine Biological Association of the United Kingdom 69, 683694.CrossRefGoogle Scholar
Hanamura, Y. (1999) Seasonal abundance and life cycle of Archaeomysis articulata (Crustacea: Mysidacea) on a sandy beach of western Hokkaido, Japan. Journal of Natural History 33, 18111830.Google Scholar
Hanamura, Y., Sio, R., Chee, P.-E. and Kassim, F.M. (2009) Seasonality and biological characteristic of the shallow water mysid Mesopodopsis orientalis (Crustacea: Mysida) on a tropical sandy beach, Malaysia. Plankton Benthos Research 4, 5361.CrossRefGoogle Scholar
Hill, A.E. (1991) Vertical migration in tidal currents. Marine Ecology Progress Series 75, 3954.CrossRefGoogle Scholar
Hough, A.R. and Naylor, E. (1992) Distribution and position maintenance behaviour of the estuarine mysid Neomysis integer. Journal of the Marine Biological Association of the United Kingdom 72, 869876.CrossRefGoogle Scholar
Jepsen, J. (1965) Marsupial development of Boreomysis artica (Krøyer, 1981). Sarsia 20, 18.CrossRefGoogle Scholar
Johnston, N.M., Ritz, D.A. and Fenton, G.E. (1997) Larval development in the Tasmanian mysids Anisomusis mixta australis, Tenagomysis tasmaniae and Paramesopodopsis rufa (Crustacea: Mysidacea). Marine Biology 130, 9399.CrossRefGoogle Scholar
Köpcke, B. and Kaush, H. (1996) Distribution and variability in abundance of Neomysis integer and Mesopodopsis slabberi (Mysidacea; Crustacea) in relation to environmental factors in the Elbe estuary. Archiv für Hydrobiologie 110, 263282.Google Scholar
Lasenby, D.C. and Langford, R.R. (1972) Growth, life history and respiration of Mysis relicta in an Arctic and temperate lake. Journal of the Fisheries Research Board of Canada 29, 17011709.CrossRefGoogle Scholar
Lowry, O.H., Rosenbough, N.J., Farr, L. and Randal, R.J. (1951) Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry 193, 265275.CrossRefGoogle ScholarPubMed
Marsh, J.B. and Weinstein, W.J. (1966) A simple charring method for determination of lipid. Journal of Lipid Research 7, 574576.CrossRefGoogle Scholar
Mauchline, J. (1980) The Biology of Mysids and Euphausiids. In Blaxer, J.H.S., Russell, F.S. and Yonge, M. (ed.) Advance in Marine Biology. London: Academic Press, pp. 1677.Google Scholar
McLusky, D.S. and Heard, V.E.J. (1971) Some effects of salinity on the mysid Praunus flexuosus. Journal of the Marine Biological Association of the United Kingdom 51, 709715.CrossRefGoogle Scholar
Mees, J. and Jones, M.B. (1997) The hyperbenthose. Oceanography and Marine Biology: an Annual Review 35, 221255.Google Scholar
Moffat, A.M. and Jones, M.B. (1993) Correlation of the distribution of Mesopodopsis slabberi (Crustacea, Mysidacea) with physico-chemical gradients in partially mixed estuary (Tamar, England). Netherlands Journal of Aquatic Ecology 27, 155162.Google Scholar
Nair, K.B. (1939) The reproduction, oogenesis and development of Mesopodopsis orientalis Tattersal. Proceedings of the Indian Academy of Sciences 9, 175223.CrossRefGoogle Scholar
Nunzio, C., Giuseppe, C. and Letterio, G. (1994) Developmental stages of Antarctomysis ohlinii Hansen, 1908 (Mysidacea) in Terra Nova Bay, Ross Sea. Antarctica 14, 383395.Google Scholar
Omori, M. (1978) Zooplankton fisheries of the world: a review. Marine Biology 48, 199205.CrossRefGoogle Scholar
Pastorinho, M.R., Antunes, C.P., Marques, J.C., Pereira, M.L., Azeiteiro, U.M. and Morgado, F.M. (2003) Histochemistry and histology in planktonic ecophysiological processes determination in a temperate estuary (Mondego River Estuary, Portugal). Acta Oecologica 24, 235243.CrossRefGoogle Scholar
Pothoven, S.A., Fahnenstiel, G.L. and Vanderploeg, H.A. (2004) Spatial distribution, biomass and population dynamics of Mysis relicta in Lake Michigan. Hydrobiologia 522, 291299.CrossRefGoogle Scholar
Quddusi, B.K. and Tirmizi, N.M. (1995) Preliminary studies on Indomysis annandalei (Mysidacea: Crustacea) from Karachi waters with a brief account of its larval development. Chinese Journal of Oceanology and Limnology 13, 134140.Google Scholar
Rost, S.D., Widdows, J. and Jones, M.B. (1998) The position maintenance behavior of Neomysis integer (Peracarida: Mysidacea) in response to current velocity, substratum and salinity. Journal of Experimental Marine Biology and Ecology 220, 2545.CrossRefGoogle Scholar
Schlacher, T.A. and Wooldridge, T.H. (1994) Tidal influence on distribution and behavior of the estuarine opossum shrimp Gastrosaccus brevifissura. In Dyer, K.D. and Orth, R.J. (ed.) Changes in fluxes in estuaries: implications from science to management. Fredensborg: Olsen and Olson, pp. 307312.Google Scholar
Strickland, J.D.H. and Parsons, T.R. (1972) A handbook of seawater analysis, 2nd edition.Fisheries Research Board of Canada, pp. 311.Google Scholar
Webb, B.F. (1973) Fish population of the Avon Heathcote Estuary. 3. Gut contents. New Zealand Journal of Marine and Freshwater Research 7, 223234.Google Scholar
Wittmann, K.J. (1981) Comparative biology and morphology of marsupial development in Leptomysis and other Mediterranean Mysidacea (Crustacea). Journal of Experimental Marine Biology and Ecology 52, 243270.CrossRefGoogle Scholar
Wittmann, K.J. (1984) Ecophysiology of marsupial development and reproduction in Mysidacea (Crustacea). Oceanography and Marine Biology: an Annual Review 22, 393428.Google Scholar
Wooldridge, T.H. (1986) Distribution, population dynamics and estimates of production for the estuarine mysid, Rhopalophthalmus terranatalis. Estuarine, Coastal and Shelf Science 23, 205223.CrossRefGoogle Scholar