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Effect of starvation on condition and growth of juvenile plaice Pleuronectes platessa: nursery habitat quality assessment during the settlement period

Published online by Cambridge University Press:  11 May 2012

Jonathan Selleslagh*
Affiliation:
Université Lille Nord de France ULCO, LOG, F-62930 Wimereux, France CNRS, UMR 8187, F-62930 Wimereux, France
Rachid Amara
Affiliation:
Université Lille Nord de France ULCO, LOG, F-62930 Wimereux, France CNRS, UMR 8187, F-62930 Wimereux, France
*
Correspondence should be addressed to: J. Selleslagh, Université du Littoral Côte d'Opale (ULCO), LOG UMR CNRS 8187 email: [email protected]

Abstract

In order to assess the effect of feeding deprivation on growth and condition of field-caught newly settled juvenile plaice Pleuronectes platessa, a 3 week starvation experiment was conducted and changes in RNA/DNA ratio, Fulton's K condition index and recent otolith growth were measured. Fed ad libitum and starved fish were analysed after 0, 1, 2, 3, 4, 5, 7, 9, 14, 16 and 22 days of starvation. In parallel, field newly settled juvenile plaice were collected weekly over the settlement period (between April and May 2005) in the adjacent intertidal zone of the Canche estuary (eastern English Channel, France) and fish performances were estimated. After starvation day 4, Fulton's K condition index and RNA/DNA ratio of juvenile plaice significantly differed between treatments while recent otolith growth differed between treatments after day 9 of the experiment procedure. Results indicate that the three biological parameters are sensitive indices and can be used to accurately assess nutritional condition of wild juvenile fish. Values of 0.32 for RNA/DNA, 0.83 mg. mm−3 for Fulton's K index, and 3.99 µm for recent otolith daily growth were defined as critical threshold values below which juvenile plaice can be classified as ‘starving'. When comparing these experimental values with those from field-caught newly settled juvenile plaice, less than 1% of wild individuals can be classified as ‘starving' whatever the index. Our results suggest that feeding conditions throughout the settlement period on the Canche intertidal nursery ground are favourable to juvenile plaice development and survival, and hence to the recruitment success.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2012

