師資
背景介紹
韓峰,畢業(yè)于北京大學(xué),理學(xué)博士,,2015年在南方科技大學(xué)開展博士后研究,,2018年留校工作,現(xiàn)為環(huán)境科學(xué)與工程學(xué)院研究副教授,合作導(dǎo)師鄭一教授。長期從事生態(tài)水文、水環(huán)境模擬領(lǐng)域的研究工作,,擅長流域尺度下生態(tài)過程、水文過程和水質(zhì)過程的數(shù)值模擬,。相關(guān)研究內(nèi)容包括開發(fā)新的計(jì)算模型,、探索高效的模型?數(shù)據(jù)融合方法,以及研究深度學(xué)習(xí)和物理過程模型的耦合范式,。已在Water Research,、Water Resources Research、Journal of Hydrology,、環(huán)境科學(xué)研究等國內(nèi)外學(xué)術(shù)期刊發(fā)表論文40多篇(SCI論文38篇),,出版“十三五”國家重點(diǎn)出版物出版規(guī)劃著作 1 部,撰寫學(xué)術(shù)著作章節(jié)2章,,獲得軟件著作權(quán) 1 項(xiàng),。此外,韓峰博士是三維分布式生態(tài)水文耦合模型HEIFLOW(Hydrological-Ecological Integrated watershed-scale FLOW model)的主要開發(fā)者之一,。該模型由鄭春苗教授和鄭一教授團(tuán)隊(duì)合作開發(fā),,目前已經(jīng)在我國的黑河流域、珠江流域,、灤河流域,、Miho 流域(韓國)、Skjern流域(丹麥),、San Joaquin流域(美國)等十幾個(gè)流域獲得應(yīng)用,。
工作經(jīng)歷
2021 – 至今:南方科技大學(xué),環(huán)境科學(xué)與工程學(xué)院,,研究副教授
2018 – 2021:南方科技大學(xué),,環(huán)境科學(xué)與工程學(xué)院,,研究助理教授
2015 – 2018:南方科技大學(xué),,環(huán)境科學(xué)與工程學(xué)院,博士后
教育背景
2008 – 2015:北京大學(xué),,力學(xué)(能源動(dòng)力與資源工程)專業(yè),,理學(xué)博士
2004 – 2008:北京大學(xué),,理論與應(yīng)用力學(xué),理學(xué)學(xué)士
代表性科研項(xiàng)目:
1. 國家自然科學(xué)基金青年科學(xué)基金項(xiàng)目(41807164),,干旱區(qū)天然草地退化-恢復(fù)過程的生態(tài)水文耦合模擬方法研究,,項(xiàng)目負(fù)責(zé)人,2019-2021
2. 國家自然科學(xué)基金國際合作項(xiàng)目(5191101522),,中國-智利水環(huán)境管理比較研究:聚焦氣候變化下流域生態(tài)與社會經(jīng)濟(jì)的可持續(xù)性,,項(xiàng)目骨干,2020-2024
3. 中國科學(xué)院戰(zhàn)略性先導(dǎo)科技專項(xiàng)課題(XDA20100104),,祁連山“山水林田湖草”系統(tǒng)集成預(yù)測與優(yōu)化調(diào)配,,項(xiàng)目骨干,2018-2023
4. 深圳市環(huán)境物聯(lián)網(wǎng)技術(shù)與應(yīng)用工程實(shí)驗(yàn)室項(xiàng)目,,項(xiàng)目骨干,,2017-2020
5. 中國博士后科學(xué)基金面上項(xiàng)目(2017M612505),基于多源數(shù)據(jù)同化的地表-地下水耦合模擬不確定性分析,,項(xiàng)目負(fù)責(zé)人,,2017-2018
6. 國家自然科學(xué)基金重大研究計(jì)劃集成項(xiàng)目(91225301)“黑河流域中下游生態(tài)水文過程的系統(tǒng)行為與調(diào)控研究”,項(xiàng)目骨干,,2013-2016
研究領(lǐng)域
1. 生態(tài)水文模擬
2. 非點(diǎn)源污染模擬
3. 數(shù)據(jù)同化和不確定性分析
4. 機(jī)器學(xué)習(xí)應(yīng)用
學(xué)術(shù)成果(發(fā)表論著或者論文或者專利)
專著
1. 鄭一, 韓峰, 田勇 (2021) 黑河流域生態(tài)水文耦合模擬的方法與應(yīng)用. 科學(xué)出版社.
