史贵涛
近期热点
资料介绍
个人简历
教育经历 2004.09-2009.06,博士(硕博连读),华东师范大学地理系2000.09-2004.06,本科,兰州大学地理科学基地班2013.10-2014.10,2016.09-2016.11,访问学习,美国Brown University工作经历 2017.05-今,教授,华东师范大学地理科学学院2013.11-2017.05,副研究员,中国极地研究中心极地冰川学研究室2009.06-2013.11,助理研究员,中国极地研究中心极地冰川学研究室2009.10-2010.04,第26次南极科学考察冰川学科考班长2010.10-2011.04,第27次南极科学考察昆仑站科考班长,党支部委员2012.10-2013.04,第29次南极科学考察昆仑站副站长,党支部委员2015.11-2016.04,第32次南极科学考察昆仑站副站长,党支部书记个人简介 紫江优秀青年学者,基金委“优青”获得者(2019)。2004年本科毕业于兰州大学地理学基地班,2009年在华东师范大学地理系获得博士学位,2013-2014年和2016年在美国布朗大学访问学习。2009-2017年在中国极地研究中心历任助理研究员、副研究员,2017年至今任华东师范大学地理科学学院教授,博士生导师,主要研究方向为极地环境与气候变化。于2009/2010,2010/2011,2012/2013和2015/2016年参加了4次南极科学考察,在南极工作和生活累计时间2年多,在中国南极长城站、中山站、昆仑站和泰山站均开展过科学考察活动,其中2012/2013年负责完成了中国Dome A深冰芯钻探系统安装调试,打下了中国南极深冰芯第一钻,为中国南极深冰芯科学工程的顺利实施奠定了基础;2015/2016年作为深冰芯现场工作负责人创造了中国南极冰芯钻探单季进尺记录。目前,目前主要从事南极雪冰现代环境过程、冰芯气候记录等方面的研究,并在极地雪冰现代过程方面并取得了一系列重要成果,为冰芯气候环境信息的定量解读奠定了基础。主持(或完成)了国家自然科学基金、国家重点研发计划课题等项目近10项,发表论文著作近70篇(部)。我们研究组热烈欢迎对相关研究内容感兴趣的同学报考硕士/博士研究生,研究组欢迎地理学、大气科学、环境科学、海洋学、地球化学等相关学科的优秀同学加入,我们一起探索极地奥秘!另本课题组常年招聘博士后,待遇从优,协助申请博新计划等高层次博士后计划,博士后工作出站后,考核优秀者有机会留校工作。开授课程 本科生:《自然地理学概论》《探秘极地:从探险到科学》研究生:《环境地球化学》《自然地理学进展》科研项目 主持的科研项目1.国家自然科学基金优秀青年科学基金(41922046):极地环境, 2020.1-2022.12, 2.国家重点研发计划课题(2016YFA0302204):南极冰盖冰芯绝对年代定年方法研究,2016.07-2021.063.国家自然科学基金青年基金(41206188):基于南极冰芯记录的300年来南半球环状模(SAM)的时空演化分异特征研究,2013.1—2015.124.国家自然科学基金面上项目(41576190):东南极冰盖中山站至昆仑站断面雪层中NO3-的沉积后机制研究:δ15N、δ18O和Δ17O证据,2016.1—2019.125.上海市自然科学基金(11ZR1441100):上海-南极大尺度断面低层大气中N2O分布特征及N稳定同位素构成,2011.4-2014.36.国家海洋局青年海洋科学基金(2012532):南极中山-昆仑站断面雪冰中硝酸盐的沉积后过程研究,2012.1-2013.127.国家海洋局极地考察对外合作项目(201601):(中美合作)关于极地雪冰中硝酸根现代沉积过程及相关机理的合作研究,2016.1-2018.12.8.南北极环境综合考察与评估专项(CHINARE2015-04-01):南极环境综合分析与评价子专题-南极冰川环境综合分析与评价,2014.1-2017.129.中国极地科学战略研究基金(20110210):高分辨率雪坑离子记录的南极Dome A地区近期气候环境特征研究,2011-2013 参与的科研项目国家高技术研究发展计划(863计划) (2011AA090401):冰架热水钻机关键技术与系统开发,2011.01-2017.55 2(骨干)荣誉及奖励 2019 国家自然科学基金“优秀青年科学基金”2015 中国极地科学优秀论文一等奖2013 中国极地科学优秀论文二等奖2011 上海市研究生优秀成果奖研究领域
主要从事南极雪冰现代环境过程和冰芯气候环境记录研究,主要采用稳定同位素手段研究大气中主要化学组分向高纬的传输过程、在极地的沉降过程及在雪冰中的沉积保存过程,在此基础上利用冰芯化学记录研究过去气候环境的演变规律。目前重点开展两方面研究工作:1、南极雪冰现代环境过程:对雪冰中主要化学组分来源及其全球大气传输过程等开展研究,为构建雪冰化学组分与气候环境信息关联提供依据;揭示雪冰中主要化学组分的沉积后过程和机制,为冰芯化学记录定量解读奠定基础。2、冰芯气候环境记录研究:利用不同时间尺度冰芯记录(百年-千年,轨道尺度)开展气候环境变化研究,探寻南极蓝冰区古老冰,以揭示更长时间尺度气候环境变化规律。""近期论文
