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Population dynamics and harvesting of semelparous species with phenotypic and genotypic variability in reproductive age (1995)

Kaitala, Veijo ; Getz, Wayne M.

Springer

Journal of mathematical biology 33 (1995), S. 521-556

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ISSN: 1432-1416

Keywords: Population dynamics modeling ; Evolutionarily stable strategies ; Polymorphic life histories ; Age-at-maturity ; Harvesting

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Mathematics

Notes: Abstract We study the evolution of polymorphic life histories in anadromous semelparous salmon and the effects of harvesting. We derive dynamic phenotypic and genetic ESS models for describing the evolutionary dynamics. We show in our deterministic analysis that polymorphisms are not possible in a panmictic random mating population. Instead, genetic or behavioral polymorphisms may be observed in populations with assortative mating systems. Positive assortative mating may be supported and generated by behavioral and phenotypic traits like male mate choice, spawning ground selection by phenotype, or within-river homing-migration-distance by size. In the case of an evolutionarily stable dimorphism, the ESS is characterized by a reproductive ideal free distribution such that at an equilibrium the individuals are indifferent from the fitness point of view between the two life histories of early and late reproduction. Different strategy models - that is, phenotypic and genetic ESS models - yield identical behavioral predictions and, consequently, genetics does not seem to play an important role in the present model. An evolutionary response to increased fishing mortality is obvious and may have resource management implications. High sea fishing mortalities drive the populations toward early spawning. Thus it is possible that unselective harvesting at sea may eliminate, depending on the biological system, behavioral polymorphisms or genetic heterozygozity and drive the population to a monomorphic one. If within-river homing migration distances depend on the size of fish, unselective harvesting at sea, or selective harvesting of spawning runs in rivers, may reduce local population sizes on spawning grounds high up rivers. Finally, harvesting in a population may cause a switch in a dominant life-history strategy in a population so that anticipated sustainable yields cannot be realized in practice.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00163041

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The management of high seas fisheries (2000)

Bjørndal, Trond ; Kaitala, Veijo ; Lindroos, Marko ; [et al.]

Springer

Annals of operations research 94 (2000), S. 183-196

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ISSN: 1572-9338

Keywords: fisheries management ; game theory ; Norwegian spring‐spawning herring ; straddling and highly migratory stocks ; United Nations

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Economics

Notes: Abstract The intergovernmental United Nations Conference on Highly Migratory and Straddling Stocks, initiated in 1993 and finished in 1995, addressed the conservation and management of fishery resources located both within the coastal state 200 mile Exclusive Economic Zone (EEZ) and the adjacent high seas. These types of marine resources continue to be a source for international conflicts and debates. The original United Nations Law of the Sea of 1982 failed to address transboundary fisheries in a proper way. In particular, the agreement did not recognize the emergence of the complicated “straddling stock” issue. In the new United Nations Law of the Sea agreement of 1995, a consensus was reached that the management of the straddling and highly migratory fish stocks should be carried out through regional fisheries management organizations. We present a review of the straddling stock issues in the international agreement emerging from the negotiations within the United Nations. The review is contrasted with and clarified by game theoretic analyses. We also discuss one international fishery exemplifying the case, the Norwegian spring‐spawning herring. The main conclusion is that the local problems, faced during the stage of setting up regional fisheries organizations for the management of straddling and highly migratory fish stocks, are expected to be much more complicated and difficult to solve as compared to the cases of “shared fish stocks”. In the current paper, we present two reasons for this increased complexity. The first is the larger number of players as compared to the case of “shared fish stocks” and the second is the possibility of new members entering the regional fisheries organizations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018925302021

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