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通过预后霰参数化模拟的温暖气候中霰和闪电发生率显著增加。

Significant increase in graupel and lightning occurrence in a warmer climate simulated by prognostic graupel parameterization.

作者信息

Michibata Takuro

机构信息

Department of Earth Science, Okayama University, Okayama, Japan.

出版信息

Sci Rep. 2024 Feb 16;14(1):3862. doi: 10.1038/s41598-024-54544-5.

Abstract

There is little consensus among global climate models (CGMs) regarding the response of lightning flash rates to past and future climate change, largely due to graupel not being included in models. Here a two-moment prognostic graupel scheme was incorporated into the MIROC6 GCM and applied in three experiments involving pre-industrial aerosol, present-day, and future warming simulations. The new microphysics scheme performed well in reproducing global distributions of graupel, convective available potential energy, and lightning flash rate against satellite retrievals and reanalysis datasets. The global mean lightning rate increased by 7.1% from the pre-industrial period to the present day, which was attributed to increased graupel occurrence. The impact of future warming on lightning activity was more evident, with the rate increasing by 18.4[Formula: see text] through synergistic contributions of destabilization and increased graupel. In the Arctic, the lightning rate depends strongly on the seasonality of graupel, emphasizing the need to incorporate graupel into GCMs for more accurate climate prediction.

摘要

全球气候模型(CGMs)对于闪电发生率对过去和未来气候变化的响应几乎没有达成共识,这主要是因为霰没有被纳入模型中。在此,一个双矩霰预报方案被纳入MIROC6全球气候模型,并应用于涉及工业化前气溶胶、当前和未来变暖模拟的三个实验中。新的微物理方案在根据卫星反演和再分析数据集再现霰的全球分布、对流有效位能和闪电发生率方面表现良好。从工业化前时期到现在,全球平均闪电发生率增加了7.1%,这归因于霰出现频率的增加。未来变暖对闪电活动的影响更为明显,由于不稳定和霰增加的协同作用,发生率增加了18.4[公式:见正文]。在北极地区,闪电发生率强烈依赖于霰的季节性,这强调了将霰纳入全球气候模型以进行更准确气候预测的必要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3657/10873401/bb138e7fdd19/41598_2024_54544_Fig1_HTML.jpg

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