[1]Shi, G., Buffen, A.M., Hastings, M.G., Li, C., Ma, H., Li, Y., Sun, B., An, C., Jiang, S. Investigation of post-depositional processing of nitrate in East Antarctic snow: isotopic constraints on photolytic loss, re-oxidation, and source inputs. Atmospheric Chemistry and Physics, 2015, 15, 9435–9453. [2]Shi, G., Teng, J., Ma, H., Li, Y., Sun, B. Metals and metalloids in precipitation collected during CHINARE campaign from Shanghai, China to Zhongshan Station, Antarctica: Spatial variability and source identification. Global Biogeochemical Cycles, 2015, 29, 760-774, doi: 10.1002/2014GB005060. [3]Shi, G., Buffen, A.M., Ma, H., Hu., Z., Sun, B., Li, C., Yu, J., Ma, T., Li, Y., and Hastings, M.G.: Distinguishing summertime atmospheric production of nitrate across the East Antarctic Ice Sheet, Geochimica et Cosmochimica Acta, 2018, 231, 1-14. doi: 10.1016/j.gca.2018.03.025.[4]Shi, G., Hastings, M.G., Yu, J., Ma, T., Hu, Z., An, C., Li, C., Ma, H., Jiang, S., and Li, Y.: Nitrate deposition and preservation in the snowpack along a traverse from coast to the ice sheet summit (Dome A) in East Antarctica, The Cryosphere, 2018, 12, 1177-1194, https://doi.org/10.5194/tc-12-1177-2018.[5]Guitao Shi; Jiajue Chai; Zhuoyi Zhu; Zhengyi Hu; Zhenlou Chen; Jinhai Yu; Tianming Ma; Hongmei Ma; Chunlei An; Su Jiang; Xueyuan Tang; Meredith G. Hastings. Isotope fractionation of nitrate during volatilization in snow: a field investigation in Antarctica. 2019, Geophysical Research Letters; 46, 6, 3287-3297. GRL58697, doi:10.1029/2019GL081968. 部分已发表论著列表:[1]Guitao Shi, Xuan-Ce Wang, Yuansheng Li, Robert Trengove, Zhengyi Hu, Mei Mi, Xichen Li, Jinhai Yu, Benjamin Hunter, Tianhua He. Organic tracers from biomass burning in snow from the coast to the ice sheet summit of East Antarctica. 2019, Atmospheric Environment, 201, 231-241.[2]Guitao Shi; Jiajue Chai; Zhuoyi Zhu; Zhengyi Hu; Zhenlou Chen; Jinhai Yu; Tianming Ma; Hongmei Ma; Chunlei An; Su Jiang; Xueyuan Tang; Meredith G. Hastings. Isotope fractionation of nitrate during volatilization in snow: a field investigation in Antarctica. 2019, Geophysical Research Letters; 46, 6, 3287-3297. GRL58697, doi:10.1029/2019GL081968.[3]Hu, Z., Talalay, P., Zheng, Z., Cao, P., Shi, G., Li, Y., Fan, X., Ma, H., 2019. Air reverse circulation at the hole bottom in ice-core drilling. Journal of Glaciology, 1-8. Doi: 10.1017/jog.2018.95. SCI[4]Su Jiang; Guitao Shi; Jihong Cole-Dai; Lei Geng; Dave G. Ferris; Chunlei An; Yuansheng Li. Ice core evidence of depleted nitrate at Dome A, Antarctica due to photolytic loss from surface snow. Atmospheric Environment , 2019, 203, 405-412.(通讯作者)[5]秦瑞,史贵涛,陈振楼. 大气硝酸盐中氮氧稳定同位素研究进展. 地球科学进展.2019, 1-16. DOI: 10.11867/j.issn.1001-8166.2019.XX.0001(通讯作者)[6]史贵涛,秦瑞,马红梅,胡正毅,安春雷,姜苏,李院生. 南极雪冰中硝酸根稳定同位素研究进展. 