中文論文
2. 丁杰, 胡兆平, 劉湛, 張青梅, 劉偉, 韓峰*, 鄭一 (2023) 基于流域水環(huán)境模型評估重金屬面源污染負(fù)荷. 環(huán)境科學(xué)研究 36(6), 1125-1134.
3. 丁杰*, 何紹坤, 黃穎, 王思穎, 王坤鑫, 強(qiáng)耀輝, 韓峰 (2022) 麻雀坑水流域水土環(huán)境磷污染特征及來源分析. 水資源研究 11(6), 572-579.
4. 羅小林, 尹長文, 張國新*, 劉毅, 牛存穩(wěn), 韓峰 (2021) 北京市水環(huán)境分析及流域綜合治理研究. 水資源保護(hù) 37(5), 140-146.
5. 張青梅, 韓峰, 劉湛*, 向仁軍 (2018) 基于SWAT模型的湘江株洲段汞面源污染負(fù)荷測算. 四川環(huán)境 37(2), 32-37.
6. 林鐘榮, 鄭一*, 向仁軍, 劉湛, 張青梅, 韓峰 (2012) 重金屬面源污染模擬及其不確定性分析——以湘江株洲段鎘污染為例. 長江流域資源與環(huán)境 21(09), 1112-1118.
7. 鄭一*, 王學(xué)軍, 吳斌, 韓峰 (2010) 城市非點(diǎn)源污染管理的制度,、信息和決策支撐. 水科學(xué)進(jìn)展 21(05), 726-732.
SCI論文
8. Han, F., Tian, Q., Chen, N.*, Hu, Z., Wang, Y., Xiong, R., Xu, P., Liu, W., Stehr, A., Barra, R.O. and Zheng, Y. (2024) Assessing ammonium pollution and mitigation measures through a modified watershed non-point source model. Water Research 254, 121372.
9. Ge, Y.*, Han, F., Wu, F., Zhao, Y., Li, H., Tian, Y., Zheng, Y., Luan, W., Zhang, L., Cai, X., Ma, C. and Li, X. (2024) Sustainable decision making based on systems integration and decision support system promoting endorheic basin sustainability. Decision Support Systems 179, 114169.
10. Wang, C., Jiang, S., Zheng, Y.*, Han, F., Kumar, R., Rakovec, O. and Li, S. (2024) Distributed hydrological modeling with physics‐encoded deep learning: A general framework and its application in the Amazon. Water Resources Research 60(4), e2023WR036170.
11. Han, F., Hu, Z., Chen, N., Wang, Y., Jiang, J. and Zheng, Y.* (2023) Assimilating low-cost high-frequency sensor data in watershed water quality modeling: A Bayesian approach. Water Resources Research, 59, e2022WR033673.
12. Han, F., Zheng, Y.*, Zhang, L.*, Xiong, R., Hu, Z., Tian, Y. and Li, X. (2023) Simulating drip irrigation in large-scale and high-resolution ecohydrological models: From emitters to the basin. Agricultural Water Management 289, 108500.
13. Li, S., Zheng, Y.*, Han, F., Xu, P. and Chen, A. (2023) Ecological flow management identified as leading driver of grassland greening in the gobi desert using deep learning. Geophysical Research Letters 50(11), e2023GL103369.
14. Wang, M., Xu, B.*, Li, Y., Han, F., Du, X., Zhang, J., Zhang, C. and Peng, Y. (2023) A surface and ground‐water integrated investigation of streamflow drying up in semi‐arid regions. Hydrological Processes 37(6), e14903.
15. Chen, X., Zheng, Y.*, Wang, L., Han, F., Zeng, Z., Xu, P., Fu, G. and Zhang, C. (2022) Climate change may neutralize the sediment starvation in mega deltas caused by hydropower dams. Sustainable Horizons 4, 100041.
16. Du, E., Tian, Y., Cai, X., Zheng, Y., Han, F., Li, X., Zhao, M., Yang, Y. and Zheng, C.* (2022) Evaluating distributed policies for conjunctive surface water‐groundwater management in large river basins: Water uses versus hydrological impacts. Water Resources Research 58(1), e2021WR031352.
