Modulation of land photosynthesis by the Indian Ocean Dipole: satellite-based observations and CMIP6 future projections
编号:1666 稿件编号:33 访问权限:仅限参会人 更新:2021-06-17 16:38:08 浏览:847次 口头报告

报告开始:2021年07月10日 16:00 (Asia/Shanghai)

报告时间:10min

所在会议:[S4A] 4A、生态与可持续发展 » [S4A-1] 4A、生态与可持续发展-1

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摘要
Indian Ocean Dipole (IOD), a major climate variability in the tropics which drives the abiotic stress associated with heavy rainfalls and severe droughts, is not much understood in terms of its role in the carbon cycle, while El Niño-Southern Oscillation (ENSO)-related terrestrial carbon cycle variation has been intensively studied. Here, we investigate IOD’s impact on land photosynthesis over the Indian ocean rim countries during austral spring using satellite-based gross primary productivity (GPP) and Earth System Model (ESM) simulations produced in the Coupled Model Intercomparison Project Phase 6 (CMIP6). IOD independently affects GPP with significant positive partial correlation coefficients () over most of Africa and India, and negative  over southern China, Indo-China peninsula, maritime continent, and Australia, mostly driven by precipitation variations; this obviously differs from the widespread significant negative  pattern induced by ENSO. The recent extremely positive IOD in 2019 caused the canonical IOD-affected GPP patterns, however, with its extreme impacts. Furthermore, though large inter-model spreads exist, the CMIP6 multi-model median can basically capture the main characteristics of IOD-affected precipitation and GPP patterns. Importantly, IOD is predicted to occur more frequently in future warming scenarios. Model future projections suggest that it will exert larger impacts on GPP variations over central and eastern Africa, Sumatra, western and southeastern Australia with stronger  and enhanced explained variance, but less impacts over southern Africa, east India, Indo-China peninsula, and northeastern Australia. Therefore, besides ENSO, understanding the IOD impacts can provide us new insights into regional and global carbon cycle interannual variability.
 
关键字
land photosynthesis, Indian Ocean Dipole, precipitation, CMIP6, future projections
报告人
王军
南京大学国际地球系统科学研究所

稿件作者
军王 南京大学国际地球系统科学研究所
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