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Tropical seagrass meadows modify seawater carbon chemistry: implications for coral reefs impacted by ocean acidification
Unsworth, R.K.F.; Collier, C.J.; Henderson, G.M.; McKenzie, L.J. (2012). Tropical seagrass meadows modify seawater carbon chemistry: implications for coral reefs impacted by ocean acidification. Environ. Res. Lett. 7(2): 024026. https://dx.doi.org/10.1088/1748-9326/7/2/024026
In: Environmental Research Letters. IOP Publishing: Bristol. ISSN 1748-9326; e-ISSN 1748-9326, more
Peer reviewed article  

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Keywords
    Climate change
    Resilience
    Seagrass
    Marine/Coastal
Author keywords
    carbonate chemistry, marine management, seagrass beds

Authors  Top 
  • Unsworth, R.K.F., more
  • Collier, C.J.
  • Henderson, G.M.
  • McKenzie, L.J.

Abstract

    Highly productive tropical seagrasses often live adjacent to or among coral reefs and utilize large amounts of inorganic carbon. In this study, the effect of seagrass productivity on seawater carbonate chemistry and coral calcification was modelled on the basis of an analysis of published data.

    Published data (11 studies, 64 records) reveal that seagrass meadows in the Indo-Pacific have an 83% chance of being net autotrophic, resulting in an average net sink of 155 gC m−2 yr−1. The capacities for seagrass productivity were analysed using an empirical model to examine the effect on seawater carbonate chemistry. Our analyses indicate that increases in pH of up to 0.38 units, and Ωarag increases of 2.9 are possible in the presence of seagrass meadows (compared to their absence) with the precise values of these increases dependent on water residence time (tidal flushing) and water depth. In shallow water reef environments, Scleractinian coral calcification downstream of seagrass has the potential to be ≈18% greater than in an environment without seagrass. If this potential benefit to reef calcifiers is supported by further study it offers a potential tool in marine park management at a local scale. The applicability of this will depend upon local physical conditions as well as the spatial configuration of habitats, and the factors that influence their productivity. This novel study suggests that, in addition to their importance to fisheries, sediment stabilization and primary production, seagrass meadows may enhance coral reef resilience to future ocean acidification.


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