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南京农业大学资源与环境科学学院导师教师师资介绍简介-高翔
/2021-03-27
个人简历
高翔,副教授,硕士生导师。主要研究方向及专长:农业非点源污染模拟及控制;流域尺度多界面氮流失过程(土-气、水-气界面温室气体排放)及其对环境变化(气候与土地利用)的响应;环境遥感与地理信息系统开发及应
用:基于多源遥感的地表关键参数反演及温室气体排放监测等。
邮 箱:gaoxiang@njau.edu.cn; https://www.researchgate.net/profile/Xiang_Gao72
一、教育经历
(1) 2014 年 9 月-2018 年 7 月,北京师范大学,环境科学与工程专业,研究生毕业获博士学位;
(2) 2013 年 6 月-2014 年 8 月,中国农业科学院农业环境与可持续发展研究所,环境科学专业,联合培养;
(3) 2011 年 9 月-2014 年 7 月,贵州师范大学,环境科学专业,研究生毕业获硕士学位。
二、工作经历
(1) 2020 年 8 月-至今,南京农业大学资源与环境科学学院,副教授;
(2) 2018 年 7 月-2020 年 8 月,北京师范大学,地理学博士后,助理研究员。
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三、 期刊审稿
(1) Science of the Total Environment;
(2) International Soil and Water Conservation Research四、 主持及参与项目
(1) 国家自然科学基金青年项目,41907312,中高纬冻融区河流 N2O 响应陆面非点源氮污染输出的模拟研究,2020.01-2022.12,25万元,在研,主持;
(2) 北京师范大学流域环境生态工程研发中心(珠海)博士后启动项目,20190425,图们江流域面源气态氮排放时空特征研究, 2019.04-2020.12,14 万元,在研,主持;
(3) 第二次全国污染源普查“农业源污染物入水体系数及负荷核算”项目--松花江区第一亚区农业源污染物入水体系数及负荷核算,2019.4-2019.12,35 万元,结题,第二主持人;
(4) 国家自然科学基金重大研究计划项目,91647105,澜沧江流域氮磷流失垂向分布特征及梯级水库累积滞留效应研究, 2017.01-2019.12,88.68 万元,结题,参加;
(5) 国家重点研发计划课题,2016YFD0800503,稻田精准控水扩容技术研究,2016.1-2020.12,304 万元,在研,参与.
(6) 北京师范大学自主科研基金资助项目,2017STUD15,气候变化下中高纬区农田空间分布响应研究,2017.01-2017.12,5 万元,结题,主持;
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五、模型与环境信息系统开发
(1) SWAT-N2Osoil Coupler: 基于 SWAT 模型的土-气界面 N2O 排放估算模型;
(2) SWAT-FN2O: 基于 SWAT 模型的河流水-气界面 N2O 排放估算模型;
(3) HGLCM:基于SWAT 模型的气候-土地利用格局响应模型;
(4) 基于多源遥感的高效提取地表水体、水文水质反演以及 N2O排放监测为一体的综合模拟系统平台。
六、发表论文
(1) Gao, Xiang; Ouyang, Wei*; Lin, Chunye; Wang, Kaicun; Hao, Fanghua; Hao, Xin; Lian, Zhongmin,
Considering atmospheric N2O dynamic in SWAT model avoids the overestimation of N2O emissions in
river networks, Water Research, 2020, 143(4): 115624.
(2) Gao, Xiang; Ouyang, Wei*; Hao, Zengchao; Xie, Xianhong; Lian, Zhongmin; Hao, Xin, SWAT-N2O
coupler: An integration tool for soil N2O emission modeling, Environmental Modelling and Software,
2019.2.7, 115(5): 86~97.
(3) Gao, Xiang; Ouyang, Wei*; Hao, Zengchao; Shi, Yandan; Wei, Peng; Hao, Fanghua,
Farmland-atmosphere feedbacks amplify decreases in diffuse nitrogen pollution in a
freeze-thaw agricultural area under climate warming conditions, Science of the Total
Environment, 2017.02.1, 579: 484~494.
(4) Ouyang, Wei*; Gao, Xiang; Hao, Zengchao; Shi, Yandan; Hao, Fanghua; Liu, Hongbin, Farmland
shift due to climate warming and impacts on temporal-spatial distributions of water
resources in a middle-high latitude agricultural watershed, Journal of Hydrology, 2017.04,
547: 156~167.
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(5) Ouyang, Wei; Gao, Xiang; Wei, Peng; Gao, Bing; Lin, Chunye; Hao, Fanghua*, A
review of diffuse pollution modeling and associated implications for watershed management
in China, Journal of Soils and Sediments, 2017.06, 17(6): 1527~1536.
