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Life stage-specific hydropeaking flow rules
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Orientador(es)
Resumo(s)
Peak-operating hydropower plants are usually the energy grid’s backbone by providing
flexible energy production. At the same time, hydropeaking operations are considered one of the
most adverse impacts on rivers, whereby aquatic organisms and their life-history stages can be
affected in many ways. Therefore, we propose specific seasonal regulations to protect ecologically
sensitive life cycle stages. By reviewing hydropeaking literature, we establish a framework for
hydrological mitigation based on life-history stages of salmonid fish and their relationship with key
parameters of the hydrograph. During migration and spawning, flows should be kept relatively
stable, and a flow cap should be implemented to prevent the dewatering of spawning grounds
during intragravel life stages. While eggs may be comparably tolerant to dewatering, post-hatch
stages are very vulnerable, which calls for minimizing or eliminating the duration of drawdown
situations and providing adequate minimum flows. Especially emerging fry are extremely sensitive
to flow fluctuations. As fish then grow in size, they become less vulnerable. Therefore, an ‘emergence
window’, where stringent thresholds on ramping rates are enforced, is proposed. Furthermore,
time of day, morphology, and temperature changes must be considered as they may interact with
hydropeaking. We conclude that the presented mitigation framework can aid the environmental
enhancement of hydropeaking rivers while maintaining flexible energy production
Descrição
Review
Palavras-chave
sustainable hydropower sub-daily flow fluctuations peak-load energy production pulsed flows environmental flows biologically sensitive periods salmonids Salmo salar Salmo trutta Thymallus thymallus
Contexto Educativo
Citação
Sustainability 2019, 11, 1547
Editora
MDPI