全球变暖导致亚洲季风区和干旱区气候在中新世-上新世之交的不对称演化
编号:32 稿件编号:2119 访问权限:仅限参会人 更新:2021-06-16 12:56:40 浏览:1100次 特邀报告

报告开始:2021年07月10日 14:55 (Asia/Shanghai)

报告时间:15min

所在会议:[S1B] 1B、第四纪地质与全球变化 » [S1B-1] 1B、第四纪地质与全球变化-1

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摘要
    Around the Miocene–Pliocene boundary (MPB) at ~5.3 Ma, a late Miocene cooling trend gave way to early-to-middle Pliocene warming, coinciding with a rise in atmospheric CO2 concentration of ~100–250 ppm, an increase that is similar in amplitude (albeit not in rate) to the current rise due to anthropogenic emissions. The early-to-middle Pliocene Warm Period was the most recent period of persistently warmer-than-present conditions and was characterized by high atmospheric CO2 concentrations and a mostly ice-free northern hemisphere, similar to future conditions expected under sustained anthropogenic forcing. Detailed analysis of the MPB, therefore, allows us to better understand the large-scale climate response to natural atmospheric CO2 increases and global warming over equilibrium timescales for comparison with present-day rapid out-of-equilibrium responses, serving as a likely template for future climate change with sustained global warming. Compared with relatively extensive studies of Quaternary and modern climates, however, little is known about terrestrial climate and oceanic changes related to this largely unexplored global warming event.
    Here, we use new high-resolution palaeoclimate records spanning continuously from 8.1 to 3.5 million years ago from Chinese Loess Plateau to document that the Asian summer monsoon intensified prominently across the MPB, with an orbital expression transitioning from a late Miocene mode dominated by 100-kyr cycles to an early-to-middle Pliocene state dominated by 405-kyr cycles. We further synthesize new and existing records and combine detailed land-sea correlations and climate model simulations with realistic late Neogene boundary conditions to demonstrate that CO2-induced MPB warming increased summer monsoon moisture transport over East Asia, and simultaneously enhanced aridification over arid Central Asia by increasing evaporation, accentuating spatial hydrological gradients within Asia in the early-to-middle Pliocene Warm Period. Our results offer strong palaeoclimate support for the “wet gets wetter, dry gets drier” climate model projections that have been made for Earth’s climate system under sustained anthropogenic forcing.
 
关键字
Miocene–Pliocene boundary,Asian summer monsoon,Orbital cycles
报告人
敖红
中国科学院地球环境研究所

稿件作者
敖红 中国科学院地球环境研究所
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