极地研究, 2019, doi: 10.13679/j.jdyj.20180047[7]Shi, G., Hastings, M.G., Yu, J., Ma, T., Hu, Z., An, C., Li, C., Ma, H., Jiang, S., and Li, Y.: Nitrate deposition and preservation in the snowpack along a traverse from coast to the ice sheet summit (Dome A) in East Antarctica, The Cryosphere, 2018, 12, 1177-1194, https://doi.org/10.5194/tc-12-1177-2018. [8]Shi, G., Buffen, A.M., Ma, H., Hu., Z., Sun, B., Li, C., Yu, J., Ma, T., Li, Y., and Hastings, M.G.: Distinguishing summertime atmospheric production of nitrate across the East Antarctic Ice Sheet, Geochimica et Cosmochimica Acta, 2018, 231, 1-14. doi: 10.1016/j.gca.2018.03.025. [9]Shi, G., Teng, J., Ma, H., Wang, D., Li, Y., 2018. Metals in topsoil in Larsemann Hills, an ice-free area in East Antarctica: Lithological and anthropogenic inputs. Catena, 2018, 160, 41-49.doi : 10.1016/j.catena.2017.09.001[10]Ma, H., Yan, W., Xiao, X., Shi, G., Li, Y., Sun, B., Dou, Y., and Zhang, Y., 2018. Ex situ culturing experiments revealed psychrophilic hydrogentrophic methanogenesis being the potential dominant methane-producing pathway in subglacial sediment in Larsemann Hills, Antarctic. Frontiers in Microbiology, doi: 10.3389/fmicb.2018.00237.[11]Yan, W., Ma, H., Shi, G., Li, Y., Sun, B., Xiao, X., Zhang, Y., 2017. Independent Shifts of Abundant and Rare Bacterial Populations across East Antarctica Glacial Foreland. Frontiers in Microbiology 8, doi: 10.3389/fmicb.2017.01534.[12]Chen, L., Liu, X., Bian, L., Chen, B., Huang, H., Hongqiao, H.U., Luo, W., Shi, G., Shi, J., Chengli, X.U., 2017. Overview of China's Antarctic research progress 1984–2016. Advances in Polar Science 28, 151-160.[13]马红梅, 闫文凯, 程永前, 张宇, 肖湘, 史贵涛, 孙波, 李院生, 2017. 极地冰川底部微生物多样性及其对气候变化响应的研究概况与前景. 极地研究 29, 1-10.[14]马天鸣, 谢周清, 李院生, 安春雷, 史贵涛, 于金海, 马红梅,姜苏 (2017) 南极中山站-Dome A断面表层雪稳定同位素空间分布及环境影响因素分析. 极地研究 29, 2, 210-217. Doi:10. 13679/j. jdyj. 2017. 2. 210[15]于金海, 李院生, 马红梅, 史贵涛,马天鸣, 安春雷,姜苏 (2017) 东南极冰盖中山站-Dome A断面表层雪中SO42-和MSA的空间分布特征. 极地研究 29, 2, 45-55. Doi: 10. 13679/j. jdyj. 2017. 1. 045[16]Li, C ., Xiao, C., Shi, G., Ding, M., Qin, D., and Ren, J. 2016. Spatial and temporal variability of marine-origin matter along a transect from Zhongshan Station to Dome A, Eastern Antarctica. Journal of Environmental Sciences 46, 190-202.[17]Minghu Ding, Cunde Xiao, Yuande Yang, Yetang Wang, Chuanjin Li, Naiming Yuan, Guitao Shi, Weijun Sun, Jing Ming, 2016. Re-assessment of recent (2008-2013) surface mass balance over Dome Argus, Antarctica. Polar Research, 35, 26133, http://dx.doi.org/10.3402/polar.v35.26133. [18]Jiang, S., Cox, T.S., Cole-Dai, J., Peterson, K.M., Shi, G., 2016. Trends of perchlorate in Antarctic snow: Implications for atmospheric production and preservation in snow. Geophysical Research Letters, doi: 10.1002/2016GL070203.