姓名:田     单位:水利工程系   职称:副教授

简介:田菲,女1983年2月生,山东人;博士毕业于北京师范大学,新葡萄8883官网AMG引进“优秀人才”,副教授,博士生导师

研究方向:农业水信息精准感知与高效利用。

1. 卫星遥感在农业中的应用

2. 航空无人机遥感在精准农业信息监测中的应用

3. 区域农业耗水对变化环境的响应

学习经历

1. 2009.09—2012.06,北京师范大学,获理学博士学位

2. 2006.09—2009.06,中国科学院,获理学硕士学位

3. 2002.09—2006.06, 东大学,获理学学士学位

工作经历

1. 2016.04—今,新葡萄8883官网AMG,副教授

2. 2012.07—2016.03, 中国科学院生态环境研究中心,博士后

3. 2014.01--2015.12,澳大利亚联邦科学与工业研究组织(CSIRO),博士后

4. 2020.04-2020.10 国家自然科学基金委工程与材料学部水利学科 兼聘人员

学术兼职

美国地球物理联合会American Geophysical Union(AGU)会员,中国地理学会GSC)会员,担任国际SCI期刊Journal of Hydrology, Water Resources Management, IEEE Journal of Selected Topics in Applied Earth Observations and Remote SensingHydrology and Earth System Sciences等刊物的审稿人,《Frontiers in Environmental Science》专刊特邀主编。

科研项目

1. 基于多源遥感的灌区水生产力时空格局及其对变化环境的响应,国家自然科学基金面上基金,67.57万元,2022.01-2025.12.(52179049,主持)

2. 农业水效关键信息采集与多源融合重构,国家重点研发计划项目子课题,65万元,2022.07-2025.12(2022YFD1900504,主持)

3. 融合热成像-遥感的黑河中游绿洲耗水特征研究(国家自然科学基金-青年科学基金,41601015;2017-2019;20万),主持

4. 内陆河流域水文生态过程研究团队,中国科学院横向课题,20万元,2022.01-2024.12(xbzg-zdsys-202103,主持)

5. 基于卫星-无人机遥感平台的作物需水空间格局优化研究, 国家自然科学基金-国际(地区)合作与交流项目, 268万元,2020.01-2023.12 (51961125205, 骨干)

6. 节水灌溉效率与生境效应评价技术与方法,国家重点研发计划-重点专项,311万元,2016.01-2020.12(2016YFC0400107,骨干)

7. 绿洲水盐动态监测预报系统,国家重点研发计划-重点专项,244万元,2021.07-2025.12(2021YFD1900801-04,骨干)

8. 基于热成像遥感的石羊河流域作物耗水规律研究新葡萄8883官网AMG引进人才项目,50万元。2016-2018. (主持)

9. 中澳半干旱区生态系统碳水耦合与权衡及其对气候变化的响应(中澳合作项目GJHZ1502;2015-2017;200万),参与

10. 黄土高原生态系统承载力的空间格局及调控途径(国家自然科学基金-重大基金,41390464,2014-2018; 500万),参与

11. 植被格局与水文效应的耦合(博士后国际交流计划排出项目20130051; 2014-2016;30万),主持

12. 基于热成像-遥感技术的蒸散发及生态水文效应评价(中国博士后基金面上资助2012M520403,2012-2014,5万),主持

期刊论文

1. Lu S.H., Xuan J.J., Zhang T., Bai X.E., Tian F.*, Samuel O.F. Effect of the Shadow Pixels on Evapotranspiration Inversion of Vineyard: A High-Resolution UAV-Based and Ground-Based Remote Sensing Measurements. Remote Sensing, 2022, 14(9): 2259. (SCI)

2. Lu S.H., Zhang T., Tian F.*. Evaluation of crop water status and vegetation dynamics for alternate partial root-zone drip irrigation of alfalfa: observation with an UAV thermal infrared imagery. Frontiers in Environmental Science, 2022, DOI: 10.3389/fenvs.2022.791982 (SCI).

