No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species
SS Taylor, IG Jamieson - Molecular Ecology, 2008 - Wiley Online Library
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species.
SS Taylor, IG Jamieson - Molecular Ecology, 2007 - europepmc.org
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species
SS Taylor, IG Jamieson - Molecular Ecology, 2008 - ui.adsabs.harvard.edu
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
[PDF][PDF] No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species
SS TAYLOR, IANG JAMIESON - Molecular Ecology, 2007 - academia.edu
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
[PDF][PDF] No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species
SS TAYLOR, IANG JAMIESON - Molecular Ecology, 2007 - Citeseer
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species
SS Taylor, IG Jamieson - Molecular Ecology, 2008 - hero.epa.gov
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species
SS Taylor, IG Jamieson - Molecular ecology, 2008 - pubmed.ncbi.nlm.nih.gov
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
No evidence for loss of genetic variation following sequential translocations in extant populations of a genetically depauperate species.
SS TAYLOR, IANG JAMIESON - Molecular Ecology, 2008 - search.ebscohost.com
Repeated population bottlenecks can lead to loss of genetic variation and normally should
be avoided in threatened species to preserve evolutionary potential. We examined the effect …
be avoided in threatened species to preserve evolutionary potential. We examined the effect …