Cooperative Fish and Wildlife Research Units Program: New York
Education, Research and Technical Assistance for Managing Our Natural Resources

Hundreds of hydropower dams have been proposed throughout the Amazon basin, one of the world’s largest untapped hydropower frontiers. While hydropower is a potentially low emissions source of renewable energy, some hydropower projects produce high greenhouse gas (GHG) emissions per unit electricity generated (“carbon intensity”). We develop a basin-wide computational optimization framework to quantify the potential carbon intensities of 158 existing and 351 proposed hydropower dams in the Amazon basin. Results indicate carbon intensities of upland dams (median = 37 kg CO2eq MWh-1, 100-year horizon) may be comparable with solar and wind energy, whereas some lowland dams (median = 175 kg CO2eq MWh-1, 100-year horizon) may exceed carbon intensities of fossil-fuel power plants. Our analysis framework indicates that low-carbon expansion of hydropower may benefit from optimization-based planning, where basin-scale analysis that considers GHG emissions along with multiple social and ecological decision indicators associated with dams may advance sustainable energy development in regions where new hydropower is contemplated.