@article{
 title = {Functional significance of dinitrogen fixation in sustaining coral productivity under oligotrophic conditions},
 type = {article},
 year = {2015},
 identifiers = {[object Object]},
 keywords = {Diazotrophs,Hermatypic corals,Nitrogen fixation,Organic matter release,Photosynthesis,Symbiodinium},
 volume = {282},
 id = {d8f5931e-0695-35fd-a1b6-25d41d1a5f98},
 created = {2017-12-21T15:46:52.080Z},
 file_attached = {false},
 profile_id = {b14f101e-5638-3ed1-9452-cb3610dc9948},
 last_modified = {2017-12-21T15:46:52.080Z},
 read = {false},
 starred = {false},
 authored = {true},
 confirmed = {false},
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 abstract = {©2015 The Author(s). Functional traits define species by their ecological role in the ecosystem.Animals themselves are host–microbe ecosystems (holobionts), and the application of ecophysiological approaches can help to understand their functioning. In hard coral holobionts, communities of dinitrogen (N 2 )-fixing prokaryotes (diazotrophs) may contribute a functional trait by providing bioavailable nitrogen (N) that could sustain coral productivity under oligotrophic conditions. This study quantified N 2  fixation by diazotrophs associated with four genera of hermatypic corals on a northern Red Sea fringing reef exposed to high seasonality. We found N 2  fixation activity to be 5- to 10-fold higher in summer, when inorganic nutrient concentrations were lowest and water temperature and light availability highest. Concurrently, coral gross primary productivity remained stable despite lower Symbiodinium densities and tissue chlorophyll a contents. In contrast, chlorophyll a content per Symbiodinium cell increased from spring to summer, suggesting that algal cells overcame limitation of N, an essential element for chlorophyll synthesis. In fact,N 2 ixationwas positively correlated with coral productivity in summer, when its contribution was estimated to meet 11% of the Symbiodinium N requirements. These results provide evidence of an important functional role of diazotrophs in sustaining coral productivity when alternative external N sources are scarce.},
 bibtype = {article},
 author = {Cardini, U. and Bednarz, V.N. and Naumann, M.S. and van Hoytema, N. and Rix, L. and Foster, R.A. and Al-Rshaidat, M.M.D. and Wild, C.},
 journal = {Proceedings of the Royal Society B: Biological Sciences},
 number = {1818}
}

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Functional traits define species by their ecological role in the ecosystem.Animals themselves are host–microbe ecosystems (holobionts), and the application of ecophysiological approaches can help to understand their functioning. In hard coral holobionts, communities of dinitrogen (N 2 )-fixing prokaryotes (diazotrophs) may contribute a functional trait by providing bioavailable nitrogen (N) that could sustain coral productivity under oligotrophic conditions. This study quantified N 2 fixation by diazotrophs associated with four genera of hermatypic corals on a northern Red Sea fringing reef exposed to high seasonality. We found N 2 fixation activity to be 5- to 10-fold higher in summer, when inorganic nutrient concentrations were lowest and water temperature and light availability highest. Concurrently, coral gross primary productivity remained stable despite lower Symbiodinium densities and tissue chlorophyll a contents. In contrast, chlorophyll a content per Symbiodinium cell increased from spring to summer, suggesting that algal cells overcame limitation of N, an essential element for chlorophyll synthesis. In fact,N 2 ixationwas positively correlated with coral productivity in summer, when its contribution was estimated to meet 11% of the Symbiodinium N requirements. 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