Oanh Thi Truong , Sang Quang Tran , Kent E. Carpenter , Quyen Dang Ha Vu , Thuy-Yen Duong , Mie Mie Kyaw , Chaiwut Grudpan , Van Ngo Thai Bich , Binh Thuy Dang
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These findings emphasize the need to monitor genetic diversity of key sedentary fishery species to assess whether proposed dams along the river could affect genetic diversity downstream. This genetic diversity is particularly important for the resilience of downstream populations because of the many environmental impacts caused by dams, land use, and climate change. 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引用次数: 0
摘要
斑棘鳗(Macrognathus siamensis)是湄公河流域一种具有重要经济价值的淡水鱼,由于人类活动的影响,湄公河流域的生物多样性正在发生巨大变化。该物种为非迁徙性鱼类,幼体持续时间适中,有利于下游遗传连接。与限制位点相关的 DNA 序列数据集包括来自所有地理位点的 3736 个和 1244 个单核苷酸多态性,这些数据集代表了假定的中性位点,但不包括 Tachileik 位点。这种结构反映了支流种群的隔离,以及这些不同种群向下游扩散,在湄公河干流混合的情况,并导致湄公河流域下游遗传多样性的增加。遗传数据表明,卵和幼虫向下游的扩散没有受到科纳瀑布的阻碍,而瀑布则阻止了卵和幼虫向上游的扩散。尽管存在下游连通性,但在科纳瀑布以上和以下的群体之间存在着很强的种群结构。对可能处于选择过程中的离群位点的分析表明,瀑布上下相连的元种群之间的差异是由于环境制度的根本不同造成的。我们推测,瀑布并不是一个物理屏障,它只是代表了以前公认的上游有限洪泛平原环境与下游广阔洪泛平原环境之间的分界线。这些发现强调了监测主要定居渔业物种遗传多样性的必要性,以评估沿河拟建大坝是否会影响下游的遗传多样性。由于大坝、土地利用和气候变化造成的诸多环境影响,遗传多样性对下游种群的恢复能力尤为重要。及早发现下游遗传多样性的减少,可以启动补救计划,确保重要的非洄游鱼类资源的恢复能力和持续的渔业生产力。
Population genetics of Macrognathus siamenis (Synbranchiformes: Mastacembelidae): Implications for non-migratory fishery resources in the Mekong River basin
The spotted spiny eel, Macrognathus siamensis is an economically important freshwater fish in the Mekong River basin, which is undergoing dramatic biodiversity changes due to anthropogenic impacts. The species is non-migratory, with a moderate larval duration that facilitates downstream genetic connectivity. Restriction site-associated DNA sequence datasets that includes 3736 and 1244 single nucleotide polymorphisms representing putatively neutral loci, from all geographic sites and without the Tachileik site, indicate strong population structure in this sedentary fish, with a significant isolation-by-distance signature. This structure reflects isolation of tributary populations and downstream dispersal of these distinct populations to mix in the Mekong mainstem and contributes to increased genetic diversity in the lower reaches of the Mekong basin. Genetic data indicates that the dispersal of eggs and larvae downstream is not impeded by Khone Falls and that the falls prevent upstream dispersal of eggs and larvae. Despite this downstream connectivity, there is a strong population structure among above- and below-Khone Falls groups. An analysis of outlier loci putatively under selection provides evidence that the difference between connected metapopulations above and below the falls is due to the fundamental differences in environmental regimes. We hypothesize that instead of a physical barrier, the falls simply represents a demarcation between previously recognized upstream limited-floodplain environments and downstream extensive-floodplain environments. These findings emphasize the need to monitor genetic diversity of key sedentary fishery species to assess whether proposed dams along the river could affect genetic diversity downstream. This genetic diversity is particularly important for the resilience of downstream populations because of the many environmental impacts caused by dams, land use, and climate change. Early detection of reduced downstream genetic diversity could trigger remediation programs to ensure resilience and continued fisheries productivity of important non-migratory fish resources.
期刊介绍:
This journal provides an international forum for the publication of papers in the areas of fisheries science, fishing technology, fisheries management and relevant socio-economics. The scope covers fisheries in salt, brackish and freshwater systems, and all aspects of associated ecology, environmental aspects of fisheries, and economics. Both theoretical and practical papers are acceptable, including laboratory and field experimental studies relevant to fisheries. Papers on the conservation of exploitable living resources are welcome. Review and Viewpoint articles are also published. As the specified areas inevitably impinge on and interrelate with each other, the approach of the journal is multidisciplinary, and authors are encouraged to emphasise the relevance of their own work to that of other disciplines. The journal is intended for fisheries scientists, biological oceanographers, gear technologists, economists, managers, administrators, policy makers and legislators.