[19]Liu Y., Hongqiao H.U., Yang H., Zhang B., Sun B., Wei F., Liu Y., Liu J., Wang R., Chen Z., Hu Z., Han D., Shi G., Hu Z., Wang T. and Mike R. (2016) Chinese Antarctic Magnetometer Chain at the Cusp Latitude. Advances in Polar Science 27, 2, 102-106. Doi:10.13679/j.advps.2016.2.00102[20]Shi, G., Buffen, A.M., Hastings, M.G., Li, C., Ma, H., Li, Y., Sun, B., An, C., Jiang, S., 2015. Investigation of post-depositional processing of nitrate in East Antarctic snow: isotopic constraints on photolytic loss, re-oxidation, and source inputs. Atmospheric Chemistry and Physics 15, 9435–9453.[21]Shi, G., Teng, J., Ma, H., Li, Y., Sun, B., 2015. Metals and metalloids in precipitation collected during CHINARE campaign from Shanghai, China to Zhongshan Station, Antarctica: Spatial variability and source identification. Global Biogeochemical Cycles 29, 760-774, doi: 10.1002/2014GB005060.[22]Shi, G., Chen, Z., Teng, J., Li, Y., 2015. Spatio-temporal variation of total mercury in precipitation in the largest industrial base in China: impacts of meteorological factors and anthropogenic activities. Tellus B, 67, 25660, doi: 10.3402/tellusb.v67.25660.[23]Minghu Ding, Cunde Xiao, Chuanjin Li, Dahe Qin, Bo Jin, Guitao Shi, Aihong Xie, Xiangbin Cui, 2015. Surface mass balance and its climate significance from the coast to Dome A, East Antarctica. Science China-Earth Sciences, 58(10), 1787-1797.[24]Li, C., Xiao, C., Shi, G., Ding, M., Kang, S., Zhang, L., Hou, S., Sun, B., Qin, D., and Ren, J. 2015. Spatiotemporal variations of monocarboxylic acids in snow layers along a transect from Zhongshan Station to Dome A, eastern Antarctica. Atmospheric Research 158-159, 79-87.[25]Li, C., Kang, S., Shi, G., Huang, J., Ding, M., Zhang, Q., Zhang, L., Guo, J., Xiao, C., and Hou, S.: Spatial and temporal variations of total mercury in Antarctic snow along the transect from Zhongshan Station to Dome A, Tellus. B, 66, 25152, 2014, http://dx.doi.org/10.3402/tellusb.v66.25152, 2014. [26]Zhang, N., An, C., Fan, X., Shi, G., Li, C., Liu, J., Hu, Z., Talalay, P., Sun, Y., Li, Y., 2014. Chinese First Deep Ice-Core Drilling Project DK-1 at Dome A, Antarctica (2011-2013): progress and performance. Annals of Glaciology 55, 88-98.[27]An, M., Wiens, D., An, C., Shi, G., Zhao, Y., Li, Y., 2014. Antarctic ice velocities from GPS locations logged by seismic stations. Antarctic Science 27, 210-222.[28]史贵涛,孙波,曾刚,李院生,马红梅,安春雷,姜苏. 南半球环状模与南极冰芯中气候信息关联研究的综述. 极地研究,2014,26(3):68-77.[29]冯梅, 安美建, 安春雷, 史贵涛, 赵越, 李院生, Douglas Wiens (2014) 南极中山站-昆仑站间地壳厚度分布. 