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                厦门大学海洋〓与地球学院

                College of Ocean and Earth Sciences
                教师這次爭奪去遠古神域后台登录
                学院办公頓時驚出一身冷汗系统
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                海洋科甚至響起了龜裂之聲技博物馆
                Luncheon Seminar #169: What controlled atmospheric CO2 during Younger Dryas?
                2019/12/27 438 返回上页
                2019-12-30 (星期一) 1:00pm-2:00pm
                于际民,Associate Professor Jimin Yu
                周隆泉楼A3-206 A3-206 Zhou Long Quan Building

                来访单位 Institution】:Australia national University,Australia

                邀请人 Host】:蔡平河  Pinghe Cai      【联络人 Contact】:黄迎   Ying Huang 2181571

                Abstract

                Abrupt atmospheric CO2 rises represent a major feature of deglaciations, but their causes remain elusive partly due to a dearth of sufficiently high resolution records with robust age controls. Here, we use a new approach and exceptionally high-resolution marine records to investigate processes controlling atmospheric CO2 surrounding Younger Dryas, a critical time when marked millennial- and centennial-timescale CO2 rises occurred. We find that ocean circulation, via affecting carbon sequestration efficiencies and volume occupations of major Atlantic water masses, critically shaped the atmospheric CO2 evolution around Younger Dryas.

                Research interests

                Carbon cycle and oceanic carbonate system: using trace elements and isotopic compositions of marine carbonates together with models to understand interactions between atmosphere, surface and deep oceans, and land biosphere and their roles in the global carbon cycle on various timescales;

                Trace elements and isotopes in inorganic and biogenic carbonates: developing new proxies using marine carbonates to reconstruct oceanic environments such as seawater pH and carbonate ion contents; understanding mechanisms that control the incorporation and variation of trace elements and of isotopes in inorganic and biogenic carbonates;

                Ocean circulation changes: using multi-proxies to reconstruct past ocean circulation changes and their impacts on climate on different timescales.




                厦门大学海洋与地球学小子院
                技术支持:zzf19850106@xmu.edu.cn