3. Hou M.J, Tian F.*, Samuel O.F., Camilo R.B., Zhang T., Lin A.W. Estimation of crop transpiration and its scale effect based on ground and UAV thermal infrared remote sensing images. European Journal of Agronomy, 2021, 131(9): 126389. (SCI)

4. Lu S.H, Tian F.*. Spatiotemporal variations of agricultural water use efficiency and its response to the Grain to Green Program during 1982-2015 in the Chinese Loess Plateau. Physics and Chemistry of the Earth, 2021, 121: 102975. (SCI)

5. Cao W.X., Qiao Z.Y., Gao Z.Y., Lu S.H., Tian F.*. Use of unmanned aerial vehicle imagery and a hybrid algorithm combining a watershed algorithm and adaptive threshold segmentation to extract wheat lodging. Physics and Chemistry of the Earth, 2021, 123: 103016. (SCI)

6. Tian F.*, Hou M.J., Qiu G.Y., Zhang T., Yuan Y.S. Salinity stress effects on transpiration and plant growth under different salinity soil levels based on thermal infrared remote (TIR) technique. Geoderma, 2020, 357:113961. (SCI)

7. Tian F. *,1, Zhang Y.1, Lu S.H. Spatial-temporal dynamics of cropland ecosystem water-use efficiency and its response to climate change and human activities in the Shiyang River Basin, northwestern China. Agricultural Water Management, 2020, 237. 106176. (SCI)

8. Tian F.*, Zhang Y. Spatiotemporal patterns of evapotranspiration, gross primary productivity, and water use efficiency in agroecosystems and their relation to the water-saving project in the Shiyang River Basin of Northwestern China. Computers and Electronics in Agriculture, 2020, 172: 105379. (SCI

9. Hou M.J., Tian F.*, Zhang L., Li S.N., Du T.S., Huang M.S., Yuan Y.S. Estimating crop Transpiration of soybean under different irrigation treatments using thermal infrared remote sensing imagery. Agronomy-Basel. 2019, 9(1), 8: 1-18. (SCI

10. Hou M.J., Tian F.*, Zhang T., Mengsi Huang. Evaluation of canopy temperature depression, transpiration and canopy greenness in relation to yield of soybean at reproductive stage based on remote sensing imagery. Agricultural Water Management, 2019, 182-192. (SCI)

11. Zhang T., Hou M.J., Liu L., Tian F.*. Estimation of transpiration and canopy cover of winter wheat under different fertilization levels using thermal infrared and visible imagery. Computers and Electronics in Agriculture, 2019, 165: 104936. (SCI)

12. Tian F.* Lv Y.H., Fu B.J., Zang C.F., Zhang L. Challenge of vegetation greening on water resources sustainability: insights from a modeling based analysis in northwest China. Hydrological Processes, 2017, 31(7): http://ir.rcees.ac.cn/handle/311016/38965. (SCI)

13. ian F., Feng X.M, Zhang L., Fu B.J., Wang S., Lv Y.H, Wang P. Effects of revegetation on soil moisture under different precipitation gradients in the Loess Plateau, China. Hydrology Research. 2017, 48 (5): 1378–1390. (SCI)

14. Tian F.* Lv Y.H., Fu B.J., Yang Y.H, Qiu G.Y., Zang C.F., Zhang L. 2015. Effects of ecological engineering on water balance under two different vegetation scenarios in the Qilian Mountain, northwestern China. Journal of Hydrology: Regional Studies, DOI: 10.1016/j.ejrh.2015.11.015.

15. Tian F., Qiu G.Y. *, Lv Y.H., Yang Y.H, Xiong Y.J. 2014. Use of high-resolution thermal infrared remote sensing and "three-temperature model" for transpiration monitoring in arid inland river basin. Journal of Hydrology, 515:307-315. (SCI)

16. Tian F., Qiu G.Y.*, Yang Y.H, Lv Y.H., Xiong Y.J. 2013. Estimation of evapotranspiration and its partition based on an extended three-temperature model and MODIS products. Journal of Hydrology, 498: 210-220.  (SCI)

17. Tian F., Qiu G.Y.*, Yang Y.H, Xiong Y.J., Wang P. 2012. Studies on the relationships between land surface temperature and environmental factors in an inland river catchment based on geographically weighted regression and MODIS data. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 99:1-12. (SCI)