极地研究 26, 177-185. DOI:10.13679/j.jdyj.2014.2.177[30]Shi, G., Li Y., Jiang S., An C., Ma H., Sun B., Wang Y., 2012. Large-scale spatial variability of major ions in the atmospheric wet deposition along the China-Antarctica transect (31°N~69°S), Tellus B, 2012, 64, 17134, doi: tellusb.v64i0.17134.[31]G. Shi, Z. Chen, J. Teng, C. Bi, D. Zhou, C. Sun, Y. Li, S. Xu, 2012. Fluxes, variability and sources of cadmium, lead, arsenic and mercury in dry atmospheric depositions in urban, suburban and rural areas. Environmental Research. 113, 28-31.[32]Su JIANG, Jihong COLE-DAI, Yuansheng LI, Dave G. FERRIS, Hongmei MA, Guitao SHI, Bo SUN, 2012. A detailed 2840 year record of explosive volcanism in a shallow ice core from Dome A, East Antarctica. Journal of Glaciology, 58(207), 65-75. [33]姜苏,李院生,马红梅,安春雷,史贵涛,孙波. 极地冰芯中火山记录的研究进展. 极地研究,2012,23(4):338-345.[34]马红梅,孙波,姜苏,安春雷,史贵涛,李院生. 极地冰下生物地球化学过程研究进展. 地球科学进展,2012,27(2):147-153.[35]Guitao Shi, Zhenlou Chen, Chunjuan Bi, Li Wang, Jiyan Teng, Yuansheng Li, Shiyuan Xu. A comparative study of health risk of potentially toxic metals in urban and suburban road dust in the most populated city of China. Atmospheric Environment, 2011, 45: 764-771. [36]Yuanyuan Chen, Jun Wang, Guitao Shi, Xiaojing Sun, Zhenlou Chen, Shiyuan Xu, 2011. Human health risk assessment of lead pollution in atmospheric deposition in Baoshan District, Shanghai. Environmental Geochemistry and Health, DOI 10.1007/s10653-010-9368-9. [37]G. Shi, Z. Chen, C. Bi, Y. Li, J. Teng, L. Wang, S. Xu. Comprehensive assessment of toxic metals in urban and suburban street deposited sediments (SDSs) in the biggest metropolitan area of China. Environmental Pollution, 2010, 158: 694-703. [38]SHI Gui-Tao, CHEN Zhen-Lou,XU Shi-Yuan, YAO Chun-Xia, BI Chun-Juan, WANG Li. Salinity and Persistent Toxic Substances in Soils from Shanghai, China. Pedosphere. 2009, 19(6): 779-789[39]Jun Wang, Zhenlou Chen, Xiaojing Sun, Guitao Shi, Shiyuan Xu, Dongqi Wang, Li Wang, 2009. Quantitative spatial characteristics and environmental risk of toxic heavy metals in urban dusts of Shanghai, China. Environmental Earth Sciences, 59, 645-654. [40]Guitao Shi, Zhenlou Chen, Shiyuan Xu, Ju Zhang, Li Wang, Chunjuan Bi, Jiyan Teng. Potentially toxic metal contamination of urban soils and roadside dust in Shanghai, China. Environmental Pollution, 2008, 156(2):251-260.学术机构任职:欧洲地球化学协会(EAG)会员中国环境科学学会水环境分会理事期刊审稿人:Environ. Res., Atmos. Environ., Ecotox. Environ. Safe., Geoderma, J. Environ. Quality, Atmos. Poll. Res., Chemosphere, 极地研究、环境科学、环境化学等项目评议人:国家自然科学基金通讯评审专家科技奖评审人:上海市科学技术奖通讯评审专家 相关热点