1. Competition between marine mammals and fisheries in contemporary harvested marine ecosystems
- Author
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Dunja Jusufovski, Anna Kuparinen, Camilo Saavedra, Helsinki Institute of Sustainability Science (HELSUS), Organismal and Evolutionary Biology Research Programme, Ecosystems and Environment Research Programme, and Doctoral Programme in Interdisciplinary Environmental Sciences
- Subjects
0106 biological sciences ,prey-predator dynamics ,media_common.quotation_subject ,Fisheries ,merikalastus ,Fisheries-induced ,Aquatic Science ,Ecosystem-based management ,Resource competition ,010603 evolutionary biology ,01 natural sciences ,Competition (biology) ,models ,Prey−predator dynamics ,Centro Oceanográfico de Vigo ,kalakantojen hoito ,petoeläimet ,resource management ,Marine ecosystem ,Pinniped ,14. Life underwater ,Medio Marino ,marine mammals ,Ecology, Evolution, Behavior and Systematics ,media_common ,valaat ,fish ,hylkeet ,Ecology ,kalakannat ,010604 marine biology & hydrobiology ,vesiekosysteemit ,Cetacean ,Fishery ,kalatalous ,Geography ,13. Climate action ,kalavarat ,1181 Ecology, evolutionary biology ,competition - Abstract
Competitive interactions between marine mammals and fisheries represent some of the most complex challenges in marine resource management worldwide. The development of commercial fisheries and recovering marine mammal populations have contributed to a decrease in fish availability. Whilst ecosystem-based fisheries management (EBFM) can counteract this decrease, achieving the EBFM objectives faces certain major obstacles including insufficient or unreliable data, inapplicable assessment models, as well as inadequate management decisions that do not account for fisheries-induced morphological alterations (FIMA) and marine mammal management. Despite a body of evidence addressing various aspects of marine mammal−fisheries competition, little is known about the effects of marine mammal−fisheries biological interactions affecting the fish viability and food web stability. We review the research on marine mammal− fisheries competitive biological interactions (hereafter biological competition) by focussing on (1) the prerequisites for marine mammal−fisheries biological competition and the relevant metho - dologies to explore them and (2) recent studies revealing the implications of FIMA and trophic interactions for the biological competition. We also discuss the implications of FIMA, eco-evolu- tionary feedback and prey−predator dynamics for EBFM implementation in contemporary har- vested ecosystems. Our main findings reveal a lack of data about marine mammals’ prey choice and selectivity, the need for better representation of marine mammals in modelling approaches and lastly, the necessity for additional research linking FIMA, trophic interactions and the EBFM objectives. To conclude, interdisciplinary approaches may serve to link all of the efforts needed to effectively and holistically support the implementation of EBFM., SI
- Published
- 2019
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