Indian Ocean Dipole Response to Global Warming: A Multi-Member Study with CCSM4 被引量：1

Indian Ocean Dipole Response to Global Warming: A Multi-Member Study with CCSM4

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摘要 Based on a coupled ocean-atmosphere model, the response of the Indian Ocean Dipole (IOD) mode to global warming is investigated with a six member ensemble of simulations for the period 1850-2100. The model can simulate the IOD features rea-listically, including the east-west dipole pattern and the phase locking in boreal autumn. The ensemble analysis suppresses internal variability and isolates the radiative forced response. In response to increasing greenhouse gases, a weakening of the Walker circula-tion leads to the easterly wind anomalies in the equatorial Indian Ocean and the shoaling thermocline in the eastern equatorial Indian Ocean (EEIO), and sea surface temperature and precipitation changes show an IOD-like pattern in the equatorial Indian Ocean. Al-though the thermocline feedback intensifies with shoaling, the interannual variability of the IOD mode surprisingly weakens under global warming. The zonal wind feedback of IOD is found to weaken as well, due to decreased precipitation in the EEIO. Therefore, the atmospheric feedback decreases much more than the oceanic feedback increases, causing the decreased IOD variance in this model. Based on a coupled ocean atmosphere model, the response of the Indian Ocean Dipole （IOD） mode to global warming is investigated with a six member ensemble of simulations for the period 1850-2100. The model can simulate the IOD features realistically, including the east-west dipole pattern and the phase locking in boreal autumn. The ensemble analysis suppresses internal variability and isolates the radiative forced response. In response to increasing greenhouse gases, a weakening of the Walker circulation leads to the easterly wind anomalies in the equatorial Indian Ocean and the shoaling thermocline in the eastern equatorial Indian Ocean （EEIO）, and sea surface temperature and precipitation changes show an IOD-like pattern in the equatorial Indian Ocean. Although the thermocline feedback intensifies with shoaling, the interannual variability of the IOD mode surprisingly weakens under global warming. The zonal wind feedback of IOD is found to weaken as well, due to decreased precipitation in the EEIO. Therefore, the atmospheric feedback decreases much more than the oceanic feedback increases, causing the decreased IOD variance in this model.

作者 ZHOU Zhen-Qiang XIE Shang-Ping ZHENG Xiao-Tong LIU Qinyu

机构地区 Physical Oceanography Laboratory and Key Laboratory of Ocean-Atmosphere Interaction and Climate in Universities of Shandong Scripps Institution of Oceanography

出处《Journal of Ocean University of China》 SCIE CAS 2013年第2期209-215,共7页 中国海洋大学学报（英文版）

基金 supported by the National Basic Research Program of China(2012CB955603) the Natural Science Foundation of China(41106010,41176006) the 111 Project(B07036) the Qianren Program

关键词印度洋偶极子全球气候变暖会员耦合模型海洋大气 IOD 全球变暖相位锁定 Indian Ocean Dipole （IOD） multi-member ensemble analysis global warming ocean-atmospheric interaction CCSM4

分类号 P732 [天文地球—海洋科学]

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参考文献26

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Indian Ocean Dipole Response to Global Warming: A Multi-Member Study with CCSM4 被引量：1

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