Abstract
The effects of different combinations of nutritional background, feeding regimes and dietary compositions on growth responses of the Atlantic cod have been examined. Alternating short periods (1–3 weeks) of food deprivation with unlimited provision of food depressed growth below that of controls, but cod that were fed on alternate weeks (1:1) were larger than those that were exposed to 2 or 3 week periods of deprivation and feeding (2:2 or 3:3). Thus, periods of food deprivation of short duration were insufficient to induce any marked compensatory growth response. When cod were deprived of food for longer periods a compensatory growth response was observed. On receiving excess food supplies following 8 weeks of food deprivation the fish grew more rapidly than the controls and had completely recovered body weight within 12 weeks. The greatest compensatory growth response was shown by cod in poor condition (lowest condition factor), because at the end of an 18 week growth trial there were no differences in body weight between fish irrespective of their initial condition. Both sexes displayed a compensatory growth response.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bejda, A.J., Phelan, B.A. and Studholme, A.L. (1992) The effect of dissolved oxygen on the growth of young-of-the-year winter flounder, Pseudopleuronectes americanus. Environmental Biology of Fishes 34, 321–27.
Bilton, H.T. and Robins, G.L. (1973) The effects of starvation and subsequent feeding on survival and growth of Fulton channel sockeye salmon fry (Oncorhynchus nerka). Journal of the Fisheries Research Board of Canada 30, 1–5.
Black, D. and Love, R.M. (1986) The sequential mobilization and restoration of energy reserves in tissues of Atlantic cod during starvation and refeeding. Journal of Comparative Physiology 156B, 469–479.
Dobson, S.H. and Holmes, R.M. (1984) Compensatory growth in the rainbow trout, Salmo gairdneri Richardson. Journal of Fish Biology 25, 649–656.
Forbes, J.M. (1992) Metabolic aspects of satiety. Proceedings of the Nutrition Society 51, 13–19.
Greeff, J.C., Meissner, H.H., Roux, C.Z. and Janse Van Rensburg, R.J. (1986a) The effect of compensatory growth of body composition in sheep. South African Journal of Animal Science 16, 155–161.
Greeff, J.C., Meissner, H.H., Roux, C.Z. and Janse Van Rensburg, R.J. (1986b) The effect of compensatory growth on feed intake, growth rate and efficiency of feed utilization in sheep. South African Journal of Animal Science 16, 162–168.
Hindar, K. and Jonsson, B. (1993) Ecological polymorphism in Arctic charr. Biological Journal of the Linnean Society 48, 63–74.
Jennings, M.J. and Philipp, D.P. (1992) Reproductive investment and somatic growth rates in longear sunfish. Environmental Biology of Fishes 35, 257–271.
Jobling, M. (1988) A review of the physiological and nutritional energetics of cod, Gadus morhua L., with particular reference to growth under farmed conditions. Aquaculture 70, 1–19.
Jobling, M. and Miglavs, I. (1993) The size of lipid depots — a factor contributing to the control of food intake in Arctic charr, Salvelinus alpinus. Journal of Fish Biology 43, 487–489.
Jobling, M. and Pedersen, T. (in press) Cultivation of the Atlantic cod. In: World Animal Sciences, Aquatic Animal Production — Fishes (eds C.E. Nash and A.J. Novotny) Elsevier Science: Amsterdam.
Jobling, M., Jørgensen, E.H. and Siikavuopio, S.I. (1993) The influence of previous feeding regime on the compensatory growth response of maturing and immature Arctic charr, Salvelinus alpinus. Journal of Fish Biology 43, 409–419.
Jobling, M., Knudsen, R., Pedersen, P.S. and dos Santos, J. (1991) Effects of dietary composition and energy content on the nutritional energetics of cod, Gadus morhua. Aquaculture 92, 243–257.
Jones, G.P.D. and Farrell, D.J. (1992a) Early-life food restriction of broiler chickens. I. Methods of application, amino acid supplementation and the age at which restrictions should commence. British Poultry Science 33, 579–587.
Jones, G.P.D. and Farrell, D.J. (1992b) Early-life food restriction of broiler chickens. II. Effects of food restrictions on the development of fat tissue. British Poultry Science 33, 589–601.
Kindschi, G.A. (1988) Effect of intermittent feeding on growth of rainbow trout, Salmo gairdneri Richardson. Aquaculture and Fisheries Management 19, 213–215.
