Hydropower and environmental sustainability: A holistic assessment using multiple biophysical indicators

•An environmental sustainability assessment of hydropower is conducted.•8 biophysical indicators are addressed.•Two different hydropower plant schemes are analysed and compared.•Environmental sustainability analysis is better for run-of-river with regard to the dam scheme.•Biophysical boundaries are...

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Bibliographic Details
Published in:Ecological indicators 2021-08, Vol.127, p.107748, Article 107748
Main Authors: Briones-Hidrovo, Andrei, Uche, Javier, Martínez-Gracia, Amaya
Format: Article
Language:English
Subjects:
Biophysical assessment
Environmental sustainability
Hydropower
Indicators
Low-carbon combustion-free energy
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Summary:•An environmental sustainability assessment of hydropower is conducted.•8 biophysical indicators are addressed.•Two different hydropower plant schemes are analysed and compared.•Environmental sustainability analysis is better for run-of-river with regard to the dam scheme.•Biophysical boundaries are brought into the environmental sustainability analysis. Along with other low-carbon combustion-free energy sources, hydropower is considered a valuable tool for mitigating the current climate and ecological crisis and achieve environmental sustainability. However, it is still unclear to what extent hydropower is or not environmentally sustainable. The literature reveals i) that no truly holistic assessments have been carried out and ii) that there are contradictory results and conclusions. The present study addresses this gap by conducting a holistic assessment, using eight biophysical indicators of different approaches, and taking two different hydropower plant schemes as study cases. The results of the assessment show that the run-of-river hydropower plant study case is by far more environmentally sustainable than the dam hydropower plant scheme. As hydropower schemes and sizes vary, it is highlighted the importance of including as many indicators as possible to ensure broader and complete assessments and the avoidance of bias in the conclusions and ease comparison with other low-carbon combustion-free energy sources and their technologies. Moreover, the present study addresses how and within which parameters the environmental sustainability of hydropower is usually determined. The complementary set of indicators provided here, which have different scope and complexity, could be adopted for improving future decision-making in energy policies and specifically for hydropower.
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2021.107748