Advanced search
Publication Cover
Fisheries Volume 41, 2016 - Issue 4
Journal homepage
497
Views
20
CrossRef citations to date
0
Altmetric
FEATURE

Applications of Genetic Data to Improve Management and Conservation of River Fishes and Their Habitats

Aplicaciones de datos genéticos para mejorar el manejo y la conservación de peces de río y sus hábitats

Applications de données génétiques pour améliorer la gestion et la conservation des poissons de rivière et de leurs habitats

Kim T. ScribnerDepartment of Fisheries and Wildlife and Department of Zoology, 480 Wilson Rd., 13 Natural Resources Building, Michigan State University, East Lansing, MI48824. E-mail: [email protected]
,
Winsor H. LoweDivision of Biological Sciences, University of Montana, Missoula, MT
,
Erin LandguthDivision of Biological Sciences, University of Montana, Missoula, MT
,
Gordon LuikartDivision of Biological Sciences, University of Montana, Missoula, MT
,
Dana M. InfanteDepartment of Fisheries and Wildlife, Michigan State University, East Lansing, MI
,
Gary E. WhelanFisheries Division, Michigan Department of Natural Resources, Lansing, MI
&
Clint C. MuhlfeldU.S. Geological Survey, Northern Rocky Mountain Science Center, Glacier National Park, West Glacier, MT;University of Montana, Flathead Lake Biological Station, Polson, MT
 show all
Pages 174-188 | Published online: 06 Apr 2016

REFERENCES

  • Aitken, S. N., and M. C. Whitlock. 2013. Assisted gene flow to facilitate local adaptation to climate change. Annual Review of Ecology Evolution and Systematics 44: 367–388.
  • Aitken, S. N., S. Yeaman, J. A. Holliday, T. Wang, and S. Curtis-McLane. 2008. Adaptation, migration or extirpation: climate change outcomes for tree populations. Evolutionary Applications 1: 95–111.
  • Allan, J. D. 2004. Landscapes and riverscapes: the influence of land use on stream ecosystems. Annual Review of Ecology Evolution and Systematics 35: 257–284.
  • Allendorf, F. W., and J. J. Hard. 2009. Human-induced evolution caused by unnatural selection through harvest of wild animals. Proceedings of the National Academy of Sciences of the United States of America 106: 9987–9994.
  • Allendorf, F. W., P. A. Hohenlohe, and G. Luikart. 2010. Genomics and the future of conservation genetics. Nature Reviews Genetics 11: 697–709.
  • Allendorf, F. W., R. F. Leary, P. Spruell, and J. K. Wenburg. 2001. The problems with hybrids: setting conservation guidelines. Trends in Ecology and Evolution 16: 613–622.
  • Allendorf, F. W., G. Luikart, and S. N. Aitken. 2013. Conservation and the genetics of populations, 2nd edition. Wiley-Blackwell, Oxford, U.K.
  • Anderson, C., B. K. Epperson, M. J. Fortin, R. Holderegger, P. James, M. Rosenberg, K. T. Scribner, and S. Spear. 2010. Consideration of scale in landscape genetics can improve predictive relationships between measures of spatial genetic structure and landscape pattern. Molecular Ecology 19: 3565–3575.
  • Anderson, E. C., and J. C. Garza. 2006. The power of single-nucleotide polymorphisms for large-scale parentage inference. Genetics 172: 2567–2592.
  • Angermeier, P. L., K. L. Krueger, and C. A. Dolloff. 2002. Discontinuity in stream-fish distributions: implications for assessing and predicting species occurrence. Pages 519–527 in J. M. Scott, P. Heglund, M. L. Morrison, and P. H. Raven, editors. Predicting species occurrences: issues of accuracy and scale. Island Press, Washington, D.C.
  • Bassar, R. D., M. C. Marshall, A. López-Sepulcre, E. Zandonà, S. K. Auer, J. Travis, C. M. Pringle, A. S. Flecker, S. A. Thomas, D. F. Fraser, and D. N. Reznick. 2010. Local adaptation in Trinidadian guppies alters ecosystem processes. Proceedings of the National Academy of Sciences of the United States of America 107: 3616–2621.
  • Bernatchez, L., and C. C. Wilson. 1998. Comparative phylogeography of nearctic and palearctic fishes. Molecular Ecology 7: 431–452.
