Authors
Kirk O Winemiller, Pb B McIntyre, L Castello, E Fluet-Chouinard, T Giarrizzo, S Nam, IG Baird, W Darwall, NK Lujan, I Harrison, MLJ Stiassny, RAM Silvano, DB Fitzgerald, FM Pelicice, AA Agostinho, LC Gomes, JS Albert, E Baran, M Petrere Jr, C Zarfl, M Mulligan, JP Sullivan, CC Arantes, LM Sousa, AA Koning, DJ Hoeinghaus, M Sabaj, JG Lundberg, J Armbruster, ML Thieme, P Petry, J Zuanon, G Torrente Vilara, J Snoeks, C Ou, W Rainboth, CS Pavanelli, A Akama, A van Soesbergen, L Sáenz
Publication date
2016/1/8
Journal
Science
Volume
351
Issue
6269
Pages
128-129
Publisher
American Association for the Advancement of Science
Description
The world's most biodiverse river basins—the Amazon, Congo, and Mekong—are experiencing an unprecedented boom in construction of hydropower dams. These projects address important energy needs, but advocates often overestimate economic benefits and underestimate far-reaching effects on biodiversity and critically important fisheries. Powerful new analytical tools and high-resolution environmental data can clarify trade-offs between engineering and environmental goals and can enable governments and funding institutions to compare alternative sites for dam building. Current site-specific assessment protocols largely ignore cumulative impacts on hydrology and ecosystem services as ever more dams are constructed within a watershed . To achieve true sustainability, assessments of new projects must go beyond local impacts by accounting for synergies with existing dams, as well as land cover …
Scholar articles
KO Winemiller, PB McIntyre, L Castello… - Science, 2016