%ABiesack, Ellen [Department of Biological Sciences Old Dominion University Norfolk Virginia USA]%ADang, Binh [Institute for Biotechnology and Environment Nha Trang University Nha Trang Vietnam]%AAckiss, Amanda [Department of Biological Sciences Old Dominion University Norfolk Virginia USA]%ABird, Christopher [Department of Life Sciences Texas A&,M University – Corpus Christi Corpus Christi Texas USA]%AChheng, Phen [Fisheries Administration Inland Fisheries Research and Development Institute Phnom Penh Cambodia]%APhounvisouk, Latsamy [Living Aquatic Resources Research Centre Vientiane Lao PDR]%ATruong, Oanh [Institute for Biotechnology and Environment Nha Trang University Nha Trang Vietnam]%ACarpenter, Kent [Department of Biological Sciences Old Dominion University Norfolk Virginia USA]%BJournal Name: Journal of Fish Biology; Journal Volume: 97; Journal Issue: 3; Related Information: CHORUS Timestamp: 2023-09-04 23:09:27 %D2020%IWiley-Blackwell %JJournal Name: Journal of Fish Biology; Journal Volume: 97; Journal Issue: 3; Related Information: CHORUS Timestamp: 2023-09-04 23:09:27 %K %MOSTI ID: 10377650 %PMedium: X %TEvidence for population genetic structure in two exploited Mekong River fishes across a natural riverine barrier %XAbstract

Impacts of urban development on aquatic populations are often complex and difficult to ascertain, but population genetic analysis has allowed researchers to monitor and estimate gene flow in the context of existing and future hydroelectric projects. The Lower Mekong Basin is undergoing rapid hydroelectric development with around 50 completed and under‐construction dams and 95 planned dams. The authors investigated the baseline genetic diversity of two exploited migratory fishes, the mud carpHenicorhynchus lobatus(five locations), and the rat‐faced pangasiid catfish,Helicophagus leptorhynchus(two locations), in the Lower Mekong Basin using the genomic double digest restriction site‐associated DNA (ddRAD) sequencing method. In both species, fish sampled upstream of Khone Falls were differentiated from those collected at other sites, andNeestimates at the site above the falls were lower than those at other sites. This was the first study to utilize thousands of RAD‐generated single nucleotide polymorphisms to indicate that the Mekong's Khone Falls are a potential barrier to gene flow for these two moderately migratory species. The recent completion of the Don Sahong dam across one of the only channels for migratory fishes through Khone Falls may further exacerbate signatures of isolation and continue to disrupt the migration patterns of regionally vital food fishes. In addition,H. lobatuspopulations downstream of Khone Falls, including the 3S Basin and Tonle Sap system, displayed robust connectivity. Potential obstruction of migration pathways between these river systems resulting from future dam construction may limit dispersal, which has led to elevated inbreeding rates and even local extirpation in other fragmented riverine species.

%0Journal Article