  • Bickford, D., D. J. Lohman, N. S. Sodhi, P. L. Ng, R. Meier, K. Winker, K. K. Ingram, and I. Das. 2007. Cryptic species as a window on diversity and conservation. Trends in Ecology and Evolution 22: 148–159.
  • Blair, C., D. E. Weigel, M. Balazik, A. T. H. L. Keeley, F. M. Walker, E. Landguth, S. Cushman, M. Murphy, L. Waits, and N. Balkenhol. 2012. A simulation-based evaluation of methods for inferring linear barriers to gene flow. Molecular Ecology Resources 12: 822–833.
  • Blum, M. J., M. J. Bagley, D. M. Walters, S. A. Jackson, F. B. Daniel, and D. J. Chaloud. 2012. Genetic diversity and species diversity of stream fishes covary across a land-use gradient. Oecologia 168: 83–95.
  • Bradbury, I. R., S. Hubert, B. Higgins, S. Bowman, T. Borza, I. G. Paterson, P. V. R. Snelgrove, C. J. Morri, R. S. Gregory, D. Hardie, J. A. Hutchings, D. E. Ruzzante, C. T. Taggart, and P. Bentzen. 2013. Genomic islands of divergence and their consequences for the resolution of spatial structure in an exploited marine fish. Evolutionary Applications 6: 450–461.
  • Brown, B. L., and C. M. Swan. 2010. Dendritic network structure constrains metacommunity properties in riverine ecosystems. Journal of Animal Ecology 79: 571–580.
  • Carlisle, D. M., J. Falcone, and M. R. Meador. 2009. Predicting the biological condition of streams: use of geospatial indicators of natural and anthropogenic characteristics of watersheds. Environmental Monitoring and Assessment 151: 143–160.
  • Cooter, W., R. Rinear, and B. Bergenroth. 2010. A nationally consistent NHDPlus framework for identifying interstate waters: implications for integrated assessments and inter-jurisdictional TMDLs. Environmental Management 46: 510–524.
  • Corander J., P. Waldmann, P. Marttinen, and M. J. Sillanpää. 2004. BAPS 2: enhanced possibilities for the analysis of genetic population structure. Bioinformatics 20: 2363–2369.
  • Costello, A. B., T. E. Down, S. M. Pollard, C. J. Pacas, and E. B. Taylor. 2003. The influence of history and contemporary stream hydrology on the evolution of genetic diversity within species: an examination of microsatellite DNA variation in Bull Trout Salvelinus confluentus (Pices: Salmonidae). Evolution 57: 328–344.
  • Crida, A., and S. Manel. 2007. WOMBSOFT: a R package that implements the Wombling method to identify genetics boundaries. Molecular Ecology Notes 7: 588–591.
  • Dammerman, K. J., J. P. Steibel, and K. T. Scribner. 2015. Genetic and environmental components of phenotypic and behavioral trait variation during Lake Sturgeon (Acipenser fulvescens) early ontogeny. Environmental Biology of Fishes 98: 1659–1670.
  • Daniel, W. M., D. M. Infante, R. M. Hughes, P. C. Esselman, Y. P. Tsang, D. Wieferich, K. Herreman, A. R. Cooper, L. Wang, and W. W. Taylor. 2015. Coal and mineral mines as a regional source of stress to stream fish assemblages. Ecological Indicators 50: 50–61.
  • Dungan, J. L., J. N. Perry, M. R. T. Dale, P. Legendre, and M. J. Fortin. 2002. A balanced view of scale in spatial statistical analysis. Ecography 25: 626–640.
  • Duong, T. Y., K. T. Scribner, P. S. Forsythe, J. A. Crossman, and E. A. Baker. 2013. Inter annual variation in effective number of breeders and estimation of effective population size in long-lived iteroparous Lake Sturgeon (Acipenser fulvescens). Molecular Ecology 22: 1282–1294.
  • Durance, I., C. Lepichon, and S. J. Ormerod. 2006. Recognizing the importance of scale in the ecology and management of riverine fish. River Research and Applications 22: 1143–1152.
  • Esselman, P. C., D. M. Infante, L. Wang, A. R. Cooper, D. L. Wieferich, Y. P. Tsang, D. J. Thornbrugh, and W. W. Taylor. 2013. Regional fish community indicators of landscape disturbance to catchments of the conterminous United States. Ecological Indicators 26: 163–173.