17. Xiong, R., Zheng, Y.*, Chen, N., Tian, Q., Liu, W., Han, F., Jiang, S., Lu, M. and Zheng, Y. (2022) Predicting Dynamic Riverine Nitrogen Export in Unmonitored Watersheds: Leveraging Insights of AI from Data-Rich Regions. Environmental Science & Technology 56(14), 10530-10542.
18. Han, F., Zheng, Y.*, Tian, Y., Li, X., Zheng, C. and Li, X. (2021) Accounting for field-scale heterogeneity in the ecohydrological modeling of large arid river basins: Strategies and relevance. Journal of Hydrology 595, 126045.
19. Han, J., Xin, Z.*, Han, F.*, Xu, B., Wang, L., Zhang, C. and Zheng, Y. (2021) Source contribution analysis of nutrient pollution in a P-rich watershed: Implications for integrated water quality management. Environmental Pollution 279, 116885.
20. Li, X.*, Zhang, L.*, Zheng, Y., Yang, D., Wu, F., Tian, Y., Han, F., Gao, B., Li, H., Zhang, Y., Ge, Y., Cheng, G., Fu, B., Xia, J., Song, C. and Zheng, C. (2021) Novel hybrid coupling of ecohydrology and socioeconomy at river basin scale: A watershed system model for the Heihe River basin. Environmental Modelling & Software 141, 105058.
21. Xiong, R., Zheng, Y.*, Han, F. and Tian, Y. (2021) Improving the Scientific Understanding of the Paradox of Irrigation Efficiency: An Integrated Modeling Approach to Assessing Basin‐Scale Irrigation Efficiency. Water Resources Research 57(11), e2020WR029397.
22. Zhang, Z., Zheng, Y.*, Han, F., Xiong, R. and Feng, L. (2021) Recovery of an endorheic lake after a decade of conservation efforts: Mediating the water conflict between agriculture and ecosystems. Agricultural Water Management 256, 107107.
23. Chen, X., Zheng, Y.*, Xu, B., Wang, L., Han, F. and Zhang, C.* (2020) Balancing competing interests in the Mekong River Basin via the operation of cascade hydropower reservoirs in China: Insights from system modeling. Journal of Cleaner Production 254, 119967.
24. Mao, G., Liu, J.*, Han, F., Meng, Y., Tian, Y., Zheng, Y. and Zheng, C. (2020) Assessing the interlinkage of green and blue water in an arid catchment in Northwest China. Environmental Geochemistry and Health 42(3), 933-953.
25. Xu, B., Li, Y.*, Han, F., Zheng, Y., Ding, W., Zhang, C., Wallington, K. and Zhang, Z. (2020) The transborder flux of phosphorus in the Lancang-Mekong River Basin: Magnitude, patterns and impacts from the cascade hydropower dams in China. Journal of Hydrology 590, 125201.
26. Zheng, Y., Tian, Y.*, Du, E., Han, F., Wu, Y., Zheng, C. and Li, X. (2020) Addressing the water conflict between agriculture and ecosystems under environmental flow regulation: An integrated modeling study. Environmental Modelling & Software 134, 104874.
27. Niu, G., Zheng, Y.*, Han, F. and Qin, H. (2019) The nexus of water, ecosystems and agriculture in arid areas: A multiobjective optimization study on system efficiencies. Agricultural Water Management 223, 105697.
28. Chen, C., Tian, Y., Zhang, Y.-K., He, X., Yang, X., Liang, X., Zheng, Y., Han, F., Zheng, C. and Yang, C.* (2019) Effects of agricultural activities on the temporal variations of streamflow: trends and long memory. Stochastic Environmental Research and Risk Assessment 33(8-9), 1553-1564.
29. Han, F. and Zheng, Y.* (2018) Joint analysis of input and parametric uncertainties in watershed water quality modeling: A formal Bayesian approach. Advances in Water Resources 116, 77-94.
30. Jiang, J.*, Han, F., Zheng, Y., Wang, N. and Yuan, Y. (2018) Inverse uncertainty characteristics of pollution source identification for river chemical spill incidents by stochastic analysis. Frontiers of Environmental Science & Engineering 12(5), 6-21.
