Biodiversidade em fuga: consequências evolutivas e socioeconómicas das alterações dos intervalos de distribuição geográfica em peixes marinhos comerciais | - CCMAR -

Biodiversidade em fuga: consequências evolutivas e socioeconómicas das alterações dos intervalos de distribuição geográfica em peixes marinhos comerciais

Acrónimo 
GenClim
Coordenação 
CCMAR
Coordenador 
Orçamento CCMAR 
6000.00k€
Financiamento 
FCT - Fundação para a Ciência e Tecnologia
Data 
04/2021 a 04/2024

Organiza

Descrição

What are the consequences of climate change for fisheries in the Eastern Atlantic?

Bio-economic modelling should support the necessary policy adjustments. Climate change and increases in ocean temperatures are considered as some of the main drivers for fish migration to cooler areas. The GenClim project, which will be funded by the European Commission through the BiodivERsA program from 2021, will investigate the changes in fish populations and their genetic adaptation to the changing conditions in the Eastern Atlantic. The focus will be on the North Sea, the Iberian Coast and South Africa. Based on this data, forecasting models for fish stocks will be developed and the economic consequences modeled. The Center for Ocean and Society is responsible for the bio-economic modelling in the project. Other project partners are the Technical University of Denmark - National Institute of Aquatic Resources (project leader), Stellenbosch University (South Africa), Centre for Marine Sciences (CCMAR) (Portugal) and ISPA - Instituto Universitário de Ciências Psicológicas, Sociais e da Vida (Portugal).

Ongoing climate change is rapidly transforming marine ecosystems and communities throughout the world’s oceans. Increases in temperature are considered one of the main drivers of latitudinal distribution shifts in marine fishes, which are predicted to migrate towards cooler areas. These range shifts mean that commercially important species are likely to cross geo-political boundaries, increasing the likelihood of mismatches between current fishing practices (and policies) and future distributions. Forecasting models that predict range shifts are thus essential to anticipate and mitigate potential fisheries conflicts and the subsequent socio-economic impacts of a moving resource. Genomic data has the potential to increase the accuracy of forecasting models, by identifying locally adapted populations that might perform better/worse under certain climate scenarios.

 

Main objectives:

GenClim brings together state-of-the-art genomics, forecasting modelling and socio-economic modelling to disentangle the multiple consequences of range shifts of commercially exploited marine fishes.

  • Identify and assess the main genomic changes and the drivers of differentiation between core, leading and trailing edges of populations of range shifting species Merluccius merluccius, M. paradoxus and Engraulis encrasicolus.
  • Improve the ability to foresee future range shifts by including genomic information, and the likelihood of populations persisting, expanding or collapsing under a changing and variable climate.
  • Evaluate if the reliability of ecological forecasts depends on life-history features and evolutionary histories of species, or if they are primarily driven by region specific climatic variability.
  • Assess if the combination of genomic data and forecasting models can be used to anticipate socio-economic consequences of status-quo policies as well as of different management options, and thereby inform advice for relevant stakeholders, such as the International Council for Exploration of the Sea, the European Union, the Benguela Current Commission and national governments, to mitigate future conflicts arising from shifting resources.

 

Main activities:

GenClim conducts five major activities: sampling, acquiring and analysing genomic data, forecasting modelling, socio-economic modelling and disseminating activities. Sampling will be conducted between Portugal and Denmark in the north-eastern Atlantic, and Namibia and South Africa in the south-eastern Atlantic, targeting over 750 samples per species in each region. These samples will then be used to generate genomic datasets where GenClim will investigate population structure patterns and the presence of adaptive loci that might improve forecasting predictions regarding which populations are more likely to persist or collapse under different scenarios of climatic change. Finally, these forecasts will be used to run socio-economic modelling scenarios to understand which fisheries are more likely to thrive or disappear under different management regimes and climate scenarios.

Apart from academic dissemination activities, such as publishing papers and attending conferences, the outputs of GenClim will be of great importance for the development of future policies on fisheries under climate change. As such, engagement with stakeholders (Scientific Technical and Economic Committee for Fisheries (STECF) experts, Benguela Current Commission (BCC), national governments, fishery industry representatives and NGOs) will be conducted via yearly regional workshops and advisory reports. For example, GenClim will provide genomic metrics for the International Council for the Exploration of the Sea (ICES) Benchmarks and National Stock Assessments; while forecasting outputs target the ecosystem overview approach of ICES. A final synthesis report will seek to integrate advice from STEFC Experts and the Coordinating institution to be published and presented at the Annual Science Forum of the BCC.