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Role of Cloud Feedback in Continental Warming Response to CO2 Physiological Forcing

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Cited 0 time in scopus
Title
Role of Cloud Feedback in Continental Warming Response to CO2 Physiological Forcing
Other Titles
이산화탄소 증가에 따른 식생 생리 작용에 대한 대륙 온난화에서의 구름 되먹임 과정의 역할
Authors
Park, So-Won
Kug, Jong-Seong
Jun, Sang-Yoon
Jeong, Su-Jong
Kim, Jin-Soo
Subject
Meteorology & Atmospheric Sciences
Keywords
Atmosphere-land interactionFeedbackClimate modelsModel comparisonModel evaluation/performance
Issue Date
2021-11
Citation
Park, So-Won, et al. 2021. "Role of Cloud Feedback in Continental Warming Response to CO2 Physiological Forcing". JOURNAL OF CLIMATE, 34(22): 8813-8828.
Abstract
Stomatal closure is a major physiological response to the increasing atmospheric carbon dioxide (CO2), which can lead to surface warming by regulating surface energy fluxes―a phenomenon known as CO2 physiological forcing. The magnitude of land surface warming caused by physiological forcing is substantial and varies across models.Here we assess the continental warming response to CO2 physiological forcing and quantify the resultant climate feedback using carbon?climate simulations from phases 5 and 6 of the Coupled Model Intercomparison Project,with a focus on identifying the cause of intermodel spread. It is demonstrated that the continental (40?70N) warming response to the physiological forcing in summer (~0.55 K) is amplified primarily due to cloud feedback (~1.05 K), whereas the other climate feedbacks, ranging from -0.57 to 0.20 K, show relatively minor contributions. In addition, the strength of cloud feedback varies considerably across models, which plays a primary role in leading large diversity of the continental warming response to the physiological forcing.
URI
https://repository.kopri.re.kr/handle/201206/13624
DOI
http://dx.doi.org/10.1175/JCLI-D-21-0025.1
Type
Article
Station
해당사항없음
Indexed
SCIE
Appears in Collections  
2021-2021, Earth System Model-based Korea Polar Prediction System (KPOPS-Earth) Development and Its Application to the High-impact Weather Events originated from the Changing Arctic Ocean and Sea Ice (21-21) / Kim, Joo-Hong (PE21010)
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