基本介绍

教授,博士,中山大学“百人计划二期”引进人才。2001年毕业于中国科学院地理科学与资源环境研究所获理学博士学位;2008年於美国俄勒冈大学获第二个理学博士学位。2008至2010在美国佛蒙特大学植被生物系从事博士后研究。回国前,在美国内华达沙漠研究所地球与生态系统科学部做助理研究教授。研究兴趣主要包括:1)流域水循环与水环境;2)全球变化下陆地生态系统过程与机理分析;和 3)基于观测数据的环境变化诊断分析。研究成果(第一作者)曾发表在Global Ecology and Biogeography, Global Biogeochemical Cycles, Biogeosciences, Diversity and Distribution, Journal of Geophysical Research, Hydrology and Earth System Sciences,Journal of Hydrology, Climatic Change, Ecohydrology, Ecosphere, Progress in Physical Geography等SCI刊物上。

合作领域:热烈欢迎对生态水文过程观测与模拟、生态系统与全球变化、遥感数据应用与分析等感兴趣的博士后专职科研人员来中山大学合作!

招生方向:水文循环与水环境、生态水文、陆地生态系统过程、遥感数据应用与分析

 

社会任职

中山大学土地中心 主任

中国自然资源学会资源工程专委会  副主任

中国自然地理学专业委员会  委员

广东省党外知识分子联谊会  常务理事

 

人才招聘:团队欢迎海内外在陆地生态系统生态学,生态水文学,碳氮循环、水文模拟、遥感数据应用等方向感兴趣的青年才俊以博士后、专职科研人员身份加入。联系方式:tanggp3@mail.sysu.edu.cn 或 01-86-18824109677。

 

研究方向

1.流域水循环与水环境:研究流域尺度上水循环过程及其溶解物质形成、迁移和对水质的影响。研究方法上(i)强调把野外观测试验、采样和实验室分析整合起来精确地量化陆地水循环过程和溶解物质的形成、迁移及其对水质的影响;和(ii)借助分布式生态水文模型探讨流域尺度上水文循环过程和水环境,陆地生态过程与水文过程间的联系和反馈。

2. 全球变化与陆地生态系统:研究环境变化下陆地生态系统结构(如气温升高造成的植被结构、植物种组成及其植被空间分布变化)、功能(如陆地生态系统与大气间的碳和水汽交换、植被的生长)和地球生物化学过程(如土壤有机物的微生物降解、自养呼吸、陆源营养物的形成、迁移和转化等)。研究方法上强调(i)通过野外观测实验精确分析环境变化下陆地生态系统的动态及其机理;和(ii)发展、利用分布式模型对样地观测结果进行升尺度来定量探讨区域/全球尺度上生态系统的过程及其空间模式。

3.遥感数据分析与应用:基于遥感卫星数据、野外观测数据(如气象站点数据)分析区域(流域)尺度上的环境变迁如极端气温和降水的时空分布特征、时间序列陆地植被的绿度和物候变化、河流径流的趋势分析和这些变化之间的相互关联。研究方法上强调(i)数理统计方法(如回归、REOF等)的应用;和(ii)利用R统计语言进行空间数据诊断分析和制图。

学历背景

2001.09 至 2008.08:美国俄勒冈大学地理系,博士;博士导师:Prof. Patrick J. Bartlein

1998.09 至 2001.07:中国科学院地理科学与自然资源研究所,博士; 博士导师:刘燕华、李秀彬  研究员

1995.09 至 1998.07:北京师范大学环境科学研究院,硕士;硕士导师:杨志峰 教授 院士

1989.09 至 1993.07:湖南师范大学地理系,学士

工作经历

2015.03 至今:中山大学地理科学与规划学院水资源与环境系,教授

2011.09 至 2015.02:美国内华达沙漠研究所地球与生态科学部,助理研究教授

2010.09 至 2011.08:美国纽约城市大学亨特学院,助理研究员

2008.09 至 2010.08:美国佛蒙特大学植被生物系,博士后;指导老师:Prof. Brian D. Beckage

讲授课程

研究生课程:数据分析与可视化(R)

