摘要
巴黎协议提出将全球平均气温升幅控制在较工业化前2℃之内,并力争限制在1.5℃。因此,准确理解刻画增暖1.5℃下东亚气候系统响应机理及其精细结构,提高中国气候和极端事件预估的可靠性,设计优化增温1.5℃目标下我国碳减排方案,已成为全球变化及应对研究的核心内容和紧迫全新挑战之一。面对紧迫需求,项目拟围绕"全球增暖1.5℃下东亚气候系统的区域响应机制和精细结构、未来预估及其对我国碳减排放方案的影响"这一核心主题开展多学科交叉集成研究,并提出了4大重点研究内容,它们是:全球增暖1.5℃下年代际变化机理、预测及碳排放路径试验,东亚季风系统对全球增暖的响应及其机理,基于动力降尺度的东亚气候响应的精细结构及高敏感区,增暖1.5℃下中国气候和极端事件的集成预估及碳排放路径优化。
The Paris Agreement achieves the goals of holding the increase of global average temperature to well below 2℃ above preindustrial levels and pursuing efforts to limit the temperature increase to 1.5℃.Consequently, challenges are emerging for the global warming mitiga-tion 1)to precisely understand and depict the response mechanisms and detailed structures of East Asian cli-mate system under the warming of 1.5℃, 2)to in-crease the credibility of future projection on climatology and extreme episodes, and 3)to design the optimal scenario for carbon emission reduction in China.In re-sponse to the urgent demands,this project aims to per-form interdisciplinary researches with the main focus on"exploring dynamic mechanisms, depicting detailed structures,and conducting future projections for East A-sian climate system under the global warming target of 1.5℃, and examining the consequent impacts on the carbon emission reduction scenario of China".The pro-ject comprises four main research topics: 1)decadal climate change under the global warming of 1.5℃:mechanisms,predictions,and experiments with ensem-ble emission scenarios; 2)responses and dynamic processes of East Asian monsoon system to global war-ming;3)fine structure and sensitive areas for the re-sponses of East Asian climate system;and 4)ensemble projection of climatology and extreme episodes in China under the global warming of 1.5℃ and the consequent optimization of carbon emission scenarios.
出处
《中国基础科学》
2017年第5期29-34,共6页
China Basic Science
基金
国家重大科学研究计划项目(2017YFA0603800)
关键词
全球增温1
5℃
东亚气候系统响应
情景预估
碳排放
global warming of 1.5℃
responses of East Asian climate system
ensemble projection
carbon e-mission