肖红伟

发布者:韩善楚发布时间:2017-09-13浏览次数:8835

肖红伟 Xiao Hong-Wei

出生年月:198404

职称职务:校内教授

学科专业:地球化学

研究方向:大气氮稳定同位素地球化学

E-mail: xiaohw@ecit.cn

  

简历

肖红伟,男,江西赣州人,博士,硕士生导师,江西省大气污染成因与控制重点实验室主要成员,校创新团队“环境污染机理与修复”主要成员,中国矿物岩石地球化学学会终身会员。2011年毕业于中国科学院地球化学研究所,获博士学位;2015年由中国科学院南海海洋研究所调入东华理工大学。担任Atmospheric EnvironmentAtmospheric ResearchJournal of Atmospheric ChemistryEcological IndicatorsAtmospheric and Oceanic Science LettersEnvironmental Earth SciencesEnvironmental Science and Pollution Research,矿物岩石地球化学通报、应用生态学报等国内外重要杂志审稿人。

主要从事大气和地表环境污染的稳定同位素地球化学研究工作。目前开展从事城市、海洋大气氮硫氧来源、化学过程和传输机制的同位素研究,以及湖泊、流域碳氮硫氧环境同位素地球化学等的研究工作。曾先后主持国家自然科学基金项目2项,东华理工博士启动基金项目1项,国防自主基金项目1项;参与国家重点基础研究计划“973”项目、中国科学院战略性先导科技专项、国家自然科学基金项目等10余项。发表国内外学术论文近40篇,参与编写学术编著2部。

  

主持科研项目

[01]国家自然科学基金2017.01-2020.12,项目负责人。

[02]东华理工大学博士启动基金2016.01-2017.12,项目负责人。

[03]国家自然科学基金2013.01-2015.12,项目负责人。

  

学术论文

[01]Xiao, H.W., Xiao, H.Y., Luo, L., Shen, C.Y., Long, A.M., Chen, L., Long, Z.H., Li, D.N., 2017. Atmospheric aerosol compositions over the South China Sea: Temporal variability and source apportionment. Atmospheric Chemistry and Physics 17: 3199-3214.

[02]Liu, X.Y., Xiao, H.W.(共同第1作者), Xiao, H.Y., Song, W., Sun, X.C., Zheng, X.D., Liu, C.Q., Koba, K., 2017. Stable isotope analyses of precipitation nitrogen sources in Guiyang, southwestern China. Environmental Pollution 230: 486-494.

[03]Xiao, H.W., Xie, L.H., Long, A.M, Ye, F., Pan, Y.P., Li, D.N., Long, Z.H., Chen, L., Xiao, H.Y., Liu, C.Q. 2015. Use of isotopic compositions of nitrate in TSP to identify sources and chemistry in South China Sea. Atmospheric Environment 109:70-78.

[04]Xiao, H., Xiao, H., Long, A., Liu, C. 2015. δ15N-NH4+ variations of rainwater: application of the Rayleigh model. Atmospheric Research 157:49-53.

[05]Xiao, H., Xiao, H., Long, A., Wang, Y., Liu, C. 2014. Sources and meteorological factors that control seasonal variation of δ34S values in rainwater. Atmospheric Research 149154-165.

[06]Xiao, H.W., Xiao, H.Y., Long, A.M., Wang, Y.L., Liu, C.Q. 2013. Chemical composition and source apportionment of rainwater at Guiyang, SW China. Journal of Atmospheric Chemistry 70:269-281.

[07]Xiao, H.W., Xiao, H.Y., Long, A.M., Wang, Y.L. 2012. Who controls the monthly variations of NH4+ nitrogen isotope composition in precipitation? Atmospheric Environment 54: 201-206.

[08]肖红伟,肖化云,张忠义,王燕丽,龙爱民,刘丛强. 西沙永兴岛大气降水化学特征及来源分析. 2016. 中国环境科学 36: 3237-3244.