本科生课程:陆地生态系统生态学(Principles of Terrestrial Ecosystem Ecology),水文学原理(Fundamentals of Hydrology),生态水文学(Ecohydrology),C/C++程序设计

论著专利

近几年主要学术论文:

2023年:

  1. Chen, T.; Tang, G.*; Yuan, Y.; Xu, Z.; Jiang, N. Disentangling the Key Drivers of Ecosystem Water-Use Efficiency in China’s Subtropical Forests Using an Improved Remote-Sensing-Driven Analytical Model. Remote Sensing. 202315, 2441. https://doi.org/10.3390/rs15092441.
  2. Ablat, X.; Huang, C.; Tang, G.*; Erkin, N.; Sawut, R. Modeling Soil CO2 Efflux in a Subtropical Forest by Combining Fused Remote Sensing Images with Linear Mixed Effect Models. Remote Sensing. 202315, 1415. https://doi.org/10.3390/rs15051415.
  3. Wang, Z., Zhang, Y., Govers, G., Tang, G., Quine, T.A., Qiu, J., Navas, A., Fang, H., Tan, Q., Van Oost, K. Temperature effect on erosion-induced disturbances to soil organic carbon cycling. Nature Climate Change, 2023, 13, 174–181. https://doi.org/10.1038/s41558-022-01562-8. 
  4. Muattar Saydi, Guoping Tang*, Jianli Ding, Zhengang Wang. Snow depth alteration and its relation with climate variability in China. International Journal of Climatology, 2023, 43, 2623-2646. https://doi.org/10.1002/joc.7993.
  5. 余洋波,唐国平*,等. 土地利用和气候变化对流溪河水库流域径流的影响. 水土保持研究. 2023,30(06): 32-39,48.
  6. Nan Jiang, Guoping Tang*, Tao Chen, Xiangyu Niu, Yangbo Yu, Yi Li, 2023. A global analysis on the relationship between water retention time and dissolved carbon across inland waters. Aquatic Sciences, 85(4), 1-12.

2022年:

  1. 牛香豫,唐国平*,顾慧,陈桃,陈晓桦.流溪河水库流域碳氮营养盐浓度的时空变化特征及其影响因素[J].水土保持学报,2022,36(02):352-360. DOI:10.13870/j.cnki.stbcxb.2022.02.045.
  2. Zhenwu Xu, Lin Sun, Guoping Tang*, Xiaohua Chen, Xiangyu Niu, Yi Li, and Yangbo Yu, 2022. Do model results vary under different routing algorithms based on a distributed ecohydrological model? Journal of Hydrometeorology, DOI: https://doi.org/10.1175/JHM-D-21-0251.1.
  3. Chen Xiaohua, Guoping Tang*, Tao Chen, Xiangyu Niu, 2022. An Assessment of the Impacts of Snowmelt Rate and Continuity Shifts on Streamflow Dynamics in Three Alpine Watersheds in the Western U.S. Water, 14(7):1095. DOI: 10.3390/w14071095
  4. Xarapat Ablat, Qi Wang, Nurmemet Arkin, Guoping Tang*, Rukeya Sawut, 2022. Spatiotemporal variations and underlying mechanism of the floodplain wetlands in the meandering Yellow River in arid and semi-arid regions. Ecological Indicators, 136: 108709, https://doi.org/10.1016/j.ecolind.2022.108709.

2021年:

  1. Tao Chen, Zhenwu Xu, Guoping Tang*; Xiaohua Chen, Hong Fang, Hao Guo, Ye Yuan, Guoxiong Zheng, Liangliang Jiang, Xiangyu Niu, (2021). Spatiotemporal Monitoring of Soil CO2 Efflux in a Subtropical Forest during the Dry Season Based on Field Observations and Remote Sensing Imagery. Remote Sensing. 13, 3481. https://doi.org/10.3390/rs13173481. (IF = 4.848)

