自然死亡係数

自然死亡係数とは、漁獲以外の要因による死亡率のことです。資源評価や資源診断を行う際に不可欠なパラメータですが、多くの場合は推定が困難で、経験式に基づく推定が主流です。このページでは自然死亡係数に関する情報をお伝えします。

資料

  • 経験式にもとづく自然死亡係数の推定[pdf] 文献リスト [pdf] ― 平成21年日本水産学会春季大会発表

自然死亡係数に関する論文

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  • Alagaraja, K. 1984. Simple methods for estimation of parameters for assessing exploited fish stocks. Indian Journal of Fisheries31: 177-209.
  • Alverson, D.L., and Carney, M. 1975. A graphic review of the growth and decay of population cohorts. Journal du Conseil, Conseil International pour l’Exploration de la Mer 36: 133-143
  • Beverton, R.J.H., and Holt, S.J. 1957. On the dynamics of exploited fish populations. Fish. Invest. Minist. Agric. Fish. Food (G. B.), Ser, II 19: 21-42.
  • Beverton, R.J.H., and Holt, S.J. 1959. A review of the lifespans and mortality rates of fish in nature, and their relation to growth and other physiological characteristics. Ciba Found. Colloq. Ageing 5: 142-177.
  • Beverton, R.J.H. 1992. Patterns of reproductive strategy parameters in some marine teleost fishes. Journal of Fish Biology 41 (Supplement B): 137-160.
  • Caddy, J.F. 1984. Method of solving for natural mortality rate from stocks with different schedules of growth and mortality. Can. J. Fish. Aquat. Sci. 41: 1226-1230.
  • Charnov, E. L., and D. Berrigan. 1990. Dimensionless Numbers and Life-History Evolution – Age of Maturity Versus the Adult Life-Span. Evolutionary Ecology 4:273-275.
  • Chen, S., and Watanabe, S. 1989. Age Dependence of Natural Mortality Coefficient in Fish Population-Dynamics. Nippon Suisan Gakkaishi 55(2): 205-208.
  • Gunderson, D.R. 1980. Using r-K selection theory to predict natural mortality. Can. J. Fish. Aquat. Sci. 37: 2266-2271.
  • Gunderson, D.R. 1997. Trade-off between reproductive effort and adult survival in oviparous and viviparous fishes. Can. J. Fish. Aquat. Sci. 54: 990-998.Gunderson, D.R., and Dygert, P.H. 1988. Reproductive Effort as a Predictor of Natural Mortality-Rate. Journal Du Conseil 44(2): 200-209.
  • Heincke, F. 1913. Investigations on the Plaice. General Report 1. The plaice fishery and protective regulations. Rapp. Cons. Explor. Mer 17A: 1-153.
  • Hewitt, D. A., D. M. Lambert, J. M. MHoenig, and R. N. Lipcius. 2007. Direct and indirect estimates of natural mortality for Chesapeake Bay blue crab. Tras. Am. Fish. Soc 136:1030-1040.
  • Hightower, J., 1998. Estimating natural mortality. http://legacy.ncsu.edu/classes/zo726001/EstimatingM.html.
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  • Hoenig, J.M. 1983. Empirical Use of Longevity Data to Estimate Mortality-Rates. Fishery Bulletin 81(4): 898-903.
  • Holt, S.J. 1965. A note on the relationship between mortality rate and the duration of life in an exploited fish population. International Commission on North Atlantic Fisheries Research Bulletin 2: 73-75.
  • Honma, M., Sato, Y., and Usami, S. 1987. コホート解析によるマサバ太平洋系群の資源量推定. Bull. Tokai Reg. Fish. Res. Lab. 121: 1-11.
  • Japan, F.A.a.F.R.A.o. 2008. Marine fisheries stock assessment and evaluation for Japanese waters(fiscal year 2007). Fisheries Agency and Fisheries Research Agency of Japan, Tokyo.
  • Jensen, A.L. 1996. Beverton and Holt life history invariants result from optimal trade-off of reproduction and survival. Can. J. Fish. Aquat. Sci. 53: 820-822.
  • Limbong, D., Hayashi, K., and Matsumiya, Y. 1988. Length cohort analysis of common mackerel, Scomber japonicus, Tsushima warm currents stock. Bull. Seikai. Reg. Fish. Res. Lab. 66: 119-133.
  • Mccoy, M.W., and Gillooly, J.F. 2008. Predicting natural mortality rates of plants and animals. Ecology Letters 11(7): 710-716.
  • Myers, R.A., and Doyle, R.W. 1983. Predicting Natural Mortality-Rates and Reproduction – Mortality Trade-Offs from Fish Life-History Data. Canadian Journal of Fisheries and Aquatic Sciences 40(5): 612-620.
  • Paloheimo, J.E. 1961. Studies on estimation of mortalities I. Comparison of a method decribed by Beverton and Holt and new linear formula. J. Fish. Res. Board Can. 18: 645-662.
  • Pauly, D. 1980. On the Interrelationships between Natural Mortality, Growth-Parameters, and Mean Environmental-Temperature in 175 Fish Stocks. Journal Du Conseil 39(2): 175-192.
  • Pope, J.G. 1972. An Investigation of the Accuracy of Virtual Population Analysis Using Cohort Analysis. Research Bulletin of the International Commission for the Northwest Atlantic Fisheries 9: 65-74.
  • Quinn, T.J., and Deriso, R.B. 1999. Quantitative Fish Dynamics. Oxford University Press, Oxford.
  • Ralston, S. 1987. Mortality rates of snappers and groupers. Westview Press, Inc., Boulder, Colorado, USA.
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  • Roff, D.A. 1984. The evolution of life history parameters in teleosts. Can. J. Fish. Aquat. Sci. 41: 989-1000.
  • Seber, G.A.F. 1982. The estimation of animal abundance, 2nd edition. Griffin, London, U. K.
  • Shepherd, J.G., and Breen, P.A. 1992. Mortality in abalone: its estimation, variability and causes. In Abalone of the world. Edited by S.A. Shepherd, M.J. Tegner and S.A. Guzman del Proo. Fishing News Books, Cambridge, U. K. pp. 276-304.
  • Shindo, S. 1960. Studies on the stock of yellow sea bream in the East China Sea. Bull. Seikai. Reg. Fish. Res. Lab. 126: 1-19
  • Tanaka, S. 1960. Studies on the dynamics and the management of fish populations. Bull. Tokai Reg. Fish. Res. Lab. 28: 1-200
  • Vetter, E.F. 1988. Estimation of Natural Mortality in Fish Stocks: A Review. Fishery Bulletin 86: 25-43.
  • Widrig, T.M. 1954. Method of estimating fish populations, with application to Pacific sardine. Fish. Bull. Fish Wildl. Serv. U. S. 56: 141-166.
  • Yamasaki, A., Ohki, S., and Tanaka, E. 2001. Estimation of mortality coefficient of adult female snow crab Chionoecetes opilio from tag recoveries in the waters off Kyoto Prefecture. Nippon Suisan Gakkaishi 67(2): 244-251.
  • Zhang, C.-I., and Megrey, B. 2005. A revised Alverson and Carney model for estimating the instantaneous rate of natural mortality. Tras. Am. Fish. Soc 135: 620-633.

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