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References

REFERENCES

Able, K.W., Manderson, J.P. and Studholme, A.L. (1999) Habitat quality for shallow water fishes in an urban estuary: the effects of man-made structures on growth. Marine Ecology Progress Series 187, 227235.Google Scholar
Al-Hossaini, A., Lui, Q. and Pitcher, T.J. (1989) Otolith microstructure indicating growth and mortality among plaice Pleuronectes platessa L., post-larval sub-cohorts. Journal of Fish Biology 35, 8190.CrossRefGoogle Scholar
Amara, R. and Bodin, P. (1995) L'environnement trophique méiobenthique en dehors des nourriceries côtières est-il favorable à l'installation des jeunes soles? Oceanologica Acta 18, 112.Google Scholar
Amara, R. and Paul, C. (2003) Seasonal patterns in the fish and epibenthic crustaceans community of an intertidal zone with particular reference to the population dynamics of plaice and brown shrimp. Estuarine, Coastal and Shelf Science 56, 807818.Google Scholar
Amara, R., Laffargue, P., Dewarumez, J.M., Maryniak, C., Lagardère, F. and Luczac, C. (2001) Feeding ecology and growth of 0-group flatfish (sole, dab and plaice) on a nursery ground (southern Bight of the North Sea). Journal of Fish Biology 25, 788803.Google Scholar
Amara, R., Meziane, T., Gilliers, C., Hermel, G. and Laffargue, P. (2007) Growth and condition indices in juvenile sole Solea solea measured to assess the quality of essential fish habitat. Marine Ecology Progress Series 351, 201208.Google Scholar
Amara, R., Selleslagh, J., Billon, G. and Minier, C. (2009) Growth and condition of 0-group European flounder, Platichthys flesus as indicator of estuarine habitat quality. Hydrobiologia 627, 8798.Google Scholar
Beck, M.W., Heck, K., Able, K., Childers, D., Egglestone, D., Gillanders, B., Halpern, B., Hays, C., Hoshino, K., Minello, T., Orth, R., Sheridan, P. and Weintein, M. (2001) The identification, conservation and management of estuarine and marine nurseries for fish and invertebrates. Bioscience 51, 633641.Google Scholar
Berghahn, R. and Karakiri, M. (1990) Experimental induction of biological tags in otoliths of 0-group plaice (Pleuronectes platessa L.) by starvation, temperature and UV-B radiation. Marine Ecology Progress Series 67, 227233.Google Scholar
Buckley, L.J. (1984) RNA–DNA ratio: an index of larval fish growth in the sea. Marine Biology 80, 291298.Google Scholar
Buckley, L.J. and Bulow, F.J. (1987) Techniques for estimation of RNA, DNA and protein in fish. In Summerfelt, R.C. and Hall, G.E. (eds) Age and growth of fish. Ames, IA: Iowa State University Press, pp. 345354.Google Scholar
Buckley, L., Caldarone, E. and Ong, T.L. (1999) RNA–DNA ratio and other nucleic acid-based indicators for growth and condition of marine fishes. Hydrobiologia 401, 265277.CrossRefGoogle Scholar
Chicharo, M.A. (1998) Nutritional condition and starvation in Sardina pilchardus (L.) larvae off southern Portugal compared with some environmental factors. Journal of Experimental Marine Biology and Ecology 225, 123137.Google Scholar
Christensen, M.N. and Korsgaard, B. (1999) Protein metabolism, growth and pigmentation patterns during metamorphosis of plaice (Pleuronectes platessa) larvae. Journal of Experimental Marine Biology and Ecology 237, 225241.Google Scholar
Clemmesen, C. (1988) A RNA and DNA fluorescence technique to evaluate the nutritional condition of individual marine fish larvae. Meeresforschung, Reports on Marine Research 32, 134143.Google Scholar
Clemmesen, C. (1994) The effect of availability, age or size on the RNA/DNA ratio of individually measured herring larvae: laboratory calibration. Marine Biology 118, 377382.CrossRefGoogle Scholar
De Raedemaecker, F., Keating, J., Brophy, D., O'Connor, I. and Mc Grath, D. (2011) Spatial variability in diet, condition and growth of juvenile plaice (Pleuronectes platessa) at sandy beach nursery grounds on the south-west coast of Ireland. Journal of the Marine Biological Association of the United Kingdom 91, 12151223.Google Scholar
Deng, L., Zhang, W.M., Lin, H.R. and Cheng, C.H.K. (2004) Effects of food deprivation on expression of growth hormone receptor and proximate composition in liver of black seabream Acanthopagrus schlegeli . Comparative Biochemistry and Physiology: B 137, 421432.CrossRefGoogle ScholarPubMed
