Skip to main content
SpringerLink
Log in

Optimal fishery policy for size-specific, density-dependent population models

  • Published:
Journal of Mathematical Biology Aims and scope Submit manuscript

Abstract

Optimal harvest policy is derived for a size-specific population model based on the continuity equation. In this model both growth and recruitment rates can depend on either the number of individuals of specific sizes in the population or the level of food available. Necessary conditions for values of fishing pressure and size limit that maximize the present value of the resource are obtained and are interpreted in economic terms. The general solution obtained here reduces to solutions obtained previously for some special cases: the single age-class model, and the linear age-dependent model. Solutions involving constant fishery policy are sought for several different, specific versions of the general model. In each of these versions a constant policy solution is not optimal. This implies that for a general, realistic model the policy that maximizes present value is a time-varying or “pulse fishing” policy. The theoretical and practical implications of the results are discussed in the light of existing results.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

References

  • Anderson, L.: The economics of fisheries management, p. 214. Baltimore: Johns Hopkins University Press 1977

    Google Scholar 

  • Beddington, J. R., Taylor, D. B.: Optimum age specific harvesting of a population. Biometrics 29, 801–809 (1973)

    Google Scholar 

  • Bell, D. J., Jacobson, D. H.: Singular optimal control problems, p. 190. London: Academic Press 1975

    Google Scholar 

  • Beverton, R. J. H., Holt, S. J.: On the dynamics of exploited fish populations. Fish. Invert. London, Ser. 2, 19, 533 (1957)

    Google Scholar 

  • Botsford, L. W.: Modeling and optimization of aquatic productive systems. Ph.D. Thesis Proposal, unpublished (1976)

  • Botsford, L. W.: Modeling, stability, and optimization of aquatic productive systems. Ph.D. Thesis, University of California, Davis (1978)

    Google Scholar 

  • Botsford, L. W., Wickham, D. E.: Behavior of age-specific, density-dependent models and the northern California Dungeness crab fishery. J. Fish. Res. Board Can. 35, 833–843 (1978)

    Google Scholar 

  • Bryson, A. E., Ho, Y.: Applied optimal control, p. 481. Waltham: Ginn and Company 1969

    Google Scholar 

  • Citron, J. J.: Elements of optimal control, p. 266. New York: Holt, Rinehart and Winston, 1969

    Google Scholar 

  • Clark, C. W.: The economics of overexploitation. Science 181, 630–634 (1973a)

    Google Scholar 

  • Clark, C. W.: Profit maximization and the extinction of animal species. J. Polit. Econ. 81, 950–961 (1973b)

    Google Scholar 

  • Clark, C. W., Munro, G. R.: The economics of fishing and modern capital theory: A simplified approach. J. Environ. Econ. Manage. 2, 92–106 (1975)

    Google Scholar 

  • Clark, C. W.: Mathematical bioeconomics: The optimal management of renewable resources, p. 352. New York: John Wiley and Sons, Inc. 1976

    Google Scholar 

  • Clark, C. W., Mangel, M.: Aggregation and fishery dynamics: A theoretical study of schooling and the purse seine tuna fisheries. U.S. Fish. Bull. 77, No. 2 (1979)

  • Clark, C. W., Clarke, F. H., Munro, G. R.: The optimal exploitation of renewable resource stocks: Problems of irreversible investment. Econometrica 47, No. 1 (1979)

    Google Scholar 

  • Clark, C., Edwards, G., Friedlander, M.: Beverton-Holt model of a commercial fishery: Optimal dynamics. J. Fish. Res. Board Can. 30, 1629–1640 (1973)

    Google Scholar 

  • Cliff, E. M., Vincent, T. L.: An optimal policy for a fish harvest. J. Opt. Theory and Application 12, 493–496 (1973)

    Google Scholar 

  • Dorfman, R.: An economic interpretation of optimal control theory. Amer. Econ. Rev. 59, 817–831 (1969)

    Google Scholar 

  • Fisher, R. A.: The genetical theory of natural selection. New York: Dover 1958

    Google Scholar 

  • Getz, W. M.: Optimal harvesting of structured populations. Math. Biosci. 44, 269–291 (1979)

    Google Scholar 

  • Goh, B. S.: Optimal control of a fish resource. Malayan Scientist 5, 65–70 (1969/1970)

