首页 | 本学科首页   官方微博 | 高级检索  
     


Genetic population structure and demography of an apex predator,the tiger shark Galeocerdo cuvier
Authors:Agathe Pirog,S  bastien Jaquemet,Virginie Ravign  ,Geremy Cliff,Eric Clua,Bonnie J. Holmes,Nigel E. Hussey,John E. G. Nevill,Andrew J. Temple,Per Berggren,Laurent Vigliola,H  l  ne Magalon
Affiliation:Agathe Pirog,Sébastien Jaquemet,Virginie Ravigné,Geremy Cliff,Eric Clua,Bonnie J. Holmes,Nigel E. Hussey,John E. G. Nevill,Andrew J. Temple,Per Berggren,Laurent Vigliola,Hélène Magalon
Abstract:Population genetics has been increasingly applied to study large sharks over the last decade. Whilst large shark species are often difficult to study with direct methods, improved knowledge is needed for both population management and conservation, especially for species vulnerable to anthropogenic and climatic impacts. The tiger shark, Galeocerdo cuvier, is an apex predator known to play important direct and indirect roles in tropical and subtropical marine ecosystems. While the global and Indo‐West Pacific population genetic structure of this species has recently been investigated, questions remain over population structure and demographic history within the western Indian (WIO) and within the western Pacific Oceans (WPO). To address the knowledge gap in tiger shark regional population structures, the genetic diversity of 286 individuals sampled in seven localities was investigated using 27 microsatellite loci and three mitochondrial genes (CR, COI, and cytb). A weak genetic differentiation was observed between the WIO and the WPO, suggesting high genetic connectivity. This result agrees with previous studies and highlights the importance of the pelagic behavior of this species to ensure gene flow. Using approximate Bayesian computation to couple information from both nuclear and mitochondrial markers, evidence of a recent bottleneck in the Holocene (2,000–3,000 years ago) was found, which is the most probable cause for the low genetic diversity observed. A contemporary effective population size as low as 111 [43,369] was estimated during the bottleneck. Together, these results indicate low genetic diversity that may reflect a vulnerable population sensitive to regional pressures. Conservation measures are thus needed to protect a species that is classified as Near Threatened.
Keywords:approximate Bayesian computation  bottleneck  effective population size  microsatellite DNA  mitochondrial DNA  tiger shark
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号