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The Direct Radiative Effect of CO2 Increase on Summer Precipitation in North America
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  • Wengui Liang,
  • Ming Zhao,
  • Zhihong Tan,
  • Thomas R. Knutson,
  • Wenhao Dong,
  • Bosong Zhang
Wengui Liang
Princeton University

Corresponding Author:wengui.liang@princeton.edu

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Ming Zhao
GFDL/NOAA
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Zhihong Tan
Princeton University
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Thomas R. Knutson
Geophysical Fluid Dynamics Laboratory
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Wenhao Dong
NOAA/Geophysical Fluid Dynamics Laboratory
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Bosong Zhang
Princeton University
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Abstract

Precipitation changes under global warming are widely studied. However, the direct radiative effect of CO2 on precipitation changes, independent from CO2-induced SST changes, has received less attention. Mechanistic understanding of the CO2 direct effect is therefore important and necessary. Utilizing multiple global atmospheric models, we identify robust summer precipitation changes across North America in response to the direct CO2 forcing. We find that spatial distribution of CO2 forcing at land surface is primarily shaped by climatological distribution of water vapor and clouds. This, coupled with changes in convection and moisture supply resulting from CO2-induced circulation changes, largely determines North America hydroclimate changes. In central North America, increasing CO2 decreases summertime precipitation by warming the surface and inducing dry advection into the region to reduce moisture supply. Meanwhile, for the southwest and the east, CO2-induced northward shift of subtropical highs generates wet advections to mitigate the drying effect from surface warming.