  • Esselman, P. C., D. M. Infante, L. Wang, D. Wu, A. R. Cooper, and W. W. Taylor. 2011. An index of cumulative disturbance to river fish ha
  • Fraser, D. J., and L. Bernatchez. 2005. Allopatric origins of sympatric Brook Charr populations: colonization history and admixture. Molecular Ecology 14: 1497–1509.
  • Freeland, J. R., S. D. Petersen, and H. Kirk. 2011. Molecular ecology, 2nd edition. Wiley-Blackwell, New York.
  • Frissell, C. A., W. J. Liss, C. E. Warren, and M. D. Hurley. 1986. A hierarchical framework for stream habitat classification: viewing streams in a watershed context. Environmental Management 10: 199–214.
  • Fujimoto, M., J. A. Crossman, K. T. Scribner, and T. L. Marsh. 2013. Microbial community assembly and succession on Lake Sturgeon egg surfaces as a function of simulated spawning stream flow rate. Microbial Ecology 66: 500–511.
  • Funk, W. C., J. K. McKay, P. A. Hohenlohe, and F. W. Allendorf. 2012. Harnessing genomics for delineating conservation unites. Trends in Ecology and Evolution 27: 489–496.
  • Gaggiotti, O. E. 1996. Population genetic models of source-sink metapopulations. Theoretical Population Biology 50: 178–208.
  • Garcia de Leaniz, C., I. A. Fleming, S. Einum, E. Verspoor, W. C. Jordon, S. Consuegra, N. Abin-Horth, D. Lajus, B. H. Letcher, A. F. Youngson, J. H. Webb, L. A. Vollestad, B. Villanueva, A. Ferguson, and T. P. Quinn. 2007. A critical review of adaptive genetic variation in Atlantic Salmon: implications for conservation. Biological Reviews 82: 173–211.
  • Gomez-Uchida, D., T. W. Knight, and D. E. Ruzzante. 2009. Interaction of landscape and life history attributes on genetic diversity, neutral divergence and gene flow in a pristine community of salmonids. Molecular Ecology 18: 4854–4869.
  • Gomi, T., R. C. Sidle, and J. S. Richardson. 2002. Understanding processes and downstream linkages of headwater systems. Bioscience 52: 905–916.
  • Grant, E. H. C., W. H. Lowe, and W. F. Fagan. 2007. Living in the branches: population dynamics and ecological processes in dendritic networks. Ecology Letters 10: 165–175.
  • Hänfling, B., and D. Weetman. 2006. Concordant genetic estimators of migration reveal anthropogenically enhanced source-sink population structure in the River Sculpin, Cottus gobio. Genetics 173: 1487–1501.
  • Hansen, M. M., I. Olivieri, D. M. Waller, E. E. Nielsen, and the GeM Working Group. 2012. Monitoring adaptive genetic responses to environmental change. Molecular Ecology 21: 1311–1329.
  • Harding, J. S., E. F. Benfield, P. V. Bolstad, G. S. Helfman, and E. B. D. Jones. 1998. Stream biodiversity: the ghost of land use past. Proceedings of the National Academy of Sciences of the United States of America 95: 14843–14847.
  • Hemmer-Hansen, J., E. E. Nielsen, J. Frydenberg, and V. Loeschcke. 2007. Adaptive divergence in a high gene flow environment: Hsc70 variation in the European Flounder (Platichthys flesus L.). Heredity 99: 592–600.
  • Hessenauer, J. M., M. T. Bremigan, and K. T. Scribner. 2012. Genetic pedigree reconstruction facilitates lakewide estimates of age-0 Largemouth Bass dispersal. Transactions of the American Fishery Society 141 (6): 1672–1681.
  • Hoffmann, A. A., and C. M. Sgro. 2011. Climate change and evolutionary adaptation. Nature 470: 479–485.
  • Hohenlohe, P. A., S. Bassham, and P. D. Etter. 2010. Population genomics of parallel adaptation in Threespine Stickleback using sequenced RAD tags. PLoS Genetics 6 (2):e1000862. DOI:10.1371/journal.pgen.1000862.
  • Hohenlohe, P. A., M. D. Day, S. J. Amish, M. R. Miller, N. Kamps-Hughes, M. C. Boyer, C. C. Muhlfeld, F. W. Allendorf, E. A. Johnson, and G. Luikart. 2013. Genomic patterns of introgression in Rainbow and Westslope Cutthroat trout illuminated by overlapping paired-end RAD sequencing. Invited paper on next generation sequencing. Molecular Ecology 22: 3002–3013.