Esteves, E., Chicharo, M.A., Pina, T., Coelho, M.L. and Andrade, J.P. (2000) Comparison of RNA/DNA ratios obtained with two methods for nucleic acid quantification in gobiid larvae. Journal of Experimental Marine Biology and Ecology 245, 4355.Google Scholar
Ferron, A. and Leggett, W.C. (1994) An appraisal of condition measures for marine fish larvae. Advances in Marine Biology 30, 217303.CrossRefGoogle Scholar
Fonseca, V.F., Vinagre, C. and Cabral, H. (2006) Growth variability of juvenile soles Solea solea and Solea senegalensis, and comparison with RNA:DNA ratios in the Tagus estuary, Portugal. Journal of Fish Biology 68, 15511562.Google Scholar
Fukuda, M., Sako, H., Shigeta, T. and Shibata, R. (2001) Relationship between growth and biochemical indices in laboratory-reared juvenile Japanese flounder (Paralichthys olivaceus), and its application to wild fish. Marine Biology 138, 4755.Google Scholar
Gibson, R.N. (1994) Impact of habitat quality and quantity on the recruitment of juvenile flatfishes. Netherlands Journal of Sea Research 32, 191206.CrossRefGoogle Scholar
Gibson, R.N. (2005) Flatfishes: biology and exploitation. Fish and aquatic resources series. Oxford: Blackwell Science Publishing.CrossRefGoogle Scholar
Gilliers, C., Amara, R., Bergeron, J.P. and Le Pape, O. (2004) Comparison of growth and condition indices of juvenile flatfish in different coastal nursery grounds. Environmental Biology of Fishes 71, 189198.Google Scholar
Gilliers, C., Le Pape, O., Désaunay, Y., Bergeron, J.P., Schreiber, N., Guérault, D. and Amara, R. (2006) Growth and condition of juvenile sole (Solea solea L.) as indicators of habitat quality in coastal and estuarine nurseries in the Bay of Biscay with focus on sites exposed to the Erika oil spoil. Scientia Marina 70, 183192.Google Scholar
Glass, L.A., Rooker, J.R., Kraus, R.T. and Holt, G.J. (2008) Distribution, condition, and growth of newly settled southern flounder (Paralichthys lethostigma) in the Galveston Bay Estuary, TX. Journal of Sea Research 59, 259268.Google Scholar
Gwak, W.S. and Tanaka, M. (2001) Developmental changes in RNA:DNA ratios of fed and starved laboratory-reared Japanese flounder larvae and juveniles, and its application to assessment of nutritional condition for wild fish. Journal of Fish Biology 59, 902915.Google Scholar
Haines, T.A. (1973) An evaluation of RNA–DNA ratio as a measure of long-term growth in fish populations. Journal of the Fisheries Research Board of Canada 30, 195199.Google Scholar
Hjörleifsson, E. and Palsson, J. (2001) Settlement, growth and mortality of 0-group plaice (Pleuronectes platessa) in Icelandic waters. Journal of Sea Research 45, 321324.Google Scholar
Hovenkamp, F. and Witte, J.I.J. (1991) Growth, otolith growth and RNA/DNA ratios of larval plaice Pleuronectas platessa in the North Sea 1987 to 1989. Marine Ecology Progress Series 70, 105116.Google Scholar
Hyder, K. and Nash, R.N. (1998) Variations in settlement pattern in Irish Sea plaice (Pleuronectes platessa L.) as determined from a simulated model. Journal of Sea Research 40, 5979.Google Scholar
Hyslop, E.J. (1980) Stomach contents analysis: a review of methods and their application. Journal of Fish Biology 17, 415429.Google Scholar
Islam, M.S. and Tanaka, M. (2005) Nutritional condition, starvation status and growth of early juvenile Japanese sea bass (Lateolabrax japonicus) related to prey distribution and feeding in the nursery ground. Journal of Experimental Marine Biology and Ecology 323, 172183.Google Scholar
Karakiri, M.R., Berghahn, R. and Van der Veer, H.W. (1991) Variations in settlement and growth of 0-group plaice (Pleuronectes platessa L.) in the Dutch Wadden Sea as determined by otolith microstructure analysis. Netherlands Journal of Sea Research 27, 345351.CrossRefGoogle Scholar
Lambert, Y. and Dutil, J.D. (1997) Can simple condition indices be used to monitor and quantify seasonal changes in the energy reserves of Atlantic cod (Gadus morhua)? Canadian Journal of Fisheries and Aquatic Sciences 54, 104112.Google Scholar
Maillet, G.L. and Checkley, D.M. (1989) Effects of starvation on the frequency of formation and width of growth increments in sagittae of laboratory-reared Atlantic menhaden Brevoortia tyrannus larvae. Fisheries Bulletin US 88, 155165.Google Scholar
Martin, F.D., Wright, D.A., Means, J.C. and Setzler-Hamilton, E.M. (1985) Importance of food supply to nutritional state of larval striped bass in the Potomac River estuary. Transactions of the American Fisheries Society 114, 137145.Google Scholar
