A Numerical Modeling Study on the Earth’s Surface Brightening Effect of Cirrus Thinning—Preprint

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https://www.preprints.org/manuscript/202312.0733/v1

Authors 

Xiangjun Shi

, 

Yuxin Liu

 , 

Jiaojiao Liu

Online: 11 December 2023

How to cite: Shi, X.; Liu, Y.; Liu, J. A Numerical Modeling Study on the Earth’s Surface Brightening Effect of Cirrus Thinning. Preprints 2023, 2023120733. https://doi.org/10.20944/preprints202312.0733.v1 Shi, X.; Liu, Y.; Liu, J. A Numerical Modeling Study on the Earth’s Surface Brightening Effect of Cirrus Thinning. Preprints 2023, 2023120733. https://doi.org/10.20944/preprints202312.0733.v1Copy

Abstract

Cirrus thinning, as one kind of geoengineering approach, not only cools our planet but also enhances the amount of sunlight reaching Earth's surface (brightening effect). This study delves into the brightening effect induced by cirrus thinning with a flexible seeding method. The thinning of only cirrus clouds results in a considerable globally averaged cooling effect (−2.46 W m−2), along with a notable globally averaged brightening effect (2.19 W m−2). Cirrus thinning also results in substantial reductions in the cloud radiative effects of the lower mixed-phase and liquid clouds. While these reductions counteract the cooling effect from cirrus clouds, they enhance the brightening effect from cirrus clouds. Consequently, the brightening effect caused by cirrus seeding (4.69 W m−2) is considerably more potent than its cooling effect (−1.21 W m−2). Furthermore, due to the more pronounced changes from the mixed-phase and liquid clouds at low- and mid-latitudes, the cooling effect is primarily concentrated at high latitudes. In contrast, the brightening effect is significantly stronger over most low- and mid-latitude regions. Overall, cirrus thinning could lead to a notable brightening effect, which can be leveraged to offset the dimming effect (the opposite of brightening effect) of other geoengineering approaches.

Source: Preprints.org