Unaccounted CO₂ leaks downstream of a large tropical hydroelectric reservoir

Recent studies show that tropical hydroelectric reservoirs may be responsible for substantial greenhouse gas emissions to the atmosphere, yet emissions from the surface of released water downstream of the dam are poorly characterized if not neglected entirely from most assessments. We found that car...

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Published in:Proceedings of the National Academy of Sciences - PNAS 2021-06, Vol.118 (25), p.1-8
Main Authors: Calamita, Elisa, Siviglia, Annunziato, Gettel, Gretchen M., Franca, Mário J., Winton, R. Scott, Teodoru, Cristian R., Schmid, Martin, Wehrli, Bernhard
Format: Article
Language:English
Subjects:
Carbon cycle
Carbon dioxide
Carbon dioxide emissions
Dams
Downstream
Electric power demand
Emission analysis
Emissions
Greenhouse gases
Physical Sciences
Reservoirs
Seasonal variations
Stratification
Water stratification
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container_issue 25
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container_title Proceedings of the National Academy of Sciences - PNAS
container_volume 118
creator Calamita, Elisa
Siviglia, Annunziato
Gettel, Gretchen M.
Franca, Mário J.
Winton, R. Scott
Teodoru, Cristian R.
Schmid, Martin
Wehrli, Bernhard
description Recent studies show that tropical hydroelectric reservoirs may be responsible for substantial greenhouse gas emissions to the atmosphere, yet emissions from the surface of released water downstream of the dam are poorly characterized if not neglected entirely from most assessments. We found that carbon dioxide (CO₂) emission downstream of Kariba Dam (southern Africa) varied widely over different timescales and that accounting for downstream emissions and their fluctuations is critically important to the reservoir carbon budget. Seasonal variation was driven by reservoir stratification and the accumulation of CO₂ in hypolimnetic waters, while subdaily variation was driven by hydropeaking events caused by dam operation in response to daily electricity demand. This “carbopeaking” resulted in hourly variations of CO₂ emission up to 200% during stratification. Failing to account for seasonal or subdaily variations in downstream carbon emissions could lead to errors of up to 90% when estimating the reservoir’s annual emissions. These results demonstrate the critical need to include both limnological seasonality and dam operation at subdaily time steps in the assessment of carbon budgeting of reservoirs and carbon cycling along the aquatic continuum.
doi_str_mv 10.1073/pnas.2026004118
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subjects Carbon cycle
Carbon dioxide
Carbon dioxide emissions
Dams
Downstream
Electric power demand
Emission analysis
Emissions
Greenhouse gases
Physical Sciences
Reservoirs
Seasonal variations
Stratification
Water stratification
title Unaccounted CO₂ leaks downstream of a large tropical hydroelectric reservoir
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