Publication Abstracts

Kok et al. 2017

Kok, J.F., D.A. Ridley, Q. Zhou, R.L. Miller, C. Zhao, C.L. Heald, D.S. Ward, S. Albani, and K. Haustein, 2017: Smaller desert dust cooling effect estimated from analysis of dust size and abundance. Nature Geosci., 10, no. 4, 274-278, doi:10.1038/ngeo2912.

Desert dust aerosols affect Earth's global energy balance through direct interactions with radiation, and through indirect interactions with clouds and ecosystems. But the magnitudes of these effects are so uncertain that it remains unclear whether atmospheric dust has a net warming or cooling effect on global climate. Consequently, it is still uncertain whether large changes in atmospheric dust loading over the past century have slowed or accelerated anthropogenic climate change, or what the effects of potential future changes in dust loading will be. Here we present an analysis of the size and abundance of dust aerosols to constrain the direct radiative effect of dust. Using observational data on dust abundance, in situ measurements of dust optical properties and size distribution, and climate and atmospheric chemical transport model simulations of dust lifetime, we find that the dust found in the atmosphere is substantially coarser than represented in current global climate models. As coarse dust warms the climate, the global dust direct radiative effect is likely to be less cooling than the ∼ -0.4 W/m2 estimated by models in a current global aerosol model ensemble. Instead, we constrain the dust direct radiative effect to a range between -0.48 and +0.20 W/m2, which includes the possibility that dust causes a net warming of the planet.

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BibTeX Citation

@article{ko07500f,
  author={Kok, J. F. and Ridley, D. A. and Zhou, Q. and Miller, R. L. and Zhao, C. and Heald, C. L. and Ward, D. S. and Albani, S. and Haustein, K.},
  title={Smaller desert dust cooling effect estimated from analysis of dust size and abundance},
  year={2017},
  journal={Nature Geosci.},
  volume={10},
  number={4},
  pages={274--278},
  doi={10.1038/ngeo2912},
}

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RIS Citation

TY  - JOUR
ID  - ko07500f
AU  - Kok, J. F.
AU  - Ridley, D. A.
AU  - Zhou, Q.
AU  - Miller, R. L.
AU  - Zhao, C.
AU  - Heald, C. L.
AU  - Ward, D. S.
AU  - Albani, S.
AU  - Haustein, K.
PY  - 2017
TI  - Smaller desert dust cooling effect estimated from analysis of dust size and abundance
JA  - Nature Geosci.
VL  - 10
IS  - 4
SP  - 274
EP  - 278
DO  - 10.1038/ngeo2912
ER  -

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