  • Hughes, J. M., D. J. Schmidt, and D. S. Finn. 2009. Genes in streams: using DNA to understand the movement of freshwater fauna and their riverine habitat. BioScience 59: 573–583.
  • Jerde, C., A. R. Mahon, W. L. Chadderton, and D. M. Lodge. 2011. Sight unseen detection of environmental DNA for surveillance of aquatic organisms at low densities. Conservation Letters 4: 150–157.
  • Jones L. A., C. C. Muhlfeld, L. A. Marshall, B. L. McGlynn, and J. L. Hershner. 2013. Estimating thermal regimes of Bull Trout and assessing the potential effects of climate warming on critical habitats. River Research and Applications. doi:10.1002/rra.2638.
  • Kalinowski, S. T., M. H. Meeuwig, S. R. Narum, and M. L. Taper. 2008. Stream trees: a statistical method for mapping genetic differences between populations of freshwater organisms to the sections of streams that connect them. Canadian Journal of Fisheries and Aquatic Sciences 65: 2752–2760.
  • Kanno, Y., J. C. Vokoun, and B. H. Letcher. 2011. Fine-scale population structure and riverscape genetics of Brook Trout (Salvelinus fontinalis) distributed continuously along headwater channel networks. Molecular Ecology 20: 3711–3729.
  • Kelly, R. P., J. A. Port, K. M. Yamahara, and L. B. Crowder. 2014. Using environmental DNA to census marine fishes in a large mesocosm. PLoS One. doi:10.1371/journal.pone.0086175.
  • Knouft, J. H., N. M. Caruso, P. J. Dupre, K. R. Anderson, D. R. Trumbo, and J. Puccinelli. 2011. Using fine-scale GIS data to assess the relationship between intra-annual environmental niche variability and population density in a local stream fish assemblage. Methods in Ecology and Evolution 2: 303–311.
  • Kovach, R. P., A. J. Gharrett, and D. A. Tallmon. 2012. Genetic change for earlier migration timing in a Pink Salmon population. Proceedings of the Royal Society B 279: 3870–3878.
  • Kovach, R. P., C. C. Muhlfeld, A. A. Wade, B. K. Hand, D. C. Whited, P. W. DeHaan, R. Al-Chokhachy, and G. Luikart. 2015. Genetic diversity is related to climatic variation and vulnerability in threatened bull trout. Global Change Biology 21: 2510–2524.
  • Lamy, T., P. Jarne, F. Laroche, J.P. Poinntier, G. Huth, A. Segard, and P. Davis. 2013. Variation in habitat connectivity generates positive correlations between species and genetic diversity in a metacommunity. Molecular Ecology 22: 4445–4456.
  • Landguth, E. L., C. C. Muhlfeld, and G. Luikart. 2012. CDFISH: an individual-based, spatially-explicit, landscape genetics simulator for aquatic species in complex riverscapes. Conservation Genetics Resources 4: 133–136.
  • Landguth, E. L., C. C. Muhlfeld, R. S. Waples, L. Jones, W. H. Lowe, D. Whited, J. Lucotch, H. Neville, and G. Luikart. 2014. Combining demographic and genetic factors to assess population vulnerability in stream species. Ecological Applications 16: 1505–1524.
  • Landguth, E. L., M. Schwartz, K. McKelvey, M. Murphy, and G. Luikart. 2010. Quantifying the lag time to detect barriers in landscape genetics. Molecular Ecology 19: 4179–4191.
  • Leberg, P. L. 1990. Influence of genetic variability on population growth: implications for conservation. Journal of Fish Biology 37: 193–195.
  • Limborg, M. T., S. M. Blankenship, S. F. Young, F. M. Utter, L. W. Seeb, M. H. H. Hansen, and J. E. Seeb. 2012. Signatures of natural selection among lineages and habitats in Oncorhynchus mykiss. Ecology and Evolution 2: 1–18.
  • Lowe, W. H., and F. W. Allendorf. 2010. What can genetics tell us about population connectivity? Molecular Ecology 19: 3038–3051.
  • Lowe, W. H., and D. T. Bolger. 2002. Local and landscape-scale predictors of salamander abundance in New Hampshire headwater streams. Conservation Biology 16: 183–193.
  • Lowe, W. H., and G. E. Likens. 2005. Moving headwater streams to the head of the class. Bioscience 55: 196–197.
  • Macneale, K. H., B. L. Peckarsky, and G. E. Likens. 2005. Stable isotopes identify dispersal patterns of stonefly populations living along stream corridors. Freshwater Biology 50: 1117–1130.
