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ENERGIX-Stort program energi

Adapting hydropower to future climate extremes

Alternative title: Tilpasning av vannkraft til framtidens klimaekstremer

Awarded: NOK 7.6 mill.

Precipitation and temperature will change in future climates, presenting new challenges and opportunities for Norwegian hydropower. We anticipate an increase in the frequency, duration, and severity of extreme events such as floods, droughts, and high water temperatures. The research project ReAdapt aims to study how we can adapt the hydropower system to a new climate focusing on extreme events. The goal is to maintain or increase hydropower production while preserving biodiversity in well-functioning ecosystems. Freshwater ecosystems are adapted to historical climate conditions. Hydropower has a recognised impact on freshwater ecosystems, but we have good knowledge of both the effects and mitigation measures. Increased frequency and severity of extreme events may worsen the conditions, but river regulation also provides an opportunity to offset negative climate changes. ReAdapt will employ ten different scenarios for how climate and extreme events may develop. Hydrological models will be used to calculate inflow, discharge, and water temperature. Power system models will then be used to determine future energy production, electricity prices, and operation of reservoirs and power plants. We are focusing on salmon in ReAdapt because it responds relatively quickly to changes in physical conditions. There is a lot of relevant knowledge about how salmon reacts to various climatic conditions, which we will use in combination with experimental studies at the NINA research station in Ims. There, we will observe how salmon responds to different flow and water temperature conditions, which will, in turn, be used in models for salmon growth and development. Together with models for climate, hydrology, and power production, we can predict how extreme climate events affect salmon and, furthermore, how we can adapt hydropower and implement mitigating measures to ensure both power production and salmon survival in the future climate.

ReAdapt will generate research-based knowledge about how hydropower can optimize and re-adapt sustainable operations in future climates. The focus will be on extreme events, and how they can be accommodated with strategic investments and measures, to minimize uncertainty, and maintain or increase hydropower production. At the same time, we will investigate impacts to ensure a well-functioning aquatic ecosystem by adapting hydropower operations and suggest mitigation measures for the key species Atlantic salmon. ReAdapt will identify a set of compound scenarios combining multiple climate pressures and other stressors that pose risks to hydropower production and the ecosystem. By the use of hydrological modelling and ten downscaled and bias-corrected climate scenarios for emission scenarios RCP4.5 and RCP8.5, we will characterize extreme events of flow and water temperature for the scenarios. We will then use power system models to analyse how these scenarios will impact total power system costs, electricity prices, energy production, reservoir management and environmental flow releases at national and local scales. Atlantic salmon is an ideal model organism to study ecological effects of extreme climate events because it is a key indicator species used to assess ecological conditions in rivers. We will analyse historical data to understand how extreme episodes have affected salmon. By using a combined experimental, and genetical approach, we will test ecological impacts of projected extreme water temperatures and flow conditions at NINA’s Research Station Ims. Results from future scenarios on hydrology and power system models will feed into a mechanistic individual-based model, to simulate salmonid response to impacts of extreme events. Finally, we will show how extreme events impact the ability for hydropower plants to comply with revised terms of licenses, total power system costs, and energy production while maintaining sustainable ecosystems.

Funding scheme:

ENERGIX-Stort program energi

Thematic Areas and Topics

Miljøvennlig energiFornybar energi, vannPortefølje Klima og miljøFNs BærekraftsmålMål 14 Liv under vannLTP3 Styrket konkurransekraft og innovasjonsevneFNs BærekraftsmålMål 9 Innovasjon og infrastrukturPolitikk- og forvaltningsområderMiljø, klima og naturforvaltningLTP3 Miljøvennlig energi og lavutslippsløsningerPortefølje ForskningssystemetPolitikk- og forvaltningsområderEnergi - Politikk og forvaltningDigitalisering og bruk av IKTPortefølje Banebrytende forskningPortefølje Muliggjørende teknologierIKT forskningsområdeAnvendt forskningKlimaKlimaeffekter og klimatilpasningerBransjer og næringerMiljøvennlig energiNaturmangfold og miljøMarint naturmangfold, økosystemer og økosystemtjenesterLTP3 Marine bioressurser og havforvaltningLTP3 Høy kvalitet og tilgjengelighetFNs BærekraftsmålMål 7 Ren energi for allePortefølje Energi og transportLTP3 Muliggjørende og industrielle teknologierBransjer og næringerEnergi - NæringsområdeNaturmangfoldGrunnforskningPolitikk- og forvaltningsområderFiskeri og kystMarinMarint naturmangfold, økosystemer og økosystemtjenesterMarinKlimarelevant forskningNaturmangfold og miljøLTP3 Klima, miljø og energiFNs BærekraftsmålLavutslippLTP3 IKT og digital transformasjonLTP3 Et kunnskapsintensivt næringsliv i hele landetPolitikk- og forvaltningsområderLTP3 Fagmiljøer og talenterDigitalisering og bruk av IKTPrivat sektorKlimaLTP3 Hav og kystLTP3 Klima, polar og miljøIKT forskningsområdeMenneske, samfunn og teknologiKutt i utslipp av klimagasser