[09]肖红伟,龙爱民,谢露华,肖化云,刘丛强. 2014. 中国南海大气降水化学特征. 环境科学 35(4) 475-480.

[10]肖红伟,龙爱民,孙羚晏. 2013. 珠江口磨刀门溶解有机物 CDOM 三维荧光光谱特征. 海洋科学 37(7): 41-46.

[11]肖红伟, 肖化云, 龙爱民,王燕丽. 2012. 贵阳地区大气降水中δ15N-NO3-组成及来源分析. 环境科学学报 32(4): 940-945.

[12]肖红伟, 肖化云, 龙爱民, 王燕丽. 2011. 贵阳大气降水硫同位素地球化学特征. 地球化学 40(6): 559-565.

[13]肖红伟, 肖化云, 王燕丽, 唐从国,刘学炎. 2010. 典型污染城市 9d 连续大气降水化学特征: 以贵阳市为例. 环境科学 31(4): 865-870.

[14]肖红伟,肖化云,王燕丽. 2010. 贵阳大气降水化学特征及来源分析. 中国环境科学(012): 1590-1596.

[15]肖红伟, 肖化云, 唐从国, 刘学炎, 刘丛强, 林碧娜. 2010. 贵阳地区氨排放量估算. 地球与环境38(1): 21-25.

[16]Xiao, H.W., Long, A.M. 2013. International Symposium on Climate Change and Human Activities: Coastal Consequences and Responses, Shanghai.

[17]Xiao, H.W., Long, A.M., Xiao, H.Y. 2011. The use of δ15NNH4 in precipitation for identifying nitrogen sources and fractionation mechanisms. LOICZ open science conference, Yantai.

[18]Xiao, H.W., Long, A.M., Xiao, H.Y., Liu, C.Q. 2015. Isotopic composition of atmospheric nitrate in total suspended particulate to identify sources and chemistry in the oligotrophic South China Sea. 第二届厦门海洋环境开放科学大会,厦门.

[19]肖红伟,肖化云,刘丛强. 2013. 利用瑞利模型估算贵阳市大气NH3初始浓度. 中国矿物岩石地球化学学会第14届学术年会,南京.

[20]肖红伟,龙爱民,肖化云,刘丛强. 2013. 南海夏季大气降水硝酸盐氮氧同位素特征.第十届全国同位素地质年代学与同位素地球化学会议,天津.

[21]肖红伟,肖化云,刘丛强. 2011. 贵阳市大气 NH3 的氮同位素特征及滞留时间的估算. 中国矿物岩石地球化学学会第 13 届学术年会,广州.

[22]肖红伟, 肖化云, 唐从国, 王燕丽, 刘学炎. 2009. 贵阳市秋冬季降雨化学变化特征. 中国矿物岩石地球化学学会第 12 届学术年会论文集,贵阳.

[23]Xiao, H., Tang, C., Zhu, R., Wang, Y., Xiao, H., Liu, C. 2011. Tracing sources of coal combustion using stable sulfur isotope ratios in epilithic mosses and coals from China. Journal of Environmental Monitoring 13(8): 2243-2249.

[24]Xiao, H. Y., Tang, C. G., Xiao, H. W., Liu, X. Y., Liu, C. Q. 2010. Mosses indicating atmospheric nitrogen deposition and sources in the Yangtze River Drainage Basin, China. Journal of Geophysical Research: Atmospheres 115(D14), doi:10.1029/2009JD012900.

[25]Xiao, H., Tang, C., Xiao, H., Wang, Y., Liu, X., Liu, C. 2010. Tissue S/N ratios and stable isotopes (δ34S and δ15N) of epilithic mosses (Haplocladium microphyllum) for showing air pollution in urban cities in Southern China. Environmental Pollution 158(5): 1726-1732.

[26]Xiao, H., Tang, C., Xiao, H., Liu, X., Liu, C. 2010. Stable sulphur and nitrogen isotopes of the moss Haplocladium microphyllum at urban, rural and forested sites. Atmospheric Environment 44(34): 4312-4317.

