The Endangered Allen Cays Rock Iguana (Cyclura cychlura inornata) is endemic to the Allen Cays, a tiny cluster of islands in the Bahamas. Naturally occurring populations exist on only two cays (<4 ha each). However, populations of unknown origin were recently discovered on four additional cays. To investigate patterns of genetic variation among these populations, we analyzed nuclear and mitochondrial markers for 268 individuals. Analysis of three mitochondrial gene regions (2,328 bp) and data for eight nuclear microsatellite loci indicated low genetic diversity overall. Estimates of effective population sizes based on multilocus genotypes were also extremely low. Despite low diversity, significant population structuring and variation in genetic diversity measures were detected among cays. Genetic data confirm the source population for an experimentally translocated population while raising concerns regarding. other, unauthorized, translocations. Reduced heterozygosity consistent. with a documented historical population decline due to overharvest. This study provides the first range-wide genetic analysis of this subspecies.. We suggest strategies to maximize genetic diversity during ongoing recovery. including. additional translocations to establish assurance populations and additional protective measures for the two remaining natural populations.
Aplasca, A.c., Iverson, J.b., Welch, M.e., Colosimo, G., Hekkala, E.r. (2016). Genetic diversity and structure in the Endangered Allen Cays Rock Iguana, Cyclura cychlura inornata. PEERJ, 4(3) [10.7717/peerj.1793].
Genetic diversity and structure in the Endangered Allen Cays Rock Iguana, Cyclura cychlura inornata
Colosimo, Giuliano;
2016-01-01
Abstract
The Endangered Allen Cays Rock Iguana (Cyclura cychlura inornata) is endemic to the Allen Cays, a tiny cluster of islands in the Bahamas. Naturally occurring populations exist on only two cays (<4 ha each). However, populations of unknown origin were recently discovered on four additional cays. To investigate patterns of genetic variation among these populations, we analyzed nuclear and mitochondrial markers for 268 individuals. Analysis of three mitochondrial gene regions (2,328 bp) and data for eight nuclear microsatellite loci indicated low genetic diversity overall. Estimates of effective population sizes based on multilocus genotypes were also extremely low. Despite low diversity, significant population structuring and variation in genetic diversity measures were detected among cays. Genetic data confirm the source population for an experimentally translocated population while raising concerns regarding. other, unauthorized, translocations. Reduced heterozygosity consistent. with a documented historical population decline due to overharvest. This study provides the first range-wide genetic analysis of this subspecies.. We suggest strategies to maximize genetic diversity during ongoing recovery. including. additional translocations to establish assurance populations and additional protective measures for the two remaining natural populations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.