McLusky, D.S. and Elliott, M. (2004) The estuarine ecosystem. Ecology, threats and management. 3rd edition. Oxford: Oxford University Press, 214 pp.Google Scholar
Mehner, T. and Wieser, W. (1994) Energetics and metabolic correlates of starvation in juvenile perch (Perca fluviatilis). Journal of Fish Biology 45, 325333.Google Scholar
Meng, L., Gray, C., Taplin, B. and Kupucha, E. (2000) Using winter flounder growth rates to assess habitat quality in Rhode Island's coastal lagoons. Marine Ecology Progress Series 201, 287299.Google Scholar
Molony, B.W. and Choat, J.H. (1990) Otolith increment widths and somatic growth rate: the presence of a time-lag. Journal of Fish Biology 37, 541551.Google Scholar
Norcross, B.L., Blanchard, A. and Holladay, B.A. (1999) Comparison of models for defining nearshore flatfish nursery areas in Alaskan waters. Fisheries Oceanography 8, 5067.Google Scholar
R Development Core Team (2005) R: a language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing.Google Scholar
Ramirez, T., Cortés, D., Garcia, A. and Carpena, A. (2004) Seasonal variations of RNA/DNA ratios and growth rates of the Alboran Sea sardine larvae (Sardina pilchardus). Fisheries Research 68, 5765.Google Scholar
Richard, P., Bergeron, J.P., Boulhic, M., Galois, R. and Person-Le Ruyet, J. (1991) Effect of starvation on RNA, DNA and protein content of laboratory-reared larvae and juveniles of Solea solea . Marine Ecology Progress Series 72, 6977.Google Scholar
Selleslagh, J. and Amara, R. (2008a) Inter-season and interannual variations in fish and macrocrustacean community structure on an eastern English Channel sandy beach: influence of environmental factors. Estuarine, Coastal and Shelf Science 77, 721730.Google Scholar
Selleslagh, J. and Amara, R. (2008b) Environmental factors structuring fish composition and assemblages in a small macrotidal estuary (eastern English Channel). Estuarine, Coastal and Shelf Science 79, 507517.Google Scholar
Selleslagh, J., Amara, R., Laffargue, P., Lesourd, S., Lepage, M. and Girardin, M. (2009) Fish composition and assemblage structure in three Eastern English Channel macrotidal estuaries: a comparison with other French estuaries. Estuarine, Coastal and Shelf Science 81, 149159.Google Scholar
Selleslagh, J., Lesourd, S. and Amara, R. (2011) Comparison of macrobenthic assemblages of three estuarine nurseries and their importance as foraging grounds. Journal of the Marine Biological Association of the United Kingdom. DOI: 10.1017/s0025315411000336.Google Scholar
Sogard, S.M. (1997) Size-selective mortality in the juvenile stage of teleost fishes: a review. Bulletin of Marine Science 60, 11291157.Google Scholar
Stierhoff, K.L., Targett, T.E. and Power, J.H. (2009) Hypoxia-induced growth limitation of juvenile fishes in an estuarine nursery: assessment of small-scale temporal dynamics using RNA:DNA. Canadian Journal of Fisheries and Aquatic Sciences 66, 10331047.Google Scholar
Stoner, A.W., Manderson, J.P. and Pessutti, J.P. (2001) Spatially explicit analysis of estuarine habitat for juvenile winter flounder: Combining generalized additive models and geographic information systems. Marine Ecology Progress Series 213, 253271.Google Scholar
Tanaka, Y., Satoh, K., Yamada, H., Takebe, T., Nikaido, H. and Shiozawa, S. (2008) Assessment of the nutritional status of field-caught larval Pacific bluefin tuna by RNA/DNA ratio based on a starvation experiment of hatchery-reared fish. Journal of Experimental Marine Biology and Ecology 354, 5664.Google Scholar
Van der Veer, H.W. (1986) Immigration, settlement and density-dependent mortality of a larval and early post-larval 0-group plaice (Pleuronectes platessa) population in the western Wadden Sea. Marine Ecology Progress Series 29, 223236.Google Scholar
Vasconcelos, R., Reis-Santos, P., Fonseca, V., Ruano, M., Tanner, S., Costa, M.J. and Cabral, H.N. (2009) Juvenile fish condition in estuarine nurseries along the Portuguese coast. Estuarine, Coastal and Shelf Science 82, 128138.Google Scholar
Wennhage, H. and Pihl, L. (2001) Settlement patterns of newly settled plaice (Pleuronectes platessa) in a non-tidal Swedish fjord in relation to larval supply and benthic predators. Marine Biology 139, 877889.Google Scholar
Wright, D.A. and Martin, F.D. (1985) The effect of starvation on RNA:DNA ratios and growth of larval striped bass, Morone saxatalis . Journal of Fish Biology 27, 479485.Google Scholar