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Tipping point realized in cod fishery

Christian Möllmann, Xochitl Cormon, Steffen Funk, Saskia A. Otto, Jörn Schmidt, Heike Schwermer, Camilla Sguotti, R. Voss, Martin F. Quaas

2021Scientific Reports130 citationsDOIOpen Access PDF

Abstract

Understanding tipping point dynamics in harvested ecosystems is of crucial importance for sustainable resource management because ignoring their existence imperils social-ecological systems that depend on them. Fisheries collapses provide the best known examples for realizing tipping points with catastrophic ecological, economic and social consequences. However, present-day fisheries management systems still largely ignore the potential of their resources to exhibit such abrupt changes towards irreversible low productive states. Using a combination of statistical changepoint analysis and stochastic cusp modelling, here we show that Western Baltic cod is beyond such a tipping point caused by unsustainable exploitation levels that failed to account for changing environmental conditions. Furthermore, climate change stabilizes a novel and likely irreversible low productivity state of this fish stock that is not adapted to a fast warming environment. We hence argue that ignorance of non-linear resource dynamics has caused the demise of an economically and culturally important social-ecological system which calls for better adaptation of fisheries systems to climate change.

Topics & Concepts

Tipping point (physics)Climate changeRegime shiftFisheries managementEcosystemNatural resource economicsAlternative stable stateStock (firearms)ProductivityEnvironmental resource managementFisheryDemiseFish stockEcologyEnvironmental scienceEconomicsFish <Actinopterygii>GeographyFishingBiologyLawElectrical engineeringPolitical scienceEngineeringMacroeconomicsArchaeologyEcosystem dynamics and resilienceSustainability and Ecological Systems AnalysisEvolutionary Game Theory and Cooperation
Tipping point realized in cod fishery | Litcius