朱高峯

1. 2005年-2008年：蘭州大學數學與統計學院，應用數學專業，研究生/博士；

2. 2002年-2005年：蘭州大學資源環境學院，水文與水資源工程專業，研究生/碩士；

3. 1998年-2002年：蘭州大學資源環境學院，水文地質與工程地質專業，本科生/學士； ^[2] 

2016年-至今 ：蘭州大學，資源環境學院，教授

2015年-至今 ：蘭州大學，資源環境學院，博士生導師；

2015年-2016年：蘭州大學，資源環境學院，副教授；

2011年-2015年：蘭州大學，西部環境與氣候變化研究院，副教授；

2009年-2011年：中國科學院寒區旱區環境與工程研究所，博士後；

2010年-2011年：蘭州交通大學，數理與軟件工程學院，副教授；

2008年-2010年：蘭州交通大學，數理與軟件工程學院，講師； ^[2] 

陸面過程；數據-模型融合方法；水文遙感。

非線性地學數學模型。

中國自然資源學會幹旱半乾旱區資源研究專業委員會委員、秘書長；

甘肅省遙感學會委員。 ^[2] 

1. 發展了簡單陸地水文循環過程模型（SiTH），實現了關鍵水文變量的模擬；

2. 結合演化算法和順序蒙特卡羅算法，提出水文模型高維參數估計的新方法--粒子演化順序蒙特卡羅方法。該成果發表在Advances in Water Resources;

3. 發展了基於多源數據進行水文模型參數估計的貝葉斯方法，該方法可有效克服水文模型“異參同效性”問題，為降低模型參數不確定性和識別模型的結構誤差提供了研究框架。該成果發表在Geoscientific Model Development上；

4.利用遺傳算法在求解優化問題具有魯棒性和全局性的優點，提出基於遺傳算法的Farquhar光合模型參數估計的同步方法。結果表明：該方法較傳統的最小二乘方法具有精度高、解的生物學意義明顯的優點；

5. 建立了乾旱區典型植被胡楊的光合作用-氣孔導度-蒸騰作用耦合模型。利用Farquhar等（1980）光合模型和Ball等（1987）氣孔導度模型，建立了胡楊葉片光合作用-氣孔導度-蒸騰作用耦合模型，發現Ball等氣孔導度模型在乾旱區水分虧缺條件下，對蒸騰速率模擬結果偏低；因而，在乾旱區應用Ball氣孔導度模型需要考慮水分虧缺對植被氣孔運動的影響。 ^[2] 

2011年，教育部“新世紀人才”；

2015年，指導碩士研究生論文獲得甘肅省優秀碩士論文； ^[2] 

1. 2018年-2021年，國家自然基金面上項目“極端乾旱綠洲農田生態系統土壤-植被-大氣連續體水分傳輸機制與模擬研究”（41871078），主持，經費70萬元；

2. 2018年-2021年，國家重點研發計劃環盆山地雲水資源高效利用與水源涵養功能提升技術，第二課題“高寒內陸盆地水循環全過程高效利用與生態保護技術”負責人，經費280萬元；

3. 2016年-2019年，國家自然基金面上項目“乾旱灌叢生態系統蒸散發的生物、物理控制機制與模型研究”（41571016），主持，經費70萬元；

4. 2016年-2020年，國家重點研發計劃重點專項“基於多源數據融合的生態系統評估技術及其應用研究”（2016YFC0500203），子課題負責人，經費55萬元。 ^[2] 

1. Zhu, G. F, Zhang, K.,Chen, H.L., Wang, Y.Q., Su, Y.H., Zhang, Y., Ma, J.Z., Development and evaluation of a simple hydrologically based model for terrestrial evapotranspiration simulations. Journal of Hydrology, 2019, https://doi.org/10.1016/j.jhydrol.2019.123928.

2.Wang X.F., Xiao J.F., Li X., Cheng G.D., Ma M.G., Zhu G.F., Arain, M. A., Black, T. A., Jassal, R. S. No trends in spring and autumn phenology during the global warming hiatus. Nature Communications, 2019, https://doi.org/10.1038/s41467-019-10235-8.