    Google Scholar 

  • Goh, B. S.: Optimal control of renewable resources and pest populations. Proc. 6th Hawaii Internat. Conf. on System Sciences, January 1973

  • Graham, M.: Modern theory of exploiting a fishery, and application to North Sea trawling. J. Cons. Perm. Int. Explor. Mer. 10, 264–274 (1935)

    Google Scholar 

  • Hannesson, R.: Fishery dynamics: A North Atlantic cod fishery. Can. J. Econ. 8, 151–173 (1975)

    Google Scholar 

  • Leslie, P. H.: On the use of matrices in certain population mathematics. Biometrika 33, 183–212 (1945)

    Google Scholar 

  • MacArthur, R. H.: On the relation between reproductive value and optimal predation. Proc. Nat. Acad. Sci. USA 46, 143–145 (1960)

    Google Scholar 

  • MacCall, A. D.: Density-dependence of catchability coefficient in the California Pacific sardine (Sardinops sagax caerulea), purse seine fishery. Cal-Co-op Oceanic Fish. Invest. Rep. 18, 136–148 (1976)

    Google Scholar 

  • Mendelssohn, R.: Optimization problems associated with a Leslie matrix. Amer. Natur. 110, 339–349 (1976)

    Google Scholar 

  • Paloheimo, J. E., Dickie, L. M.: Production and food supply. In: Marine food chains (J. H. Steele, ed.). Berkeley-Los Angeles: University of California Press 1970

    Google Scholar 

  • Pope, J. G.: An investigation into the effects of variable rates of the exploitation of fishery resources. In: The mathematical theory of the dynamics of biological populations (M. S. Bartlett, R. W. Hiorns, eds.) pp. 347. New York: Academic Press 1973

    Google Scholar 

  • Reed, W. J.: Optimum age-specific harvesting in a non-linear population model. Biometrics 36, 579–593 (1980)

    Google Scholar 

  • Ricker, W. E.: Stock and recruitment. J. Fish. Res. Board Can. 11, 559–623 (1954)

    Google Scholar 

  • Rorres, C.: Optimal sustainable yields of a renewable resource. Biometrics 32, 945–948 (1976)

    Google Scholar 

  • Rorres, C., Fair, W.: Optimal harvesting policy for an age-specific population. Math. Biosci. 24, 31–47 (1975)

    Google Scholar 

  • Rothschild, B. J.: Fishing effort. In: Fish population dynamics (J. Gulland, ed.), p. 372. New York: John Wiley and Sons 1977

    Google Scholar 

  • Schaefer, M. B.: Some aspects of the dynamics of populations important to the management of the commercial marine fisheries. Bull. Inter-Amer. Trop. Tuua Comm. 1, 26–56 (1954)

    Google Scholar 

  • Silliman, R. P.: Analog computer simulation and catch forecasting in commercially fished populations. Trans. Amer. Fish. Soc. 98, 560–569 (1969)

    Google Scholar 

  • Sinko, J. W., Streifer, W.: A new model for age size structure of a population. Ecology 48, 918–919 (1967)

    Google Scholar 

  • Walters, C. J.: A generalized computer simulation model for fish population studies. Trans. Amer. Fish. Soc. 98, 505–512 (1969)

    Google Scholar 

  • Warren, C. E.: Biology and water pollution control, p. 434. Philadelphia: W. B. Saunders and Co., 1971

    Google Scholar 

  • Warren, C. E., Davis, G. E.: Laboratory studies of the feeding, bioenergetics and growth of fish. In: The biological basis of freshwater fish production (S. B. Gerking, ed.). New York: John Wiley and Sons 1967

    Google Scholar 

  • Watt, K. E. F.: Ecology and resource management, p. 450. New York: MacGraw-Hill 1968

    Google Scholar 

Download references

Author information

Author notes

  1. Louis W. Botsford

    Present address: Department of Wildlife and Fisheries Biology, University of California, 95616, Davis, CA, USA

Authors and Affiliations

  1. Bodega Marine Laboratory, University of California, P. O. Box 247, 94923, Bodega Bay, CA, USA

    Louis W. Botsford

Authors
  1. Louis W. Botsford
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Botsford, L.W. Optimal fishery policy for size-specific, density-dependent population models. J. Math. Biology 12, 265–293 (1981). https://doi.org/10.1007/BF00276917

Download citation

  • Received:

  • Revised:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00276917

Key words

Search

Navigation