Sustainable hydropower in the 21st century

Hydropower has been the leading source of renewable energy across the world, accounting for up to 71% of this supply as of 2016. This capacity was built up in North America and Europe between 1920 and 1970 when thousands of dams were built. Big dams stopped being built in developed nations, because...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 115; no. 47; pp. 11891 - 11898
Main Authors Moran, Emilio F., Lopez, Maria Claudia, Moore, Nathan, Müller, Norbert, Hyndman, David W.
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 20.11.2018
SeriesInaugural Article
Subjects
Agricultural economics
Alternative energy
Biodiversity
Climate change
Dam construction
Dams
Deforestation
Developed countries
Developing countries
Environmental impact
Environmental protection
Food quality
Greenhouse effect
Greenhouse gases
Hydroelectric dams
Hydroelectric power
INAUGURAL ARTICLE
LDCs
Renewable energy sources
River basins
River ecology
Rivers
Social Sciences
Sustainability
Sustainable practices
Water quality
North America
Europe
hydropower dams
Amazon
social and environmental impacts
sustainability
energy
Online AccessGet full text
ISSN0027-8424
1091-6490
1091-6490
DOI10.1073/pnas.1809426115

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Summary:Hydropower has been the leading source of renewable energy across the world, accounting for up to 71% of this supply as of 2016. This capacity was built up in North America and Europe between 1920 and 1970 when thousands of dams were built. Big dams stopped being built in developed nations, because the best sites for dams were already developed and environmental and social concerns made the costs unacceptable. Nowadays, more dams are being removed in North America and Europe than are being built. The hydropower industry moved to building dams in the developing world and since the 1970s, began to build even larger hydropower dams along the Mekong River Basin, the Amazon River Basin, and the Congo River Basin. The same problems are being repeated: disrupting river ecology, deforestation, losing aquatic and terrestrial biodiversity, releasing substantial greenhouse gases, displacing thousands of people, and altering people’s livelihoods plus affecting the food systems, water quality, and agriculture near them. This paper studies the proliferation of large dams in developing countries and the importance of incorporating climate change into considerations of whether to build a dam along with some of the governance and compensation challenges. We also examine the overestimation of benefits and underestimation of costs along with changes that are needed to address the legitimate social and environmental concerns of people living in areas where dams are planned. Finally, we propose innovative solutions that can move hydropower toward sustainable practices together with solar, wind, and other renewable sources.
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Reviewers: C.A.N., Institute for Advanced Studies–University of São Paulo; and N.J.S., University of Florida.
Author contributions: E.F.M., M.C.L., N. Moore, N. Müller, and D.W.H. designed research; N. Moore prepared the SI Appendix; and E.F.M., M.C.L., N. Moore, N. Müller, and D.W.H. wrote the paper.
This contribution is part of the special series of Inaugural Articles by members of the National Academy of Sciences elected in 2010.
Contributed by Emilio F. Moran, September 25, 2018 (sent for review July 27, 2018; reviewed by Carlos A. Nobre and Nigel John Smith)
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1809426115