3. Zhang K., Zhu G.F., Ma J.Z., Yang Y.T., Shang S.S., Gu C.J. Parameter Analysis and Estimates for the MODIS Evapotranspiration Algorithm and Multiscale Verification. Water Resource Research, 55, https://doi.org/10.1029/2018WR023485, 2019. (SCI 1區，IF=4.36)

4. Wang S.T., Zhu G. F.*, Xia D. S., Ma J. Z., Han T., Ma T., Zhang K., Shang S. S. The characteristics of evapotranspiration and crop coefficients of an irrigated vineyard in arid Northwest China. Agricultural Water Management, 212, 388-398, 2019. (SCI 2區，IF=3.182)

5. Su Y.H., Feng Q., Zhu G.F.*, Gu C.J., Wang Y.Q., Shang S.S., Zhang K., Han T., Chen H.L., Ma J. Z. A hierarchical Bayesian approach for multi‐site optimization of a satellite‐based evapotranspiration model. Hydrological Processes, 32, 3907-3923, 2018. (SCI 2區，IF=3.181)

6. Gu C.J., Ma J.Z., Zhu G.F., Yang H., Zhang K., Wang Y.Q., Gu C.L., Partitioning evapotranspiration using an optimized satellite-based ET model across biomes. Agricultural and Forest Meteorology, 259,355–363, 2018.

7. Zhu G.F.*, Li X., Ma J.Z., Wang Y.Q., Liu S.M., Huang C.L., Zhang K., Hu X.L. A new moving strategy for the sequential Monte Carlo approach in optimizing the hydrological model parameters. Advances in Water Resources, 114, 164-179, 2018.

8. Zhu G.F.*, Zhang K., Li X., Liu S.M., Ding Z.Y., Ma J.Z., Huang C.L., Han T., He J.H. Evaluating the complementary relationship for estimating evapotranspiration using the multi-site data across north China. Agricultural and Forest Meteorology. 230-231, 33-44, 2016.

9. Zhu G.F.*, Li X., Zhang K., Ding Z.Y., Han T., Ma J.Z., Huang C.L., He J.H., Ma T., Multi-model ensemble prediction of terrestrial evapotranspiration across north China using Bayesian model averaging. Hydrological Process, 30, 2861-2879, 2016.

10. Bai Y., Zhu G.F.*, Su Y.H., Zhang K., Han T., Ma J.Z., Wang W.Z., Ma T., Feng L.L. Hysteresis loops between canopy conductance of grapevines and meteorological variables in an oasis ecosystem. Agricultural and Forest Meteorology, 214-215: 319-327, 2015（通訊作者）.

11. Zhu G.F.*, Su Y.H., Li X., Zhang K., Li C.B. Estimating actual evapotranspiration from an alpine grassland on Qinghai-Tibetan plateau using a two-source model and parameter uncertainty analysis by Bayesian approach. Journal of Hydrology, 476, 42-51, 2013.

12. Zhu G.F.*, Su Y.H., Li X., Zhang K., Li C.B., Ning N. Modelling evapotranspiration in an alpine grassland ecosystem on Qinghai-Tibetan plateau. Hydrological Processes, 28, 610-619, 2014.

13. Zhu G.F.*, Li X., Su Y.H., Zhang K., Bai Y., Ma J.Z., Li C.B., Hu X. L., He J.H. Simultaneous parameterization of the two-source evapotranspiration model by Bayesian approach: application to spring maize in an arid region of northwest China. Geoscientific Model Development, 7, 741-775, 2014.

14. Zhu G.F.*, Lu L, Su Y.H., Wang X.F., Cui X., Ma J.Z., He J.H., Zhang K., Li C.B. Energy flux partitioning and evapotranspiration in a sub-alpine spruce forest ecosystem. Hydrological Processes, 28, 5093-5104, 2014.

15. Zhu G.F.*, Li X., Su Y.H., Lu L., Huang C.L., Seasonal fluctuations and temperature dependence in photosynthetic parameters and stomatal conductance at the leaf scale of Populu euphratica Oliv. Tree Physiology, 31, 178-195, 2011.

16. Zhu G.F.*, Su Y.H., Huang C.L., Qi F., Liu Z.G. Hydrogeochemical processes in the groundwater environment of Heihe River Basin, northwest China. Environmental Earth Sciences, 60, 139-153, 2010.