Kyriazakis, I. and Emmans, G.C. (1991) Diet selection in pigs: dietary choices made by pigs following a period of underfeeding with protein. Animal Production 38, 337–346.
Leeson, S., Summers, J.D. and Caston, L.J. (1991) Diet dilution and compensatory growth in broilers. Poultry Science 70, 867–873.
Marais, P.G., Van Der Merwe, H.J. and Dutoit, J.E.J. (1991) The effect of compensatory growth on food intake, growth rate, body composition and efficiency of feed utilization in Dorper sheep. South African Journal of Animal Science 21, 80–88.
Metcalfe, N.B. and Thorpe, J.E. (1992) Anorexia and defended energy levels in over-wintering juvenile salmon. Journal of Animal Ecology 61, 175–181.
Miglavs, I. and Jobling, M. (1989) Effects of feeding regime on food consumption, growth rates and tissue nucleic acids in juvenile Arctic charr, Salvelinus alpinus, with particular respect to compensatory growth. Journal of Fish Biology 34, 947–957.
O'Donovan, P.B. (1984) Compensatory gain in cattle and sheep. Nutrition Abstracts and Reviews 54B, 389–410.
Osborne, D.R. and Voogt, P. (1978) The analysis of Nutrients in Foods. Academic Press: London, p. 251.
Pedersen, T. and Jobling, M. (1989) Growth rates of large, sexually mature cod, Gadus morhua, in relation to condition and temperature during an annual cycle. Aquaculture 81, 161–168.
Plavnik, I. and Hurwitz, S. (1985) The performance of broiler chicks during and following a severe food restriction at an early age. Poultry Science 64, 348–355.
Quinton, J.C. and Blake, R.W. (1990) The effect of feed cycling and ration level on the compensatory growth response in rainbow trout, Oncorhynchus mykiss. Journal of Fish Biology 37, 33–41.
Rubenstein, D.I. (1981) Individual variation and competition in the Everglades pygmy sunfish. Journal of Animal Ecology 50, 337–350.
Russell, N.R. and Wootton, R.J. (1992) Appetite and growth compensation in the European minnow, Phoxinus phoxinus (Cyprinidae), following short periods of food restriction. Environmental Biology of Fishes 34, 277–285.
Stamataris, C., Kyriazakis, I. and Emmans, G.C. (1991) The performance and body composition of young pigs following a period of growth retardation by food restriction. Animal Production 53, 373–381.
Summers, J.D., Spratt, D. and Atkinson, J.L. (1990) Restricted feeding and compensatory growth for broilers. Poultry Science 69, 1855–1861.
Weatherley, A.H. and Gill, H.S. (1981) Recovery growth following periods of restricted rations and starvation in rainbow trout, Salmo gairdneri Richardson. Journal of Fish Biology 18, 195–208.
Weatherley, A.H. and Gill, H.S. (1987) The Biology of Fish Growth. Academic Press: London, p. 443.
Webster, A.J.F. (1993) Energy partitioning, tissue growth and appetite control. Proceedings of the Nutrition Society 52, 69–76.
Weeks, S.C. (1993) Phenotypic plasticity of life-history traits in clonal and sexual fish (Poeciliopsis) at high and low densities. Oecologia 93, 307–314.
Weeks, S.C. and Quattro, J.M (1991) Life-history plasticity under resource stress in a clonal fish (Poeciliidae: Poeciliopsis). Journal of Fish Biology 39, 485–494.
Wieser, W., Krumschnabel, G. and Ojwang-Okwor, J.P. (1992) The energetics of starvation and growth after re-feeding in juveniles of three cyprinid species. Environmental Biology of Fishes 33, 63–71.
Wilson, P.N. and Osbourn, D.F. (1960) Compensatory growth after undernutrition in mammals and birds. Biological Reviews 37, 324–363.
Yu, M.W., Robinson, F.E., Clandinin, M.T. and Bodnar, L. (1990) Growth and body composition of broiler chickens in response to different regimes of feed restriction. Poultry Science 69, 2074–2081.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Jobling, M., Meløy, O., dos Santos, J. et al. The compensatory growth response of the Atlantic cod: effects of nutritional history. Aquacult Int 2, 75–90 (1994). https://doi.org/10.1007/BF00128802
Issue Date:
DOI: https://doi.org/10.1007/BF00128802