  2. Zhenwu Xu, Guoping Tang*, Tao Jiang, Xiaohua Chen, Tao Chen, Xiangyu Niu, (2021). An automatic partition-based parallel algorithm for grid-based distributed hydrological models. Environmental Modelling and Software, 144(2021):105142(1-15). https://doi.org/10.1016/j.envsoft.2021.105142.(IF = 5.288)

  3. Muzhen Yang, Guoping Tang*, Jiang Tao, Tao Chen, Xiaohua Chen, (2021). The regular pattern and underlying mechanisms of seawater intrusion in the Modaomen channel in the Pearl River Estuary of China. Environmental Science and Pollution Research, 1-15. Https://doi.org/10.1007/s11356-021-14942-y.(IF = 4.223)

  4. Muattar Saydi, Guoping Tang*, Yan Qin, Hong Fang,  Xiaohua Chen, (2021). Evaluation of Phase discrimination methods and snow fraction perturbations in arid regions of northwest China. Journal of Hydrometeorology, 22(2): 353-369. https://doi.org/10.1175/JHM-D-20-0118.1. (IF = 4.349)

  5. Zhenhuan Liu, Qiandu Huang, Guoping Tang*, (2021). Identification of urban flight corridors for migratory birds in the coastal regions of Shenzhen city based on three dimensional landscape. Landscape Ecology, 36: 2043-2057. https://doi.org/10.1007/s1090-020-010326. (IF = 3.848)

2020年:

  1. Guoping Tang*, Muzhen Yang, Xiahong Chen, Tao Jiang, Tao Chen, Xiaohua Chen, Hong Fang, (2020). A new idea for predicting and managing seawater intrusion in coastal channels of the pearl river, china. Journal of Hydrology,590, 125454:https://doi.org/10.1016/j.jhydrol.2020.125454. (IF = 5.722, 中科院一区 TOP)

  2. Tao Chen, Guoping Tang*, Ye Yuan, Hao Guo, Zhenwu Xu, Guo Jiang, Xiaohua Chen, (2020). Unraveling the relative impacts of climate change and human activities on grassland productivity in Central Asia over last three decades. Science of the Total Environment,743,140649:1-13. https://doi. org/10.1016/j.scitotenv.2020.140649. (IF = 7.963, 中科院一区 TOP)

  3. 顾慧, 唐国平*, 江涛. 模型驱动数据空间分辨率对模拟生态水文过程的影响[J]. 地理研究, 2020, 39(06): 1255-1268. (中科院T1区)

  4. 顾慧, 唐国平*, 江涛, 方宏, 唐纤蕴, 陈晓桦. 广东省1992-2015年土地覆被变化的时空差异及其成因[J]. 水土保持通报, 2020, 40(02): 291-298.

2015-2019年:

  1. Guoping Tang*, Shuping Li, Muzhen Yang, Zhenwu Xu, Yonglin Liu, Hui Gu. Streamflow response to climate variability-associated shifts in snow regime in four mountain watersheds in the US Great Basin. Journal of Hydrology,573(2019):255-266 (SCI, IF=3.727).

  2. Yuzhen Wu, Guoping Tang*, Hui Gu, Yongling Liu, Muzhen Yang, Lin Sun. The variation of vegetation greenness and underlying mechanisms in Guangdong province of China during 2001-2013 based on MODIS data. Science of the Total Environment. 2019, 653(2019), 536-546. DOI:10.1016/J.SCITOTENV.2018.10.380. (SCI, IF=4.610,2018)

  3. Yonging Liu, Guoping Tang*, Liqiao Wu, Yuzhen Wu, Muzhen Yang. Variations in reference evapotranspiration and associated driving forces in the Pearl River Delta of China during 1960-2016. Journal of the Meteorological Society of Japan. 2019, Inpress,DOI:10.2151/JMSJ.2019-027. (SCI, IF=5.023, 2018)

  4. 孙琳,唐国平,窦乙峰,刘永林,吴裕珍. 东江流域2001-2013年土地利用/覆被类型变化的时空特征及成因. 水土保持通报,2018,38(3):293-306.

