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Climate change does not affect the seafood quality of a commonly targeted fish.
Coleman, Melinda A; Butcherine, Peter; Kelaher, Brendan P; Broadhurst, Matt K; March, Duane T; Provost, Euan J; David, Jamie; Benkendorff, Kirsten.
Afiliação
  • Coleman MA; NSW Department of Primary Industries, National Marine Science Centre, Coffs Harbour, New South Wales, Australia.
  • Butcherine P; National Marine Science Centre, Southern Cross University, Coffs Harbour, New South Wales, Australia.
  • Kelaher BP; Marine Ecology Research Centre, School of Environment, Science and Engineering, Southern Cross University, Lismore, New South Wales, Australia.
  • Broadhurst MK; National Marine Science Centre, Southern Cross University, Coffs Harbour, New South Wales, Australia.
  • March DT; Marine Ecology Research Centre, School of Environment, Science and Engineering, Southern Cross University, Lismore, New South Wales, Australia.
  • Provost EJ; NSW Department of Primary Industries, National Marine Science Centre, Coffs Harbour, New South Wales, Australia.
  • David J; National Marine Science Centre, Southern Cross University, Coffs Harbour, New South Wales, Australia.
  • Benkendorff K; National Marine Science Centre, Southern Cross University, Coffs Harbour, New South Wales, Australia.
Glob Chang Biol ; 25(2): 699-707, 2019 02.
Article em En | MEDLINE | ID: mdl-30414338
Climate change can affect marine and estuarine fish via alterations to their distributions, abundances, sizes, physiology and ecological interactions, threatening the provision of ecosystem goods and services. While we have an emerging understanding of such ecological impacts to fish, we know little about the potential influence of climate change on the provision of nutritional seafood to sustain human populations. In particular, the quantity, quality and/or taste of seafood may be altered by future environmental changes with implications for the economic viability of fisheries. In an orthogonal mesocosm experiment, we tested the influence of near-future ocean warming and acidification on the growth, health and seafood quality of a recreationally and commercially important fish, yellowfin bream (Acanthopagrus australis). The growth of yellowfin bream significantly increased under near-future temperature conditions (but not acidification), with little change in health (blood glucose and haematocrit) or tissue biochemistry and nutritional properties (fatty acids, lipids, macro- and micronutrients, moisture, ash and total N). Yellowfin bream appear to be highly resilient to predicted near-future ocean climate change, which might be facilitated by their wide spatio-temporal distribution across habitats and broad diet. Moreover, an increase in growth, but little change in tissue quality, suggests that near-future ocean conditions will benefit fisheries and fishers that target yellowfin bream. The data reiterate the inherent resilience of yellowfin bream as an evolutionary consequence of their euryhaline status in often environmentally challenging habitats and imply their sustainable and viable fisheries into the future. We contend that widely distributed species that span large geographic areas and habitats can be "climate winners" by being resilient to the negative direct impacts of near-future oceanic and estuarine climate change.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Limite: Animals País/Região como assunto: Oceania Idioma: En Ano de publicação: 2019 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Limite: Animals País/Região como assunto: Oceania Idioma: En Ano de publicação: 2019 Tipo de documento: Article