  • Manel, S., and R. Holderegger. 2013. Ten years of landscape genetics. Trends in Ecology and Evolution 28: 614–621.
  • Manni, F., E. Guerard, and E. Heyer. 2004. Geographic patterns of (genetic, morphological, linguistic) variation: how barriers can be detected by using Mononier's algorithm. Human Biology 76: 173–190.
  • McRae, B. H., and P. Beier. 2007. Circuit theory predicts gene flow in plant and animal populations. Proceedings of the National Academy of Sciences of the United States of America 104: 19885–19890.
  • Miller, K. M., S. Li, K. H. Kaukinen, N. Ginther, E. Hammill, J. M. R. Curtis, and D. A. Patterson. 2011. Genomic signatures predict migration and spawning failure in wild Canadian salmon. Science 331: 214–217.
  • Miller, M. R., J. P. Dunham, A. Amores, W. A. Cresko, and E. A. Johnson. 2007. Rapid and cost-effective polymorphism identification and genotyping using restriction site associated DNA (RAD) markers. Genome Research 17: 240–248.
  • Moritz, C. 2002. Strategies to protect biological diversity and the evolutionary processes that sustain it. Systematic Biology 51: 238–254.
  • Morrissey, M. B., and D. T. de Kerckhove. 2009. The maintenance of genetic variation due to asymmetric gene flow in dendritic metapopulations. The American Naturalist 174: 875–889.
  • Muhlfeld, C. C., R. P. Kovach, L. A. Jones, R. Al-Chokhachy, M. C. Boyer, R. F. Leary, W. H. Lowe, G. Luikart, and F. W. Allendorf. 2014. Invasive hybridization in a threatened species is accelerated by climate change. Nature Climate Change 4: 620–624.
  • Muhlfeld, C. C., T. E. McMahon, M. C. Boyer, and R. E. Gresswell. 2009. Local habitat, watershed, and biotic factors influencing the spread of hybridization between native Westslope Cutthroat trout and introduced Rainbow Trout. Transactions of the American Fisheries Society 138 (5): 1036–1051.
  • Narum, S., and S. Alex. 2013. Genotyping-by-sequencing in ecological and conservation genomics. Molecular Ecology 22: 2841–2847.
  • Narum, S. R., C. A. Buerkle, J. W. Davey, and M. R. Miller. 2013a. Genotype by sequencing in ecological and conservation genomics. Molecular Ecology 22: 2898–2916.
  • Narum, S. R., N. R. Campbell, C. C. Kozfkay, and K. A. Meyer. 2010. Adaptation of redband trout in desert and montane environments. Molecular Ecology 19: 4622–4637.
  • Narum, S. R., N. R. Campbell, K. A. Meyer, M. R. Miller, and R. W. Hardy. 2013b. Thermal adaptation and acclimation of ectotherms from differing aquatic climates. Molecular Ecology 22: 3090–3097.
  • Neuenschwander, S. 2006. AQUASPLATCHE: a program to simulate genetic diversity in populations living in linear habitats. Molecular Ecology Notes 6: 583–585.
  • Neville, H., and L. Bernatchez. 2013. Coding gene single nucleotide polymorphism population genetics of nonnative Brook Trout: the ghost of introductions past. Transactions of the American Fisheries Society 142 (5): 1215–1231.
  • Neville, H., J. B. Dunham, and M. H. Peacock. 2006. Landscape attributes and life history variability shape genetic structure of trout populations in a stream network. Landscape Ecology 21: 901–916.
  • Ozerov, M., L. Yu, A. A. E. Veselov, J. Lumme, and C. R. Primmer. 2010. Riverscape genetics: river characteristics influence the genetic structure and diversity of anadromous and freshwater Atlantic Salmon (Salmo salar) populations in northwest Russia. Canadian Journal of Fisheries and Aquatic Sciences 69: 1947–1958.
  • Paulsen, S. G., A. Mayio, D. V. Peck, J. L. Stoddard, E. Tarquinio, S. M. Holdsworth, J. Van Sickle, L. L. Yuan, C. P. Hawkins, A. T. Herlihy, P. R. Kaufmann, M. T. Barbour, D. P. Larsen, and A. R. Olsen. 2008. Condition of stream ecosystems in the U.S.: an overview of the first national assessment. Journal of the North American Benthological Society 27: 812–821.
