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Interdependency of tropical marine ecosystems in response to climate change
Saunders, M.I.; Leon, J.X.; Callaghan, D.P.; Roelfsema, C.M.; Hamylton, S.; Brown, C.J.; Baldock, T.; Golshani, A.; Phinn, S.R.; Lovelock, C.E.; Hoegh-Guldberg, O.; Woodroffe, C.D.; Mumby, P.J. (2014). Interdependency of tropical marine ecosystems in response to climate change. Nat. Clim. Chang. 4(8): 724-729. http://dx.doi.org/10.1038/nclimate2274
In: Nature Climate Change. Nature Publishing Group: London. ISSN 1758-678X; e-ISSN 1758-6798, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • Saunders, M.I.
  • Leon, J.X.
  • Callaghan, D.P.
  • Roelfsema, C.M.
  • Hamylton, S.
  • Brown, C.J.
  • Baldock, T.
  • Golshani, A.
  • Phinn, S.R.
  • Lovelock, C.E., more
  • Hoegh-Guldberg, O.
  • Woodroffe, C.D.
  • Mumby, P.J.

Abstract
    Ecosystems are linked within landscapes by the physical and biological processes they mediate. In such connected landscapes, the response of one ecosystem to climate change could have profound consequences for neighbouring systems. Here, we report the first quantitative predictions of interdependencies between ecosystems in response to climate change. In shallow tropical marine ecosystems, coral reefs shelter lagoons from incoming waves, allowing seagrass meadows to thrive. Deepening water over coral reefs from sea-level rise results in larger, more energetic waves traversing the reef into the lagoon, potentially generating hostile conditions for seagrass. However, growth of coral reef such that the relative water depth is maintained could mitigate negative effects of sea-level rise on seagrass. Parameterizing physical and biological models for Lizard Island, Great Barrier Reef, Australia, we find negative effects of sea-level rise on seagrass before the middle of this century given reasonable rates of reef growth. Rates of vertical carbonate accretion typical of modern reef flats (up to 3 mm yr-1) will probably be insufficient to maintain suitable conditions for reef lagoon seagrass under moderate to high greenhouse gas emissions scenarios by 2100. Accounting for interdependencies in ecosystem responses to climate change is challenging, but failure to do so results in inaccurate predictions of habitat extent in the future.

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