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Environmental influences of life history strategies in partial anadromous brown trout (Salmo trutta, Salmonidae)

Journal article
Authors M. Nevoux
B. Finstad
J. G. Davidsen
R. Finlay
Q. Josset
R. Poole
Johan Höjesjö
K. Aarestrup
L. Persson
O. Tolyanen
B. Jonsson
Published in Fish and Fisheries
Volume 20
Issue 6
Pages 1051-1082
ISSN 1467-2960
Publication year 2019
Published at Department of Biological and Environmental Sciences
Pages 1051-1082
Language en
Links dx.doi.org/10.1111/faf.12396
Keywords freshwater resident, habitat, migration, partial anadromy, Salmonidae, sex ratio, charr salvelinus-alpinus, wild atlantic salmon, lice, lepeophtheirus-salmonis, alternative mating tactics, sexual size, dimorphism, fresh-water resident, nonanadromous oncorhynchus-mykiss, sea-trout, climate-change, arctic charr, Fisheries
Subject categories Fish and Aquacultural Science, Marine ecology

Abstract

This paper reviews the life history of brown trout and factors influencing decisions to migrate. Decisions that maximize fitness appear dependent on size at age. In partly anadromous populations, individuals that attain maturity at the parr stage typically become freshwater resident. For individual fish, the life history is not genetically fixed and can be modified by the previous growth history and energetic state in early life. This phenotypic plasticity may be influenced by epigenetic modifications of the genome. Thus, factors influencing survival and growth determine life-history decisions. These are intra- and interspecific competition, feeding and shelter opportunities in freshwater and salt water, temperature in alternative habitats and flow conditions in running water. Male trout exhibit alternative mating strategies and can spawn as a subordinate sneaker or a dominant competitor. Females do not exhibit alternative mating behaviour. The relationship between growth, size and reproductive success differs between sexes in that females exhibit a higher tendency to migrate than males. Southern populations are sensitive to global warming. In addition, fisheries, aquaculture with increased spreading of salmon lice, introduction of new species, weirs and river regulation, poor water quality and coastal developments all threaten trout populations. The paper summarizes life-history data from six populations across Europe and ends by presenting new research questions and directions for future research.

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