  5. Tingting Xue, Guoping Tang*, Sun Lin, Wu Yuzhen, Liu Yonglin, Dou Yifeng. (2017). Long-term trends in precipitation and precipitation extremes and underlying mechanisms in the US Great Basin during 1951-2013. Journal of Geophysical Research--Atmosphere, 122, 6152-6169. doi: 10.1002/2017JD026682. (SCI, IF=3.318)

  6. Guoping Tang*, Rosemary W.H., Lutz A., and Sun L. (2016) Regulation of precipitation-associated vegetation dynamics on catchment water balance in a semiarid and arid mountainous watershed. Ecohydrology, 9, 1248-1262. (SCI, IF=2.426).

  7. Tang  G., Arnone III J.A., Verburg P.S.J., Jasoni R., and Sun L. (2015) Trend and climatic sensitivity of vegetation phenology in semiarid and arid ecosystems in the US Great Basin during 1982-2011. Biogeosciences,12,6985-6997. 2015. DOI:10.5194/BG-12-6985-2015, (SCI, IF=3.978).

2014年前:

  1. Tang G., Hwang T., and Pradhanang S.M. (2014) Does consideration of water routing affect simulated water and carbon dynamics in terrestrial ecosystems? Hydrology and Earth System Sciences, 18,1-15. DOI:10.5194/hess-18-1-2014. (SCI, IF=3.642).

  2. Tang G., Beckage B., and Smith B (2014) Potential future dynamics of carbon fluxes and pools in New England forests and their climatic sensitivities: a model-based study”. Global Biogeochemical Cycles, 28, 1-14. DOI:10.1002/2013GB004656. (SCI, IF=4.528).

  3. Tang G., and J. Arnone III (2013) Trends in surface air temperature and temperature extremes in the Great Basin during the 20th century from ground-based observations. Journal of Geophysical Research–Atmosphere,118,3579–3589, doi:10.1002/jgrd.50360, 2013. (SCI, IF=3.44).

  4. Tang  G., and Bartlein PJ (2012) Modifying a global dynamic vegetation model for simulating large-spatial scale land surface water balances.Hydrology and Earth System Sciences, 16, 2547-2565. (SCI, IF=3.642).

  5. Tang G., Beckage B, and Smith B (2012) The potential transient dynamics of forests in New England under historical and projected future climate change. Climatic Change, 114(2), 357-377. (SCI, IF=4.622).

  6. Tang G.,Beckage B, Smith B, and Miller PA (2010) Estimating potential forest NPP and biomass and their climatic sensitivity in New England using a regional dynamic ecosystem model. Ecosphere, 1(6), 1-20. (SCI, IF=2.595).

  7. Tang G., and Beckage B (2010) Projecting the distribution of forests in New England in response to climate change. Diversity and Distribution, 16, 144-158. (SCI, IF=5.469).

  8. Tang G., Shafer SL, Bartlein PJ, and Holman J. (2009) Effects of experimental protocol on the evaluation of global vegetation model accuracy: a comparison of simulated and observed vegetation patterns for Asia. Ecological Modelling, 220(2009), 1481-1491. (SCI, IF=2.326).

  9. Tang G., and Bartlein PJ (2008) Simulating the climatic effects on vegetation: approaches, issues and challenges. Progress in Physical Geography, 32(5), 543-556. (SCI, IF=3.885).

  10. Tang  G. (2008) A new metric for evaluating the correspondence of spatial patterns in vegetation models. Global Ecology and Biogeography,17, 465-478. (SCI, IF=7.242).

  11. 唐国平,李秀彬,Guenther Fischer, Sylvia Prieler. (2000) 气候变化对中国农业的影响. 地理学报,55(2):129-138.

  12. 唐国平,杨志峰.(2000)密云水库水环境人口容量优化分析.环境科学学报,20(2):225-229。

  13. 唐国平,李秀彬,刘燕华. (2000) 全球气候变化下水资源脆弱性及其评估方法.地球科学进展,15(3):313-317.