(6) Ouyang, W. , Wei, P. , Gao, Xiang, Srinivasan, R. , & Liu, H. . (2020).
Optimization of swat-paddy for modeling hydrology and diffuse pollution of large rice
paddy fields. Environmental Modelling and Software, 130, 104736.
(7) Peng Wei, Wei Ouyang*, Xiang Gao, Fanghua Hao. Modified control strategies for
criticalvsource area of nitrogen (CSAN) in a typical freeze-thaw watershed. Journal of
Hydrology 551 (2017) 518–531.
(8) Peng Wei, Wei Ouyang*, Fanghua Hao, Xiang Gao, Yongyong Yu, Combined impacts
of precipitation and temperature on diffuse phosphorus pollution loading and critical source
area identification in a freeze thaw area, Science of the Total Environment 553 (2016)
607–616.
(9) Wei Ouyang, Xueting Xu, Zengchao Hao, Xiang Gao. Effects of soil moisture content on
upland nitrogen loss. Journal of Hydrology, 2017, 546(3):71–80.
(10) Wei Ouyang, W Yang, M Tysklind, Y Xu, C Lin, Xiang Gao, Z Hao. Using river sediments to
analyze the driving force difference for non-point source pollution dynamics between two scales of
watersheds. Water research, 2018, 139: 311-320.
(11) Wei, Ouyang, Yi, Xu, Jiaqi, Cao, Xiang, Gao., et al. (2018). Rainwater
characteristics and interaction with atmospheric particle matter transportation
analyzed by remote sensing around beijing. Science of the Total Environment.
(12) Ouyang, W. , Hao, F. , Shi, Y. , Gao, X. , Gu, X. , & Lian, Z. . (2018). Predictive
ability of climate change with the automated statistical downscaling method in a
freeze–thaw agricultural area. Climate Dynamics.
(13) Cui, X. , Guo, X. , Wang, Y. , Wang, X. , Zhu, W. , Shi, J. , Lin C, Gao, X. (2019).
Application of remote sensing to water environmental processes under a changing climate.
Journal of Hydrology.
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(14) 高翔, 蔡雄飞, 王济*, & 胡国锋. 喀斯特小流域分布式土壤侵蚀估算模型研究[J]. 山地学报,2013 (5),542-547.
(15) 高翔,蔡雄飞,王济*,戴凌骏,穆悦. 贵州典型矿区 10 年景观格局变化及驱动力分析[J]. 环境科学与技术, 2013(11), 168-174.
(16) 高翔,蔡雄飞,王济*,胡国锋. 喀斯特地貌不同坡度下土壤侵蚀经验模型研究. 2013, 41(7): 111-115.
七、国际会议学术报告
(1) Xiang Gao, Wei Ouyang, Chunye Lin, Kaicun Wang, Fanghua Hao, Xin Hao, Zhongmin
Lian. Diffuse nitrogen load-integrated riverine gaseous nitrogen emissions modeling in
a middle-high agricultural watershed. 2019 American Geophysical Union (AGU) Fall Meeting,
2019.12.9-12.13 (Oral Presentation).
(2) Xiang Gao, Ouyang, Wei. Diffuse pollution control from paddy field based on the efficient use
of water resource, The 2nd International Conference on Non-point Source Pollution Control
and Aquatic Ecosystem Protection, Wuhan, 2019.9.19-2019.9.22. (Oral
Presentation).
(3) Xiang Gao; Ouyang, Wei; Lin, Chunye; He, Mengchang; Hao, Xin; Gu, Xiang; Wang,
Yidi, Climate-induced the land use and hydrology interaction in a high-middle latitude
agricultural watershed, 2018 American Geophysical Union (AGU) Fall Meeting, Walter E.
Washington Convention Center, Which is located at 801 Mount Vernon Place, NW,
Washington,2018.12.10-12.14 (Oral Presentation).
八、在审专利
高翔; 欧阳威 ; 王雪蕾; 连仲民; 郝新; 林春野,一种农田土壤氧化亚氮温室气体排放估算方法及装置,2018.9.21,中国,CN108564246A;
高翔 ; 欧阳威 ; 王雪蕾; 何孟常; 张璇; 连仲民; 郝新, 基于 “SWAT+WebGIS”服务的农业面源污染大数据集成与管理系统,2018.9.11,中国, CN108519992A;
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欧阳威 ; 杨博文; 高翔; 郝新; 魏鹏.一种基于空间遥感技术的流域氮磷污染评估方法, 2018.10.12, 中国, CN201810353437;
欧阳威 ; 郝新; 林春野; 连仲民; 高翔; 魏鹏,基于非点源氮磷流失风险对流域水环境安全评估的方法, 2018.3.1, 中国, CN201810172021.
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