Atmospheric Chemistry and Physics (Feb 2022)

The contribution of coral-reef-derived dimethyl sulfide to aerosol burden over the Great Barrier Reef: a modelling study

  • S. L. Fiddes,
  • S. L. Fiddes,
  • S. L. Fiddes,
  • M. T. Woodhouse,
  • S. Utembe,
  • R. Schofield,
  • S. P. Alexander,
  • J. Alroe,
  • S. D. Chambers,
  • Z. Chen,
  • L. Cravigan,
  • E. Dunne,
  • R. S. Humphries,
  • G. Johnson,
  • M. D. Keywood,
  • T. P. Lane,
  • B. Miljevic,
  • Y. Omori,
  • Y. Omori,
  • A. Protat,
  • Z. Ristovski,
  • P. Selleck,
  • H. B. Swan,
  • H. Tanimoto,
  • J. P. Ward,
  • A. G. Williams

DOI
https://doi.org/10.5194/acp-22-2419-2022
Journal volume & issue
Vol. 22
pp. 2419 – 2445

Abstract

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Coral reefs have been found to produce the sulfur compound dimethyl sulfide (DMS), a climatically relevant aerosol precursor predominantly associated with phytoplankton. Until recently, the role of coral-reef-derived DMS within the climate system had not been quantified. A study preceding the present work found that DMS produced by corals had negligible long-term climatic forcing at the global–regional scale. However, at sub-daily timescales more typically associated with aerosol and cloud formation, the influence of coral-reef-derived DMS on local aerosol radiative effects remains unquantified. The Weather Research and Forecasting model coupled with Chemistry (WRF-Chem) has been used in this work to study the role of coral-reef-derived DMS at sub-daily timescales for the first time. WRF-Chem was run to coincide with an October 2016 field campaign over the Great Barrier Reef, Queensland, Australia, against which the model was evaluated. After updating and scaling the DMS surface water climatology, the model reproduced DMS and sulfur concentrations well. The inclusion of coral-reef-derived DMS resulted in no significant change in sulfate aerosol mass or total aerosol number. Subsequently, no direct or indirect aerosol effects were detected. The results suggest that the co-location of the Great Barrier Reef with significant anthropogenic aerosol sources along the Queensland coast prevents coral-reef-derived aerosol from having a modulating influence on local aerosol burdens in the current climate.