 

科研项目

  • 2023.01 - 2025.12:广东省科技厅2023 年度平台基地及科技基础条件建设项目“粤北岩溶区碳水耦合野外科学观测研究站” (直接经费: 300万元),项目负责人.
  • 2023.01 - 2025.12:广东省自然科学基金面上项目“河流生态流量精细化估算技术及应用” (NO: 2023A1515012069, 直接经费: 10万元),项目负责人.
  • 2022.01 - 2025.12:中国国家自然科学基金面上项目“华南湿热区河流源区土-气界面和水-气界面碳通量动态及联系机理” (No. 42171025,直接经费: 59万元),项目负责人.
  • 2017.07 - 2020.12:科技部“珠江流域水资源多目标调度技术与应用” 重点研发项目(负责人:陈晓宏)子课题《珠江三角洲咸潮上溯的水资源系统响应规律》(直接经费:27万),子课题负责人.
  • 2017.01 - 2018.12:中山大学重大项目和前沿新兴交叉学科培育资助项目“气候变化和人类活动对我国湿热地区陆地生态系统结构和碳通量的影响”(直接经费:30万元),项目负责人.
  • 2017.01 - 2019.12:广州市科技计划项目“分析陆地植被对流溪河径流和水体溶解有机氮浓度的调控”(直接经费:20万元),项目负责人.
  • 2017.01 - 2020.12:中国国家自然科学基金面上项目“气候变化与土地利用对东江流域河流碳氮营养物浓度的影响” (No. 41671192,直接经费: 70万元),项目负责人.
  • 2015.03 - 2017.07:中山大学第二期百人计划启动项目(直接经费:50万元),项目负责人.
  • 2014.07 - 2015.10:DRI Institute Project Assignment:“Improving a process-based hydro-ecological model for promoting collaborative research and fund raising of faculties at the DRI”。负责人,$9,978.
  • 2014.02 - 2015.2: 美国内华达Lander Endowment Project:“Effects of climate change and variability on the Walker River hydrology and their implications for Native Americans in the Walker River Indian Reservation”。负责人,$30,200.
  • 2013.09 - 2014.09:美国内政部项目:“Linking climatic, hydrological, and ecological changes at intermediate timescales in a Great Basin watershed”。共同负责人,$187,432.
  • 2011.09 - 2013.10:美国国家自然科学基金项目(NSF‐EPSCoR):“NevadaInfrastructure for Climate Change Science, Education and Outreach”,项目参与者。 负责人: Dr. Gayle L. Dana.

其他

学术组织会员

中国地理学会、美国地球物理协会,美国生态协会,美国地理协会

已毕业和在读学生

已毕业学生:

1.2016级-硕-孙琳 (毕业去向:北京水利水电科学研究所)

2. 2016级-硕-窦乙峰 (毕业去向:河南水利勘测设计研究有限公司)

3. 2016级-博-吴裕珍(毕业去向:岭南师范学院讲师)

4. 2016级-博-刘永林(毕业去向:东莞市自然资源局)

5. 2017级-硕-顾慧 (毕业去向:湖南长沙市水旱灾害防御中心)

6. 2017级-硕-杨牧臻(毕业去向:Texas A&M University博士在读)

7. 2017级-硕-李庶平(毕业去向:东京大学博士在读)

8. 2017级-硕-许振武(毕业去向:中国科学院大学、中国科学院地理科学与资源研究所博士在读)

9. 2018级-硕-唐纤蕴(毕业去向:深圳市公务员)

10. 2019级-硕-陈晓桦(毕业去向:中山大学科学研究院)

11. 2019级-博-陈桃(毕业去向:贵州大学特聘教授)

12. 2020级-硕-牛香豫(毕业去向:苏州大学组织部)

在读学生:

1. 2021级-硕-余洋波

2. 2021级-硕-黎毅

3. 2022级-博-江南

4. 2022级-硕-张文雅

5. 2022级-硕-方旭鹏

6. 2023级-博-陈厚兵

7. 2023级-硕-肖成宇

8. 2023级-硕-任中凯

9. 2024级-硕-李小彬

10. 2024级-硕-李煜祺