A scaling theory for the size distribution of emitted dust aerosols suggests climate models underestimate the size of the global dust cycle

Details A scaling theory for the size distribution of emitted dust aerosols suggests climate models underestimate the size of the global dust cycle A scaling theory for the size distribution of emitted dust aerosols suggests climate models underestimate the size of the global dust cycle

2010-12-28

arxiv.org/abs/1012.5818v2

Kok, J. F. (2011), A scaling theory for the size distribution of emitted dust aerosols suggests that climate models underestim

Physics

Atmospheric and Oceanic Physics

Published in Proceedings of the National Academy of Sciences (PNAS)

Scientific paper

10.1073/pnas.1014798108

Mineral dust aerosols impact Earth's radiation budget through interactions with clouds, ecosystems, and radiation, which constitutes a substantial uncertainty in understanding past and predicting future climate changes. One of the causes of this large uncertainty is that the size distribution of emitted dust aerosols is poorly understood. The present study shows that regional and global circulation models (GCMs) overestimate the emitted fraction of clay aerosols (< 2 {\mu}m diameter) by a factor of ~2 - 8 relative to measurements. This discrepancy is resolved by deriving a simple theoretical expression of the emitted dust size distribution that is in excellent agreement with measurements. This expression is based on the physics of the scale-invariant fragmentation of brittle materials, which is shown to be applicable to dust emission. Because clay aerosols produce a strong radiative cooling, the overestimation of the clay fraction causes GCMs to also overestimate the radiative cooling of a given quantity of emitted dust. On local and regional scales, this affects the magnitude and possibly the sign of the dust radiative forcing, with implications for numerical weather forecasting and regional climate predictions in dusty regions. On a global scale, the dust cycle in most GCMs is tuned to match radiative measurements, such that the overestimation of the radiative cooling of a given quantity of emitted dust has likely caused GCMs to underestimate the global dust emission rate. This implies that the deposition flux of dust and its fertilizing effects on ecosystems may be substantially larger than thought.

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