[27]Liu, X., Xiao, H., Liu, C., Li, Y., Xiao, H., Wang, Y. 2010. Response of stable carbon isotope in epilithic mosses to atmospheric nitrogen deposition. Environmental Pollution 158(6): 2273-2281.

[28]Liu, X., Xiao, H., Liu, C., Xiao, H., Wang, Y. 2009. Assessment of atmospheric sulfur with the epilithic moss Haplocladium microphyllum: Evidences from tissue sulfur and δ34S analysis. Environmental Pollution 157(7): 2066-2071.

[29]Xiao, H. Y., Tang, C. G., Xiao, H. W., Liu, X. Y., Liu, C. Q. 2009. Identifying the change in atmospheric sulfur sources in China using isotopic ratios in mosses. Journal of Geophysical Research: Atmospheres 114(D16), doi:10.1029/2009JD012034.

[30]Xiao, H. Y., Tang, C. G., Liu, X. Y., Xiao, H. W., Liu, C. Q. 2008. Sulphur isotopic ratios in mosses indicating atmospheric sulphur sources in southern Chinese mountainous areas. Geophysical Research Letters 35(19), doi:10.1029/2008GL034255.

[31]Liu, X., Xiao, H., Liu, C., Li, Y., Xiao, H. 2008. Atmospheric transport of urban-derived NHx: Evidence from nitrogen concentration and δ15N in epilithic mosses at Guiyang, SW China. Environmental Pollution 156(3): 715-722.

[32]Liu, X., Xiao, H., Liu, C., Li, Y., Xiao, H. 2008. Stable carbon and nitrogen isotopes of the moss Haplocladium microphyllum in an urban and a background area (SW China): The role of environmental conditions and atmospheric nitrogen deposition. Atmospheric Environment 42(21): 5413-5423.

[33]Liu, X., Xiao, H., Liu, C., Li, Y., Xiao, H. 2008. Tissue N content and 15N natural abundance in epilithic mosses for indicating atmospheric N deposition in the Guiyang area, SW China. Applied Geochemistry 23(9): 2708-2715.

[34]宋晓飞,石荣贵,孙羚晏,肖红伟,龙爱民. 2014. 珠江口磨刀门盐水入侵的现状与成因分析. 海洋通报 33: 7-15.

[35]孙羚晏,龙爱民,肖红伟,宋晓飞. 2013. 磨刀门表层沉积物间隙水与上覆水之间的营养盐交换研究. 海洋环境科学 32: 911-915.

[36]刘莹, 赵楠, 罗京焰, 吴沿友, 肖红伟, 皇甫江云, 刘贵林. 2013. 贵州晴隆石漠化地区人工种草对土壤肥力及生产力的影响. 贵州农业科学 2: 127-130.

[37]王燕丽, 肖化云, 肖红伟. 2012. 法国梧桐叶片氮含量及氮同位素对城市大气湿沉降氮的响应研究. 环境科学 33(004): 1080-1085.

[38]王燕丽, 肖化云, 肖红伟, 朱仁果. 2012. 维管束植物桂花树叶片对大气氮沉降的吸收研究. 地球与环境 40(002): 148-153.

[39]刘学炎, 肖化云, 刘丛强, 李友谊, 肖红伟. 2009. 石生苔藓碳含量和碳同位素对城市地区人为二氧化碳和大气氮沉降变化的响应. 环境科学 30(1): 23-28.

[40]刘学炎, 肖化云, 刘丛强, 肖红伟. 2008. 贵阳地区主要大气氮源的沉降机制与分布: 基于石生苔藓氮含量和氮同位素的证据. 地球化学 37(5): 455-461.

[41]刘学炎, 肖化云, 刘丛强, 肖红伟. 2008. 生长条件对苔藓硫含量和硫同位素组成指示大气硫沉降的影响. 环境科学研究 21(5): 145-149.