18. Tian F., Yang Y.H*, Han S.M. 2010. Using runoff slope-break to determine dominate factors of runoff decline in Hutuo River Basin, North China. Water Science and Technology, 60 (8): 2135-2144. (SCI)

19. Tian F., Yang Y.H *, Han S.M, Juana P. Moiwo, Qiu G.Y. 2010. Determination of the period of major runoff decline and related driving factors in Ye River Basin, North China. Journal of Water and Climate change, 1(2):154-163.  (SCI)

20. Yang Y.H *, Tian F *. 2009. Abrupt change of runoff and its major driving factors in Haihe River Catchment, China. Journal of Hydrology, 374: 373-383.  (SCI)

21. Luis Morales-Salinas, Samuel Ortega-Farias, Camilo Riveros-Burgos, Jose Luis ChaveZ, Sufen Wang, Feitian, et al. Assessment of atmospheric emissivity models for clear-sky conditions with reanalysis data. 2022, DOI:  10.21203/rs.3.rs-2294837/v1. (SCI,preprint)

22. C.Riveros-Burgos, S.Ortega-Farias, L.Morales-Salinas, F.GUENTES-Penailillo, Fei Tian. Assessment of the clumped model to estimate olive orchard evapotranspiration using meteorological data and UAV-based thermal infrared imagery. Irrigation Science, 2021, 39:63-80. (SCI)

22. Liu Y., Samuel Ortega-Farias, Tian F, Wang S.F., Li S.E. Estimation of Surface and Near-Surface Air Temperatures in Arid Northwest China Using Landsat Satellite Images. Frontiers in Environmental Science, 2021, 9:791336.DOI: 10.3389/fenvs.2021.791336 (SCI)

23. Xiong Y.J, Zhao S.H., Tian F, Qiu G.Y. An evapotranspiration product for arid regions based on the three-temperature model and thermal remote sensing. Journal of Hydrology, DOI: 10.1016/j.jhydrol.2015.09.050. (SCI)

24. Jing Fan, Fei Tian, Yonghui Yang*, Shumin Han, and Guoyu Qiu. 2010. Quantifying the magnitude of the impact of climate change and human activity on runoff decline in Mian River Basin, China. Water Science and Technology, 62(4): 783-791. (SCI)

25.  Guoyu Qiu*, Jing Yin, Fei Tian, Shu Geng. 2011. Effects of the “Conversion of cropland to forest and grassland program” on the water budget of the Jinghe River Catchment in China. Journal of Environmental Quality, 40: 1-11. (SCI)

26.  Guoyu Qiu*, Fang Xie, Youcan Feng, Fei Tian. 2011. Experimental studies on the effects of the "Conversion of Cropland to Grassland Program" on the water budget and evapotranspiration in a semi-arid steppe in Inner Mongolia, China. Journal of Hydrology, 411(1-2): 120-129. (SCI)

27.  Xinyao Zhou, Shaojie Bi, Yonghui Yang, Fei Tian, Dandan Ren. Comparison of ET estimations by the three-temperature model, SEBAL model and eddy covariance observations. Journal of Hydrology, 519: 769-776. (SCI)

28.  Yujiu Xiong, Guoyu Qiu, Xiaohong Chen, Shaohua Zhao, Fei Tian. 2012. Estimation of evapotranspiration using three-temperature model based on MODIS data. Journal of Remote Sensing, 16(5): 965-985. (SCI)

获奖情况:

2022年,第八届全国水利类专业青年教师讲课比赛“一等奖”。

2021年,国家科技部农业节水科技奖一等奖,本人排序6/9。

2020年,新葡萄8883官网AMG本科生优秀百篇毕业论文指导教师奖。

教学情况:

独立承担本科生课程《水利信息化技术》和研究生课程《水文遥感》。同时参与承担其他研究生课程:《水文模型与软件应用》《农业水土工程研究进展》《水资源与水利水电工程研究专题》等。

联系方式

地址:北京市海淀区清华东路17号

邮编100083

Email: feitian@cau.edu.cn; tfxuan@126.com