17. Zhu G.F.*, Li X., Su Y.H., Huang C.L. Parameterization of the coupling CO2 and H2O gas exchange model at the leaf scale of Populus euphratica. Hydrology and Earth System Sciences, 14, 419-431, 2010.

18. Zhu G.F.*, Su Y.H., Feng Q. The hydrochemical characteristics and evolution of groundwater and surface water in the Heihe River Basin, northwest China. Hydrogeology Journal, 16: 167-182, 2008.

19. Zhu G.F.*, Li Z.Z., Su Y.H., Ma J.Z., Zhang Y.Y. Hydrogeochemical and isotope evidence of groundwater evolution and recharge in Minqin Basin, Northwest China. Journal of Hydrology, 333, 239-251, 2007.

20. Li Y., Huang C.L., Hou J.l., Gu J., Zhu G.F., Li X. Mapping daily evapotranspiration based on spatiotemporal fusion of ASTER and MODIS images over irrigated agricultural areas in the Heihe River Basin, Northwest China. Agricultural and Forest Meteorology, 244-245, 82-97, 2017.

21. Zhang Z., Zimmermann N.E., Zimmermann Stenke A., Li X., Hodson E.L., Zhu G.F., Huang C.L., Poulter B. Emerging role of wetland methane emissions in driving 21st century climate change. Proceedings of the National Academy of Sciences, 114, 9647-9652, 2017.

22.Wang Y.Q., Ma J.Z., Guan H.D., Zhu G.F. Determination of the saturated film conductivity to improve the EMFX model in describing the soil hydraulic properties over the entire moisture range. Journal of Hydrology, 549, 2017.

23. Zhang K., Ma J.Z., Zhu G.F., Ma T., Han T., Feng L.L. Parameter sensitivity analysis and optimization for a satellite-based evapotranspiration model across multiple sites using Moderate Resolution Imaging Spectroradiometer and flux data. Journal of Geophysical Research Atmospheres, 122, 2017.

24. Ran Y.H., Li X., Sun R., Kljum N., Zhang L., Wang X.F., Zhu G.F. Spatial representativeness and uncertainty of eddy covariance carbon flux measurements for upscaling net ecosystem productivity to the grid scale. Agricultural and Forest Meteorology. 230-231, 114-127, 2016.

25. Sun P., Ma J.Z., Qi S., Zhao W., Zhu G.F. The effects of a dry sand layer on groundwater recharge in extremely arid areas: field study in the western Hexi Corridor of northwestern China. Hydrogeology Journal, 24, 2016.

26. Zhao W., Ma J.Z., Gu C.J., Qi S., Zhu G.F., He J.H. Distribution of isotopes and chemicals in precipitation in Shule River Basin, northwestern China: an implication for water cycle and groundwater recharge. Journal of Arid Land, 9, 318-318, 2016.

27. Song Y., Jin L., Zhu G.F., Ma M.G. Parameter estimation for a simple two-source evapotranspiration model using Bayesian inference and its application to remotely sensed estimations of latent heat flux at the regional scale. Agricultural and Forest Meteorology, 217, 230-231, 2016.

28. Wang X.F., Cheng G.D., Li X., Lu L., Ma M.G., Su P.X., Zhu G.F., Tan J.L. A comparison of two photosynthesis parameterization schemes for an alpine meadow site on the Qinghai-Tibetan Plateau. Theoretical and Applied Climatology, 126, 751-764, 2015.

29. Li C.B., Zhang X.L., Qi J.G., Wang S.B., Yang L.S., Yang W.J., Zhu G.F., Hao Q. A case study of regional eco-hydrological characteristics in the Tao River Basin, northwestern China, based on evapotranspiration estimated by a coupled Budyko Equation-crop coefficient approach. Science China Earth Science, 58, 1-10, 2015.

30. Li C.B., Qi J.G., Wang S.B., Yang L.S., Zou S.B., Zhu G.F., Yang W.J. Spatiotemporal characteristics of alpine snow and ice melt under a changing regional climate: A case study in Northwest China. Quaternary International, 358, 2015.

