Regeneration potential of the Baltic Sea inferred from historical records

Overfishing of large predatory fish populations has resulted in lasting restructurings of entire marine food webs worldwide, with potential immense socio-economic consequences. Fortunately, some degraded ecosystems have started to show signs of regeneration. A key challenge for resource management i...

Full description

Bibliographic Details
Main Authors:	Llope, M. (Marcos), Blenckner, T. (Thorsten), Möllmann, C. (Christian), Voss, R. (Rüdiger), Quaas, M.F. (Martin F.), Casini, M. (Michele), Lindegren, M. (Martin), Folke, C. (Carl), Stenseth, N.C. (Nils Christian)
Format:	Lecture
Language:	English
Published:	Centro Oceanográfico de Cádiz 2014
Subjects:	atlantic cod
Online Access:	http://hdl.handle.net/10508/2387

id	ftieo:oai:repositorio.ieo.es:10508/2387
record_format	openpolar
spelling	ftieo:oai:repositorio.ieo.es:10508/2387 2023-05-15T15:27:34+02:00 Regeneration potential of the Baltic Sea inferred from historical records Llope, M. (Marcos) Blenckner, T. (Thorsten) Möllmann, C. (Christian) Voss, R. (Rüdiger) Quaas, M.F. (Martin F.) Casini, M. (Michele) Lindegren, M. (Martin) Folke, C. (Carl) Stenseth, N.C. (Nils Christian) Baltic Sea 2014-02-13 http://hdl.handle.net/10508/2387 eng eng Centro Oceanográfico de Cádiz http://hdl.handle.net/10508/2387 openAccess lecture 2014 ftieo 2022-07-26T23:47:11Z Overfishing of large predatory fish populations has resulted in lasting restructurings of entire marine food webs worldwide, with potential immense socio-economic consequences. Fortunately, some degraded ecosystems have started to show signs of regeneration. A key challenge for resource management is to anticipate the degree to which regeneration is possible, given the multiple threats ecosystems face. Here, we show that under current hydroclimatic conditions, complete regeneration of a heavily altered ecosystem –the Baltic Sea as case study– would not be possible. Instead, as the ecosystem regenerates it moves towards a new ecological baseline. This new baseline is characterized by lower and more variable biomass of the commercially important Atlantic cod, even under very low exploitation rates. Consequently, societal costs increase due to higher risk premium caused by increased uncertainty in biomass and reduced consumer surplus. Specifically, the combined economic losses amount to about 120 million € per year, which equals half of today’s maximum economic yield for the Baltic cod fishery. Our analyses suggest that shifts in ecological and economic baselines, in combination with increased biomass variability, lead to higher economic uncertainty and costs for exploited ecosystems, in particular under climate change. Kiel Cluster of Excellence 'Future Ocean' Lecture atlantic cod Instituto Español de Oceanografía: e-IEO
institution	Open Polar
collection	Instituto Español de Oceanografía: e-IEO
op_collection_id	ftieo
language	English
description	Overfishing of large predatory fish populations has resulted in lasting restructurings of entire marine food webs worldwide, with potential immense socio-economic consequences. Fortunately, some degraded ecosystems have started to show signs of regeneration. A key challenge for resource management is to anticipate the degree to which regeneration is possible, given the multiple threats ecosystems face. Here, we show that under current hydroclimatic conditions, complete regeneration of a heavily altered ecosystem –the Baltic Sea as case study– would not be possible. Instead, as the ecosystem regenerates it moves towards a new ecological baseline. This new baseline is characterized by lower and more variable biomass of the commercially important Atlantic cod, even under very low exploitation rates. Consequently, societal costs increase due to higher risk premium caused by increased uncertainty in biomass and reduced consumer surplus. Specifically, the combined economic losses amount to about 120 million € per year, which equals half of today’s maximum economic yield for the Baltic cod fishery. Our analyses suggest that shifts in ecological and economic baselines, in combination with increased biomass variability, lead to higher economic uncertainty and costs for exploited ecosystems, in particular under climate change. Kiel Cluster of Excellence 'Future Ocean'
format	Lecture
author	Llope, M. (Marcos) Blenckner, T. (Thorsten) Möllmann, C. (Christian) Voss, R. (Rüdiger) Quaas, M.F. (Martin F.) Casini, M. (Michele) Lindegren, M. (Martin) Folke, C. (Carl) Stenseth, N.C. (Nils Christian)
spellingShingle	Llope, M. (Marcos) Blenckner, T. (Thorsten) Möllmann, C. (Christian) Voss, R. (Rüdiger) Quaas, M.F. (Martin F.) Casini, M. (Michele) Lindegren, M. (Martin) Folke, C. (Carl) Stenseth, N.C. (Nils Christian) Regeneration potential of the Baltic Sea inferred from historical records
author_facet	Llope, M. (Marcos) Blenckner, T. (Thorsten) Möllmann, C. (Christian) Voss, R. (Rüdiger) Quaas, M.F. (Martin F.) Casini, M. (Michele) Lindegren, M. (Martin) Folke, C. (Carl) Stenseth, N.C. (Nils Christian)
author_sort	Llope, M. (Marcos)
title	Regeneration potential of the Baltic Sea inferred from historical records
title_short	Regeneration potential of the Baltic Sea inferred from historical records
title_full	Regeneration potential of the Baltic Sea inferred from historical records
title_fullStr	Regeneration potential of the Baltic Sea inferred from historical records
title_full_unstemmed	Regeneration potential of the Baltic Sea inferred from historical records
title_sort	regeneration potential of the baltic sea inferred from historical records
publisher	Centro Oceanográfico de Cádiz
publishDate	2014
url	http://hdl.handle.net/10508/2387
op_coverage	Baltic Sea
genre	atlantic cod
genre_facet	atlantic cod
op_relation	http://hdl.handle.net/10508/2387
op_rights	openAccess
_version_	1766357983481036800

Regeneration potential of the Baltic Sea inferred from historical records

Similar Items