Pathways to sustaining tuna-dependent Pacific Island economies during climate change

Pathways to sustaining tuna-dependent Pacific Island economies during climate change

Climate-driven redistribution of tuna threatens to disrupt the economies of Pacific Small Island Developing States (SIDS) and sustainable management of the world’s largest tuna fishery. Here we show that by 2050, under a high greenhouse gas emissions scenario (RCP 8.5), the total biomass of three tu...

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Bibliographic Details
Main Authors: Adams, T. (Author), Aumont, O. (Author), Bell, J.D (Author), Calmettes, B. (Author), Clark, S. (Author), Dessert, M. (Author), Gehlen, M. (Author), Gorgues, T. (Author), Gupta, A.S (Author), Hampton, J. (Author), Hanich, Q. (Author), Harden-Davies, H. (Author), Hare, S.R (Author), Holmes, G. (Author), Lehodey, P. (Author), Lengaigne, M. (Author), Mansfield, W. (Author), Menkes, C. (Author), Nicol, S. (Author), Ota, Y. (Author), Pasisi, C. (Author), Pilling, G. (Author), Reid, C. (Author), Ronneberg, E. (Author), Senina, I. (Author), Seto, K.L (Author), Smith, N. (Author), Taei, S. (Author), Tsamenyi, M. (Author), Williams, P. (Author)
Format: Article
Language:English
Published: Nature Research 2021
Subjects:
Climate change
Economics
Fish
Fisheries
Fisheries management
Gas emissions
Greenhouse gases
Lower emissions
Pacific islands
Purse seines
Small island developing state
Sustainable development
Sustainable management
Total biomass
Tuna fisheries
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