31. Li C.B., Qi J.G., Yang L.S., Wang S.B., Yang W.J., Zhu G.F., Zou S.B., Zhang F. Regional vegetation dynamics and its response to climate change - A case study in the Tao River Basin in Northwestern China. Environmental Research Letters, 9, 1-12, 2014.

32. Wei G.X., Chen F.H., Ma J.Z., Dong Y., Zhu G.F., W. Mike E. Groundwater recharge and evolution of water quality in China’s Jilantai Basin based on hydrogeochemical and isotopic evidence. Environmental Earth Sciences, 72, 3491-3506, 2014.

33. Li C.B., Qi J.G., Wang S.B., Yang L.S., Yang W.J., Zou S.B., Zhu G.F., Li W.Y. A Holistic System Approach to Understanding Underground Water Dynamics in the Loess Tableland: A Case Study of the Dongzhi Loess Tableland in Northwest China. Water Resources Management, 28, 2937–2951, 2014.

34. Ma J.Z., He J.H., Qi S., Zhu G.F., Zhao W., Edmunds W.M., Zhao Y.P. Groundwater recharge and evolution in the Dunhuang Basin, northwestern China. Applied Geochemistry, 28, 19-31, 2013.

35. Li X., Cheng G.D., Xiao Q., Ma M.G., Jin R., Che T., Liu Q.H., Wang W.Z., Qi Y., Wen J.G., Li H.Y., Zhu G.F., Guo J.W., Ran Y.H., Wang S.G., Zhu Z.L., Zhou J., Hu X.L., Xu Z.W. Heihe Watershed Allied Telemetry Experimental Research (HiWATER): Scientific Objectives and Experimental Design. Bulletin of the American Meteorological Society, 94, 1145-1160, 2013.

36. He J.H., Ma J.Z., Zhang P., Tian L.M., Zhu G.F., Edmunds W.M., Zhang Q.H. Groundwater recharge environments and hydrogeochemical evolution in the Jiuquan Basin, Northwest China. Applied Geochemistry, 27, 866-878, 2012.

37. Ma Z.J., Zhang P., Zhu G.F., Wang Y.Q., Edmunds W.M., Ding Z.Y., He J.H. The composition and distribution of chemicals and isotopes in precipitation in the Shiyang River system, northwestern China. Journal of Hydrology, 436-437, 92-101, 2012.

38. Su Y.H., Zhu G.F., Miao Z.W., Qi F., Chang Z.Q. Estimation of parameters of a biochemically based model of photosynthesis using a genetic algorithm. Plant Cell and Environment, 32, 1710-23, 2009.

39. Su Y.H., Zhu G.F., Qi F., Li Z.Z., Zhang F.P. Environmental isotopic and hydrochemical study of groundwater in the Ejina Basin, Northwest China. Environmental Geology, 58, 601-614, 2008.

40.Su Y.H., Qi F., Zhu G.F., Si J.H., Zhang Y.W. Identification and Evolution of Groundwater Chemistry in the Ejin SubBasin of the Heihe River, Northwest China. Pedosphere, 17, 331-342, 2007.

41.張琨, 韓拓, 朱高峯*, 白巖, 馬婷. 西北內陸河流域典型生態系統通量數據空間代表性研究. 乾旱區地理, 38, 743-751, 2017.

42.白巖, 朱高峯*, 張琨, 馬婷. 基於樹幹液流及渦動相關技術的葡萄冠層蒸騰及蒸散發特徵研究. 生態學報, 23, 7821-7831, 2015.

43.李新, 劉紹民, 馬明國, 肖青, 柳欽火, 晉鋭, 車濤, 王維真, 祁元, 李弘毅, 朱高峯, 郭建文, 冉有華, 聞建光, 王樹果. 地球學進展, 27, 481-498, 2012.

44.蘇永紅, 馮起, 劉蔚, 朱高峯, 司建華, 常宗強. 席海洋應用模糊綜合評判方法評價石羊河流域水資源承載力. 乾旱區研究, 26, 169-175, 2010.

45.張琨, 朱高峯, 白巖, 馬婷. 基於人工神經網絡的渦度相關儀觀測蒸散量的數據插補方法, 蘭州大學學報(自然科學版), 3, 348-355, 2014. ^[2]