Density-dependent life-history compensation of an iteroparous salmonid.

Ecol Appl

Department of Biological Sciences, University of Calgary, Calgary, Alberta T2N 1N4, Canada.

Published: March 2009

AI Article Synopsis

  • The bull trout population in Lower Kananaskis Lake experienced a significant recovery due to zero-harvest regulations, leading to a 28-fold increase in adult fish over ten years.
  • Researchers studied how life-history traits adapted during recovery, noting that increased density changed growth patterns and reproductive behaviors, with differences observed between male and female fish.
  • The findings highlight that while the population showed resilience and adaptability, it did not fully recover from earlier overexploitation, emphasizing the need for careful management to avoid potential vulnerabilities in size-based regulatory practices.

Article Abstract

Over the course of a decade, the bull trout (Salvelinus confluentus) population in Lower Kananaskis Lake, Alberta, Canada, recovered from a heavily overexploited state, experiencing a 28-fold increase in adult abundance after the implementation of zero-harvest regulations. This system provided a unique opportunity to monitor the changes in life-history characteristics in a natural population throughout the recovery process. The purpose of this study was to examine the degree to which life-history traits were able to compensate for harvest-induced changes and the implications of this for management. Density-dependent changes in growth, survival, and reproductive life-history characteristics were observed. As density increased, maturation was delayed, and the frequency of skipped reproductive events, primarily by individuals of poor condition, increased. However, size at maturation and the proportion of fish skipping reproduction differed between the sexes, suggesting that life-history trade-offs differ between the sexes. The rapid response of these life-history traits to changes in density suggests that these changes were primarily due to phenotypic plasticity, although the importance of natural and artificial selection should not be discounted. The magnitude of the variation in the traits represents the degree to which the population was able to compensate for overharvest, although the overexploited state of the population at the beginning of the study demonstrates it was not able to fully compensate for this mortality. However, no evidence of depensatory processes was found. This, in combination with the plasticity of the life-history traits, has important implications for the resilience of the population to overharvest. Furthermore, density-dependent growth may have the unintended result of making size-based regulations less conservative at low levels of population abundance, as younger fish, perhaps even immature fish, become vulnerable to harvest. Finally, the variation in life-history traits in relation to evolutionary change is discussed. Results from this study demonstrate the importance of considering not only survival, but also changes in life-history characteristics for management and conservation.

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Source
http://dx.doi.org/10.1890/07-1507.1DOI Listing

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