吴琼,女,副教授,研究生学历,博士学位
(Email: qiongwu@hhu.edu.cn)
工作/学习经历
2023.06至今,副教授,pg电子官网推荐网(中国)集团有限公司
2017.02–2023.05,讲师,pg电子官网推荐网(中国)集团有限公司
2015.01–2017.01,博士后,同济大学海洋地质国家重点实验室,合作导师,刘志飞
2010.10–2014.10,博士,巴黎第十一大学,海洋地质专业,导师,Christophe Colin
2007.09–2010.03,硕士, 同济大学海洋与地球科学学院,海洋地质专业,导师,刘志飞
2009.03-2009.08,台湾成功大学地球系统动力中心,合作导师,游镇烽
2008.08-2008.10,台湾成功大学地球系统动力中心,合作导师,游镇烽
2003.09–2007.06,学士,安庆师范学院,环境科学专业,导师,周葆华
研究方向
西太平洋深水洋流演化:谁主导着末次冰期—冰消期—全新世西太平洋深层水?北太平洋深层水vs环南极深层水?
《庄子.秋水》篇中,北海神若曰“天下之水,莫大于海。万川归之,不知何时止而不盈;尾闾泄之,不知何时已而不虚;春秋不变,水旱不知。”然而,大海是否真的一直不变呢?其实从大约3万年前开始的末次冰期至今,海平面经历了大幅下降再回升的巨大变化,在最冷的末次盛冰期(距今约2万年),海平面比今天约低134m。
在海平面发生变化的时候,海洋深处又发生了怎样的变化呢?太平洋是地球第一大洋,也是全球重要的碳储库之一,太平洋环流对于调节全球气候变化具有重要意义。现代观测表明,当今西太平洋深层水的主要来源是环南极深层水,由环南极深层水在北太平洋上翻形成的北太平洋深层水对西太平洋深层水影响较小?西太平洋现代环流格局在冰期时是否会发生变化,又会发生怎样的变化呢?
现代西太平洋环流模式图
海洋微体生物浮游有孔虫在沉积到海底之后,其壳体表面形成铁锰氧化物覆层,该铁锰氧化物覆层可以富集底层海水中的稀土元素。从浮游有孔虫中提取的海水钕(Nd)同位素信息,可以重建末次冰期以来的西太平洋深水洋流的演化历史。
主讲课程
主持/参与的科研项目
“南海中-北部有孔虫钕的迁移行为及其示踪古洋流可行性研究(编号42176058)”, 2022.01–2025.12,国家自然科学基金(面上项目),负责人。
“南海北部现生有孔虫与地史时期有孔虫稀土元素地球化学特征对比研究”(编号MGE2019KG12)”,2019.07–2021.06,中国科学院海洋地质与环境重点实验室(开放课题基金),负责人。
“南海北部有孔虫稀土元素迁移过程研究”(编号MGK1916),2019.07–2021.06,同济大学海洋地质国家重点实验室(开放课题基金),负责人。
“浮游有孔虫钕同位素富集的控制因素及在重建洋流演化中的应用”(编号41506057),2016.01–2018.12,国家自然科学基金(青年基金),负责人。
“南海中央海盆中新世以来深水沉积作用及其区域构造与环境演化意义”(编号41530964),2016.01–2020.12,国家自然科学基金重点项目,参加人。
“南海深海沉积过程与机制”(编号91528304),2016.01–2018.12,“南海深海过程演变”重大研究计划集成项目,参加人。
“末次冰盛期以来南海深水洋流演化的示踪研究”(编号40876024),2009.01–2011.12,国家自然科学基金(面上项目),参加人。
论文论著
Wu Q*., Liu Z., Colin C., Douville E., Zhao Y., Wu J., Dapoigny A., Bordier L., Ma P., Huang Y. (2022). Dissolved rare earth element and neodymium isotope distributions in the South China Sea: Water mass source versus particle dissolution. Frontiers in Marine Science. doi: 10.3389/fmars.2022.1003749.
Lyu X., Liu Z.,*Wu Q.,* Colin C., Yu X., Liu C., Li Q. (2022). Quantifying iron oxide mineral contents in Miocene oceanic red beds for the deep-sea oxidation evolution in the South China Sea. Frontiers in Earth Science. doi:10.3389/feart.2022.875292
Wu Q.,* Colin C., Liu Z., Bassinot F., Dubois-Dauphin Q., Douville E. Thil F., Siani G. (2017). Foraminiferal εNd in the deep north-western subtropical Pacific Ocean: Tracing changes in weathering input over the last 30,000 years. Chemical Geology, 470: 55-66.
