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Coralline algae as a globally significant pool of marine dimethylated sulfur
Burdett, H.L.; Hatton, A.D.; Kamenos, N.A. (2015). Coralline algae as a globally significant pool of marine dimethylated sulfur. Global Biogeochem. Cycles 29(10): 1845-1853. https://dx.doi.org/10.1002/2015GB005274
In: Global Biogeochemical Cycles. American Geophysical Union: Washington, DC. ISSN 0886-6236; e-ISSN 1944-9224, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoorden
    Climate Change
    Environmental Managers & Monitoring
    Marine Sciences > Oceanography
    Scientific Community
    Scientific Publication
    Marien/Kust

Project Top | Auteurs 
  • Association of European marine biological laboratories, meer

Auteurs  Top 
  • Burdett, H.L.
  • Hatton, A.D.
  • Kamenos, N.A.

Abstract
    Marine algae are key sources of the biogenic sulfur compound dimethylsulphoniopropionate (DMSP), a vital component of the marine sulfur cycle. Autotrophic ecosystem engineers such as red coralline algae support highly diverse and biogeochemically active ecosystems and are known to be high DMSP producers, but their importance in the global marine sulfur cycle has not yet been appreciated. Using a global sampling approach, we show that red coralline algae are a globally significant pool of DMSP in the oceans, estimated to be ~110 × 1012 moles worldwide during the summer months. Latitude was a major driver of observed regional-scale variations, with peaks in polar and tropical climate regimes, reflecting the varied cellular functions for DMSP (e.g., as a cryoprotectant and antioxidant). A temperate coralline algal bed was investigated in more detail to also identify local-scale temporal variations. Here, water column DMSP was driven by water temperature, and to a lesser extent, cloud cover; two factors which are also vital in controlling coralline algal growth. This study demonstrates that coralline algae harbor a large pool of dimethylated sulfur, thereby playing a significant role in both the sulfur and carbon marine biogeochemical cycles. However, coralline algal habitats are severely threatened by projected climate change; a loss of this habitat may thus detrimentally impact oceanic sulfur and carbon biogeochemical cycling.

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