31. Jiang, S., Zheng, Y.*, Babovic, V., Tian, Y. and Han, F. (2018) A computer vision-based approach to fusing spatiotemporal data for hydrological modeling. Journal of Hydrology 567, 25-40.
32. Li, X.*, Cheng, G., Ge, Y., Li, H., Han, F., Hu, X., Tian, W., Tian, Y., Pan, X., Nian, Y., Zhang, Y., Ran, Y., Zheng, Y., Gao, B., Yang, D., Zheng, C., Wang, X., Liu, S. and Cai, X. (2018) Hydrological cycle in the Heihe River Basin and its implication for water resource management in endorheic basins. Journal of Geophysical Research: Atmospheres 123(2), 890-914.
33. Sun, Z., Zheng, Y.*, Li, X., Tian, Y.*, Han, F., Zhong, Y., Liu, J. and Zheng, C. (2018) The nexus of water, ecosystems, and agriculture in endorheic river basins: A system analysis based on integrated ecohydrological modeling. Water Resources Research 54(10), 7534-7556.
34. Tian, Y., Xiong, J., He, X., Pi, X., Jiang, S., Han, F. and Zheng, Y.* (2018) Joint operation of surface water and groundwater reservoirs to address water conflicts in arid regions: An integrated modeling study. Water 10(8), w10081105.
35. Tian, Y., Zheng, Y.*, Han, F., Zheng, C. and Li, X. (2018) A comprehensive graphical modeling platform designed for integrated hydrological simulation. Environmental Modelling & Software 108, 154-173.
36. Han, F. and Zheng, Y.* (2016) Multiple-response Bayesian calibration of watershed water quality models with significant input and model structure errors. Advances in Water Resources 88, 109-123.
37. Wu, X., Zheng, Y.*, Wu, B., Tian, Y., Han, F. and Zheng, C. (2016) Optimizing conjunctive use of surface water and groundwater for irrigation to address human-nature water conflicts: A surrogate modeling approach. Agricultural Water Management 163, 380-392.
38. Zheng, Y.*, Luo, X., Zhang, W., Wu, X., Zhang, J. and Han, F. (2016) Transport mechanisms of soil-bound mercury in the erosion process during rainfall-runoff events. Environmental Pollution 215, 10-17.
39. Zheng, Y.* and Han, F. (2015) Markov Chain Monte Carlo (MCMC) uncertainty analysis for watershed water quality modeling and management. Stochastic Environmental Research and Risk Assessment 30(1), 293-308.
40. Luo, X., Zheng, Y.*, Lin, Z., Wu, B., Han, F., Tian, Y., Zhang, W. and Wang, X. (2015) Evaluating potential non-point source loading of PAHs from contaminated soils: a fugacity-based modeling approach. Environmental Pollution 196, 1-11.
41. Wu, B., Zheng, Y.*, Wu, X., Tian, Y., Han, F., Liu, J. and Zheng, C. (2015) Optimizing water resources management in large river basins with integrated surface water‐groundwater modeling: A surrogate‐based approach. Water Resources Research 51(4), 2153-2173.
42. Wu, B., Zheng, Y.*, Tian, Y., Wu, X., Yao, Y., Han, F., Liu, J. and Zheng, C. (2014) Systematic assessment of the uncertainty in integrated surface water-groundwater modeling based on the probabilistic collocation method. Water Resources Research 50(7), 5848-5865.
43. Luo, X., Zheng, Y.*, Wu, B., Lin, Z., Han, F., Zhang, W. and Wang, X. (2013) Impact of carbonaceous materials in soil on the transport of soil-bound PAHs during rainfall-runoff events. Environmental Pollution 182, 233-241.
44. Zheng, Y.*, Luo, X., Zhang, W., Wu, B., Han, F., Lin, Z. and Wang, X. (2012) Enrichment behavior and transport mechanism of soil-bound PAHs during rainfall-runoff events. Environmental Pollution 171, 85-92.
45. Zheng, Y.*, Wang, W., Han, F. and Ping, J. (2011) Uncertainty assessment for watershed water quality modeling: A Probabilistic Collocation Method based approach. Advances in Water Resources 34(7), 887-898.