Wu Q.,* Colin C., Liu Z., Douville E., Dubois-Dauphin Q., Frank N. (2015). New insights into hydrological exchange between the South China Sea and the western Pacific Ocean based on the Nd isotopic composition of seawater. Deep-sea research II, 122: 25-40.
Wu Q., Colin C., Liu Z., Thil F., Dubois-Dauphin Q., Frank N., Tachikawa K., Bordier L., Douville, E. (2015). Neodymium isotopic composition in foraminifera and authigenic phases of South China Sea sediments: implications for the hydrology of the North Pacific Ocean over the past 25 kyr. Geochemistry, Geophysics, Geosystems.16, doi:10.1002/2015GC005871.
Jian Z., Dang H., Yu J., Wu Q., Gong X., Stepanek C., Colin C., Hu L., Lohmann G., Zhou X., Wan S. (2023). Changes in deep Pacific circulation and carbon storage during the Pliocene-Pleistocene transition. Earth and Planetary Science Letters, 605: 118020.
Yu Z., Colin C., Meynadier L., Douville E., Dapoigny A., Reverdin G., Wu Q., Wan S., Song L., Xu Z., Bassinot F. (2017).Seasonal variations in dissolved neodymium isotope composition in the Bay of Bengal. Earth and Planetary Science Letters, 479: 310-321.
Dubois-Dauphin Q., Colin C., Bonneau L., Montagna P., Wu Q., Van Rooij D., Reverdin G., Douville E., Thil F., Frank N. (2017). Fingerprinting Northeast Atlantic water masses using Neodymium isotopes. Geochimica et Cosmochimica Acta. doi: 10.1016/j.gca.2017.04.002.
Yu Z., Colin C., Douville E., Meynadier L., Duchamp-Alphonse S., Sepulcre S., Wan S., Song Li., Wu Q., Xu Z., Bassinot F. (2017). Yttrium and rare earth element partitioning in seawaters from the Bay of Bengal. Geochemistry, Geophysics, Geosystems. doi: 10.1002/2016GC006749.
Zhao Y., Liu Z., Colin C., Xie X., Wu Q. (2011). Turbidite deposition in the southern South China Sea during the last glacial: Evidence from grain-size and major elements records. Chinese Science Bulletin, 56 (33): 3558-3565.
Liu Z., Zhao Y., Colin C., Siringan F.P., Wu Q. (2009). Chemical weathering in Luzon, Philippines from clay mineralogy and major-element geochemistry of river sediments. Applied Geochemistry, 24: 2195-2205.
吴琼,刘志飞, 马瑞芳(2022). 有孔虫钕同位素的来源及其古海洋学意义. 地球科学进展, 37 (11): 1194-1203.
学术会议
Wu Q., Colin C., Liu Z., Zhang Y., Zhao Y., Li J., Douville E., Geochemistry in foraminifera of sediment traps and core-top sediments from the South China Sea: implications for the application of Nd isotopes of planktonic foraminifera in paleoceanography. AGU fall meeting, 14-18, December, 2015. San Francisco, USA. Poster presentation.
Wu Q., Colin C., Liu Z., Douville E., Dubois-Dauphin Q. News insights of the hydrology of the Northwestern subtropical Pacific Ocean from εNd investigations of the South China Sea sediments. AGU fall meeting, 14-18, December, 2015. San Francisco, USA. Oral presentation
Wu Q., Colin C., Liu Z., Thil F., Douville E., Frank N. Nd isotopes from seawater and sediments of the South China Sea: implications for hydrology of the Pacific Ocean during the last 25 kyr. 11th International Conference on Paleoceanography, 1-6, September, 2013, Sitges – Barcelona, Spain, Poster presentation
Wu Q., Colin C., Liu Z., Frank N. Nd isotopic composition in the seawater from the South China Sea and the western Pacific Ocean. Workshop, Journées Climat et impacts, 19-20, November, 2012, Orsay, France, Poster Presentation
吴琼,刘志飞,Christophe Colin. 南海中中新世底层水Nd同位素及其洋流演化指示意义,第四届地球科学系统大会,2016年7月4-6日,上海,展板报告
野外工作经历
2012.06–2012.07,参加法国Ifreme海洋研究所“Thalassa”号北大西洋航次(ICECTD, Iceland coral ecosystems - climate and thermocline depth ocean circulation),开展冰岛珊瑚礁生态调查和海水采集工作。
2010.05–2012.06,参加“实验三号”中国科学院南海所开放航次,开展南海北部海水采集及船上预处理工作。
2009.09–2009.10,参加“实验三号”中国科学院南海所开放航次,开展南海北部海水采集及船上预处理工作。
2008.12–2009.02,参加“科学一号”973航次,开展西太平洋海水采集及船上预处理工作。
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