Anthropogenic Habitat Alteration Leads to Rapid Loss of Adaptive Variation and Restoration Potential in Wild Salmon Populations

Authors

Tasha Q. Thompson, University of California, Davis
M. Renee Bellinger, Oregon State University
Sean M. O'Rourke, University of California, Davis
Daniel J. Prince, University of California, Davis
Alexander E. Stevenson, Historical Research Associates, Inc.Follow
Antonia T. Rodrigues, Simon Fraser University
Matthew R. Sloat, Wild Salmon Center
Camilla F. Speller, University of British ColumbiaFollow
Dongya Y. Yang, Simon Fraser UniversityFollow
Virginia L. Butler, Portland State UniversityFollow
Michael A. Banks, Oregon State University
Michael R. Miller, University of California, Davis

Published In

Proceedings of the National Academy of Sciences of the United States of America

Document Type

Citation

Publication Date

1-1-2019

Abstract

Phenotypic variation is critical for the long-term persistence of species and populations. Anthropogenic activities have caused substantial shifts and reductions in phenotypic variation across diverse taxa, but the underlying mechanism(s) (i.e., phenotypic plasticity and/or genetic evolution) and long-term consequences (e.g., ability to recover phenotypic variation) are unclear. Here we investigate the widespread and dramatic changes in adult migration characteristics of wild Chinook salmon caused by dam construction and other anthropogenic activities. Strikingly, we find an extremely robust association between migration phenotype (i.e., spring-run or fall-run) and a single locus, and that the rapid phenotypic shift observed after a recent dam construction is explained by dramatic allele frequency change at this locus. Furthermore, modeling demonstrates that continued selection against the spring-run phenotype could rapidly lead to complete loss of the spring-run allele, and an empirical analysis of populations that have already lost the spring-run phenotype reveals they are not acting as sustainable reservoirs of the allele. Finally, ancient DNA analysis suggests the spring-run allele was abundant in historical habitat that will soon become accessible through a large-scale restoration (i.e., dam removal) project, but our findings suggest that widespread declines and extirpation of the spring-run phenotype and allele will challenge reestablishment of the spring-run phenotype in this and future restoration projects. These results reveal the mechanisms and consequences of human-induced phenotypic change and highlight the need to conserve and restore critical adaptive variation before the potential for recovery is lost.

Rights

Copyright 2019 National Academy of Sciences

Locate the Document

http://doi.org/10.1073/pnas.1811559115

DOI

10.1073/pnas.1811559115

Persistent Identifier

https://archives.pdx.edu/ds/psu/27896

Citation Details

Thompson, T. Q., Bellinger, M. R., O’Rourke, S. M., Prince, D. J., Stevenson, A. E., Rodrigues, A. T., ... & Banks, M. A. (2019). Anthropogenic habitat alteration leads to rapid loss of adaptive variation and restoration potential in wild salmon populations. Proceedings of the National Academy of Sciences, 116(1), 177-186.