Abstract
Hydropower reservoirs play an increasingly important role for the global electricity supply. Reservoirs are anthropogenically-dominated ecosystems because hydropower operations induce artificial water level fluctuations (WLF) that exceed natural fluctuations in frequency and amplitude. These WLF have detrimental ecological effects, which can be quantified as losses to ecosystem primary production due to lake bottoms that fall dry. To allow for a sustainable development of hydropower, these “ecological costs” of WLF need to be weighed against the “economic benefits” of hydropower that can balance and store intermittent renewable energy. We designed an economic hydropower operation model to derive WLF in large and small reservoirs for three different future energy market scenarios and quantified the according losses in ecosystem primary production in semi-natural outdoor experiments. Our results show that variations in market conditions affect WLF differently in small and large hydropower reservoirs and that increasing price volatility magnified WLF and reduced primary production. Our model allows an assessment of the trade-off between the objectives of preserving environmental resources and economic development, which lies at the core of emerging sustainability issues.
Highlights
Our results show that variations in market conditions affect water level fluctuations (WLF) differently in small and large hydropower reservoirs and that increasing price volatility magnified WLF and reduced primary production
We provide scenarios for how hydropower operation based on economic benchmarks alone affects the ecosystem function of reservoirs and discuss the results in light of progress towards attaining Sustainable Development Goals (SDGs) #7
Our results suggest that changing energy prices due to, e.g., the development of intermittent renewable energies (IRE) affect hydropower operations, WLF and, eventually, ecosystem function
Summary
Hydropower in the Context of the Sustainable Development Goals. The Sustainable Development Goals (SDGs) include a dedicated goal on energy. Hydropower plays an especially important role in this context because it is a renewable low-carbon source of energy. Using water as a resource, hydropower creates a water-energy-nexus. This nexus links the economic, the ecological and the social dimension and, all three pillars of sustainable development. This makes hydropower a important, and complex player in achieving SDG #7. From a scientific point of view, it is clear that researchers need to ‘craft usable knowledge’ about how the three pillars of sustainable development can efficiently converge towards achieving SDG #7 [2]
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