日本地球惑星科学連合2021年大会

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セッション記号 A (大気水圏科学) » A-AS 大気科学・気象学・大気環境

[A-AS05] 大気化学

2021年6月6日(日) 10:45 〜 12:15 Ch.08 (Zoom会場08)

コンビーナ:中山 智喜(長崎大学 大学院水産・環境科学総合研究科)、齋藤 尚子(千葉大学環境リモートセンシング研究センター)、豊田 栄(東京工業大学物質理工学院)、内田 里沙(一般財団法人 日本自動車研究所)、座長:竹川 暢之(東京都立大学 大学院理学研究科)

11:45 〜 12:00

[AAS05-10] Improved simulations of global black carbon distributions by modifying wet scavenging processes in convective and mixed-phase clouds

*Mingxu Liu1、Hitoshi Matsui1 (1.Graduate school of environmental studies, Nagoya University)

キーワード:Black carbon, Global climate model, Aerosol-cloud interactions, Deep convection, Mixed-phase clouds

In-cloud wet scavenging dominates the wet removal of aerosols in the atmosphere, but is not well represented in climate models. Aircraft measurements of black carbon (BC) concentrations suggest that models commonly overestimate BC concentrations in the upper troposphere of the tropics by more than one order of magnitude but underestimate BC burdens in polar latitudes. In this study, we improved the in-cloud wet scavenging parameterizations for convective clouds and mixed-phase clouds to better characterize BC abundances in the remote atmosphere (remote oceans and polar regions) with a global model, CAM5-ATRAS2. The modified wet scavenging processes in the model achieved a more realistic simulation of BC concentrations over both the tropics and the Arctic. The new, unified scheme for vertical transport and wet removal during deep convection generally reproduced the observed low mixing ratios (about 0.1 ng kg−1) of BC in the middle and upper troposphere over the tropics, and the Wegener–Bergeron–Findeisen process lowered the wet removal efficiency of BC from mixed-phase clouds and consequently increased BC burdens in the Arctic by about a factor of 2. The BC direct radiative forcings increased by 20% globally (from 0.26 to 0.31 W m−2), and more importantly by a factor of 2 in the Arctic (from 0.09 to 0.18 W m−2). Our results indicated that good agreement between modeled and observed BC concentrations could be obtained in the remote atmosphere without requiring the relatively short global BC lifetime (~4 days) suggested by previous studies.