Widespread and strong impacts of river fragmentation by anthropogenic barriers on fishes in the Mekong River Basin
Jingrui Sun, Damiano Baldan, Martyn C. Lucas, Jie Wang, Amaia A. Rodeles, Shams M. Galib, Juan Tao, Mingbo Li, Daming He, Chengzhi Ding
Abstract
The Mekong River, a global freshwater biodiversity hotspot, has suffered from intensive barrier construction, resulting in major challenges in safeguarding its fauna. Here, we provide a comprehensive evaluation of the impacts of river barriers on the distribution of 952 fish species in the Mekong River Basin. Our analysis revealed that 93% of Mekong fish species analysed suffer from habitat fragmentation, and species with larger habitat range requirements experienced higher river fragmentation impacts. Sub-basins along the main channel in the Lower Mekong had high values of species richness but relatively high barrier impacts. Across all migration types, freshwater-resident migratory (potamodromous) fishes were affected by the greatest levels of habitat fragmentation (Fragmentation Index, 42.45 [95% confidence interval, 38.61–46.62]). Among all International Union for Conservation of Nature conservation status categories, Critically Endangered species experienced the highest habitat fragmentation index (34.48 [19.46–53.52]). Among all barrier types in the Mekong, small dams and sluice gates contributed more to habitat fragmentation than large dams. While the effects of existing individual large dams on habitat fragmentation and fish distribution in the Mekong Basin are greater than for small barriers, the cumulative impacts of small barriers are greater; hence, basin-wide connectivity planning is needed for more effective conservation. Fish species in the Mekong River experience strong habitat fragmentation due to human-built barriers, with small dams and sluice gates having the greatest impact, according to analyses of barrier and fish occurrence data from the Mekong River.