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Effects of ship emissions on sulphur cycling and radiative climate forcing over the ocean

Author

Listed:
  • Kevin Capaldo

    (Carnegie Mellon University)

  • James J. Corbett

    (Carnegie Mellon University)

  • Prasad Kasibhatla

    (Nicholas School of the Enivronment, Duke University)

  • Paul Fischbeck

    (Carnegie Mellon University
    Carnegie Mellon University)

  • Spyros N. Pandis

    (Carnegie Mellon University
    Carnegie Mellon University)

Abstract

The atmosphere overlying the ocean is very sensitive—physically, chemically and climatically—to air pollution. Given that clouds over the ocean are of great climatic significance, and that sulphate aerosols seem to be an important control on marine cloud formation1, anthropogenic inputs of sulphate to the marine atmosphere could exert an important influence on climate. Recently, sulphur emissions from fossil fuel burning by international shipping have been geographically characterized2, indicating that ship sulphur emissions nearly equal the natural sulphur flux from ocean to atmosphere in many areas3. Here we use a global chemical transport model to show that these ship emissions can be a dominant contributor to atmospheric sulphur dioxide concentrations over much of the world's oceans and in several coastal regions. The ship emissions also contribute significantly to atmospheric non-seasalt sulphate concentrations over Northern Hemisphere ocean regions and parts of the Southern Pacific Ocean, and indirect radiative forcing due to ship-emitted particulate matter (sulphate plus organic material) is estimated to contribute a substantial fraction to the anthropogenic perturbation of the Earth's radiation budget. The quantification of emissions from international shipping forces a re-evaluation of our present understanding of sulphur cycling and radiative forcing over the ocean.

Suggested Citation

  • Kevin Capaldo & James J. Corbett & Prasad Kasibhatla & Paul Fischbeck & Spyros N. Pandis, 1999. "Effects of ship emissions on sulphur cycling and radiative climate forcing over the ocean," Nature, Nature, vol. 400(6746), pages 743-746, August.
    • Handle: RePEc:nat:nature:v:400:y:1999:i:6746:d:10.1038_23438
    DOI: 10.1038/23438
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    Cited by:

    1. Thomson, Heather & Corbett, James J. & Winebrake, James J., 2015. "Natural gas as a marine fuel," Energy Policy, Elsevier, vol. 87(C), pages 153-167.
    2. Morten Simonsen & Hans Jakob Walnum & Stefan Gössling, 2018. "Model for Estimation of Fuel Consumption of Cruise Ships," Energies, MDPI, vol. 11(5), pages 1-29, April.
    3. Shubin Bai & Yuanqiao Wen & Li He & Yiming Liu & Yan Zhang & Qi Yu & Weichun Ma, 2020. "Single-Vessel Plume Dispersion Simulation: Method and a Case Study Using CALPUFF in the Yantian Port Area, Shenzhen (China)," IJERPH, MDPI, vol. 17(21), pages 1-29, October.
    4. Matthias Karl & Liisa Pirjola & Ari Karppinen & Jukka-Pekka Jalkanen & Martin Otto Paul Ramacher & Jaakko Kukkonen, 2020. "Modeling of the Concentrations of Ultrafine Particles in the Plumes of Ships in the Vicinity of Major Harbors," IJERPH, MDPI, vol. 17(3), pages 1-24, January.
    5. Jinxi Zhou & Song Zhou & Yuanqing Zhu, 2017. "Characterization of Particle and Gaseous Emissions from Marine Diesel Engines with Different Fuels and Impact of After-Treatment Technology," Energies, MDPI, vol. 10(8), pages 1-14, July.
    6. Qinyu Cheng & Xiaotong Wang & Dongsheng Chen & Yizhe Ma & Ying Zhao & Jianghong Hao & Xiurui Guo & Jianlei Lang & Ying Zhou, 2023. "Impact of Ship Emissions on Air Quality in the Guangdong-Hong Kong-Macao Greater Bay Area (GBA): With a Particular Focus on the Role of Onshore Wind," Sustainability, MDPI, vol. 15(11), pages 1-23, May.
    7. Mark Delucchi & Don McCubbin, 2011. "External Costs of Transport in the United States," Chapters, in: André de Palma & Robin Lindsey & Emile Quinet & Roger Vickerman (ed.), A Handbook of Transport Economics, chapter 15, Edward Elgar Publishing.
    8. Park, Chybyung & Jeong, Byongug & Zhou, Peilin, 2022. "Lifecycle energy solution of the electric propulsion ship with Live-Life cycle assessment for clean maritime economy," Applied Energy, Elsevier, vol. 328(C).

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