  • Perkin, J. S., and K. B. Gido. 2012. Fragmentation alters stream fish community structure in dendritic ecological networks. Ecological Applications 22: 2176–2187.
  • Poff, N., and J. LeRoy. 2009. Managing for variability to sustain freshwater ecosystems. Journal of Water Resource Planning and Management 135: 1–4.
  • Poissant, J., T. W. Knight, and M. M. Ferguson. 2005. Nonequilibrium conditions following landscape rearrangement: the relative contribution of past and current hydrological landscapes on the genetic structure of a stream-dwelling fish. Molecular Ecology 14: 1321–1331.
  • Pulliam, H. R. 1988. Sources, sinks, and population regulation. The American Naturalist 132: 652–661.
  • Raeymaekers, J. A. M., G. E. Maes, S. Geldof, I. Hontis, K. Nackaert, and P. A. M. Volckaert. 2008. Modeling genetic connectivity in sticklebacks as a guideline for river restoration. Evolutionary Applications 1: 475–488.
  • Schlosser, I. J. 1991. Stream fish ecology: a landscape perspective. Bioscience 41: 704–712.
  • Scribner, K. T., K. Page, and M. Bartron. 2001. Life history and behavioral ecology impact rates and direction of evolutionary change in fish hybrid zones: a cytonuclear perspective. Reviews in Fish Biology and Fisheries 10: 293–323.
  • Selkoe, K. A., K. T. Scribner, and H. Galindo. 2015. Applications of landscape genetics in aquatic environments. Pages 220–246 in N. Balkenhol, S. Cushman, A. Storfer, L. Waits, editors. Landscape genetics: concepts, methods, applications. Wiley-Blackwell, New York.
  • Stoddard, J. L., A. T. Herlihy, D. V. Peck, R. M. Hughes, T. R. Whittier, and E. Tarquinio. 2008. A process for creating multimetric indices for large-scale aquatic surveys. Journal of the North American Benthological Society 27: 878–891.
  • Stokstad, E. 2010. Trade trumps science for marine species at international meeting. Science 328: 26–27.
  • Takahara, T., T. Minamoto, H. Yamanaka, H. Doi, and Z. Kawabata. 2012. Estimation of fish biomass using environmental DNA. PLoS One. doi:10.1371/journal.pone.0035868.
  • Tallmon, D., G. Luikart, and R. Waples. 2004. The alluring simplicity and complexity of genetic rescue. Trends in Ecology and Evolution 19: 498–496.
  • VanderWal, E., D. Garant, M. Festa-Bianchet, and F. Pelletier. 2013. Evolutionary rescue in vertebrates: evidence, applications and uncertainty. Philosophical Transactions of the Royal Society B 368: 201–209.
  • Vasemägi, A., and C. R. Primmer. 2005. Challenges for identifying functionally important genetic variation: the promise of combining complementary research strategies. Molecular Ecology 14: 3623–3642.
  • Vellend, M., and M. A. Geber. 2005. Connections between species diversity and genetic diversity. Ecological Letters 8: 767–781.
  • Vrijenheok, R. 1989. Genetic and ecological constraints on the origins and establishment of unisexual vertebrates. Pages 24–31 in R. M. Dawley and J. P. Bogart, editors. Evolution and ecology of unisexual vertebrates. New York State Museum, Bulletin 466, Albany.
  • Waples, R. A., G. Luikart, J. Faulkner, and D. A. Tallmon. 2013. Simply life-history traits explain key effective population size ratios across diverse taxa. Proceedings of the Royal Society B 279: 3870–3878.
  • Weir, B. S., and C. C. Cockerham. 1984. Estimating F-statistics for the analysis of population structure. Evolution 38: 1358–1370.
  • Whiteley, A. R., K. Hastings, J. K. Wenburg, C. A. Frissell, J. C. Martin, and F. W. Allendorf. 2010. Genetic variation and effective population size in isolated populations of coastal Cutthroat Trout. Conservation Genetics 11: 1929–1943.
  • Whiteley, A. R., P. Spruell, B. E. Rieman, and F. W. Allendorf. 2006. Fine-scale genetic structure of Bull Trout at the southern limit of their distribution. Transactions of the American Fisheries Society 135 (5): 1238–1253.
  • Wofford, J. E. B., R. E. Gresswell, and M. A. Banks. 2005. Influence of barriers to movement on within-watershed genetic variation of coastal Cutthroat Trout. Ecological Applications 15: 628–637.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.