师资
个人简介
姚炜琪,副教授,博士生导师。2020年获得加拿大多伦多大学地球科学系博士学位,随后在美国哈佛大学地球与行星科学系从事博士后研究,2021年入职南方科技大学海洋科学与工程系。研究方向主要包括全球生物地球化学(S、O、C、N、P等)循环和新生代/中生代至今多时空尺度的古海洋和古气候重建,专注于研究和扩展海洋重晶石作为海洋生产力和多种同位素组成的示踪指标,旨在阐明生物地球化学过程对气候和构造变化的响应与反馈机制,及其对生态系统的影响。近年来,姚博士在国际高水平期刊(如Science、Earth and Planetary Science Letters、Geochimica et Cosmochimica Acta)和专著章节发表论文10余篇。担任Nature Geoscience、Geology、Geophysical Research Letter等多个专业高水平期刊的审稿人。2020年美国地球物理协会(AGU)授予其Harry Elderfield Student Paper Award(古海洋与古气候分会每年仅授予1人)。
教育背景
2020 博士,多伦多大学,地球科学系
2015 硕士,多伦多大学,地球科学系
2014 学士,中山大学,海洋科学系
工作经历
2022 – 至今 副教授,南方科技大学
2021 – 2022, 助理教授,南方科技大学
2021 博士后, 哈佛大学,地球与行星科学系
2020 博士后, 多伦多大学,物理与环境科学系
荣誉奖项
2020 Harry Elderfield Outstanding Student Paper Award, American Geophysical Union, USA
2018 - 2019 H.V. Ellsworth Graduate Fellowships in Mineralogy
2017 – 2018 P.C. Finlay Q.C. President's Fellowships in Geology 2016 Centre for Global Change Science Graduate Student Research Award
2015 – 2016 Laurence and Theresa Curtis Explorers Graduate Scholarship
2015 – 2016 W. W. Moorhouse Fellowship
2010 – 2013 China National Undergraduate Scholarship
科研项目
1. 美国国家科学基金会(NSF),OCE-1946137,Collaborative Research: Unlocking the Cenozoic /Cretaceous seawater sulfate record via inclusion of 17O in marine barite, 2020-2022,USD413,392,在研,参加
2. 加拿大自然科学与工程研究委员会(NSERC),RGPIN-2018-05873,Do sedimentary sulfur phases link to the biogeochemical cycle of calcium to atmospheric carbon dioxide concentration,2018-2023,CAD25,000,在研,参加
3. 卡塔尔研究基金会(QNRF),NPRP12S-0313-190349,Understanding carbon mineralization in sabkhas: microbial mats, minerals and carbon sequestration, 2020-2023,USD180,000美元,在研,参加
4. 加拿大环境与气候变化基金会(ECCC),GCXE19P033,Phosphorus loading from Napanee River, Wilton Creek and their catchments, 2019-2021,在研,CAD242,000,参加
发表论著
代表性论文 (* 通讯作者):
1.Yao W.*, Paytan A., Wortmann U.G. (2018) Large-scale ocean deoxygenation during the Paleocene-Eocene Thermal Maximum. Science 361(6404), 804-806. https://doi.org/10.1126/science.aar8658
2.Yao W.*, Paytan A., Wortmann U.G. (2020) Effects of a transient marine sulfur reservoir on seawater δ18OSO4 during the Paleocene-Eocene Thermal Maximum. Geochimica et Cosmochimica Acta 269, 257-269. https://doi.org/10.1016/j.gca.2019.10.019
3.Yao W.*, Paytan A., Griffith E.M., Martı́nez-Ruiz F., Markovic S., Wortmann U.G. (2020) A revised seawater sulfate S-isotope curve for the Eocene. Chemical Geology 532, 119382. https://doi.org/10.1016/j.chemgeo.2019.119382
4.Yao W., Paytan A.* (2020) Possible triggers of the seawater sulfate S-isotope increase between 55 and 40 million years ago. Chemical Geology 552, 119788. https://doi.org/10.1016/j.chemgeo.2020.119788
5.Yao W.*, Markovic S., Paytan A., Erhardt A.M., Wortmann U.G. (2021) Quantifying pyrite oxidation on continental shelves during the onset of Antarctic glaciation in the Eocene-Oligocene transition. Earth and Planetary Science Letters 568, 117015. https://doi.org/10.1016/j.epsl.2021.117015.
6.Yao W., Wortmann U.G., Paytan A.* (2019) Sulfur isotope – Use for stratigraphy during times of rapid perturbations. In Montenari M. (Ed.), Stratigraphy & Timescales, Volume 4, pp. 1-33, Academic Press, Elsevier. https://doi.org/10.1016/bs.sats.2019.08.004
7.Yao W., Griffith E.M., Paytan A.* (2021) Pelagic Barite: a Tracer of Ocean Productivity and a Recorder of Isotopic Compositions of Seawater S, O, Sr, Ca and Ba. In Lyons T.W., Turchyn A.V., Reinhard C.T. (Eds.), Elements in Geochemical Tracers in Earth System Science. Cambridge University Press, Cambridge. https://doi.org/10.1017/9781108847162
学术与社会职位
专业期刊审稿人: Nature Geoscience; Geology; Earth and Planetary Science Letters; Geophysical Research Letter; Chemical Geology; Limnology and Oceanography; Journal of Nanoscience and Nanotechnology