高路檢視原始碼討論檢視歷史
高路,男,自然地理學博士,研究員,博士生導師,福建省陸地災害監測評估工程技術研究中心副主任。兼任中國自然資源學會水資源專業委員會委員、福建省安全生產專家組成員、福建省人力資源和社會保障廳幹部教育師資庫成員、《人民珠江》、《水利水電技術(中英文)》特約編委、中國科學技術出版社有限公司(暨科學普及出版社)科技/科普專家、國家留學基金委評審專家。主要從事氣候變化、水文氣象降尺度、極端氣候事件及自然災害風險評估等研究。在國內外學術期刊上發表論文60餘篇,累積被引600餘次,擔任HESS、AR、JOC、JCLIM、JH、WRM、NH等20多個國內外學術期刊審稿人。主持重點研發計劃課題、國家自然基金、福建省基金等各類項目10餘項。入選福建省高校傑出青年科研人才培育計劃、福建師範大學「寶琛計劃」青年英才支持計劃,獲德意志學術交流中心(DAAD)高級訪問學者獎學金。獲2018年度福建省科技進步獎二等獎一項(排名第五)、第十四屆福建省自然科學優秀學術論文三等獎一項(排名第一)。
個人履歷
教 育
2009/09 - 2013/08,德國慕尼黑大學(LMU),博士
2006/09 - 2009/07,北京師範大學,碩士
2002/09 - 2006/07,中國地質大學(北京),學士
工 作
2018/12 - 福建師範大學,地理科學學院,研究員(破格)
2017/07 - 2018/06,德國霍恩海姆大學,物理與氣象研究所,高級訪問學者
2014/12 - 2018/12,福建師範大學,地理科學學院,副研究員
2013/11 - 2014/12,福建師範大學,地理科學學院,助理研究員
研究方向
學術成果
論文
[1] Gao, L.*, Deng, H., Lei, X., Wei, J., Chen, Y., Li, Z., Ma, M., Chen, X., Chen,Y., Liu, M., Gao, J., (2021). Evidence of elevation-dependent warming from the Chinese Tian Shan. The Cryosphere, 15(12): 5765–5783.
[2] Liu, M.B., Chen, X.W., Chen, Y., Gao, L., Deng, H.J. (2021). Spatial and temporal variations in nitrogen retention effects in a subtropical mountainous basin in Southeast China. Journal of Mountain Science, 18(10): 2672-2687.
[3] Lei, X., Gao, L.*, Ma, M., Wei, J., Xu, L., Wang, L., Lin, H. (2021). Does non-stationarity of extreme precipitation exist in the Poyang Lake Basin of China? Journal of Hydrology: Regional Studies, 37,100920.
[4] Shang, S., Zhu, G., Wei, J., Li, Y., Zhang, K., Li, R., Arnault, J., Zhang, Z., Laux, P., Yang, Q., Dong, N., Gao, L., Kunstmann, H. (2021). Associated atmospheric mechanisms for the increased cold season precipitation over the Three-River Headwaters region from the late 1980s, Journal of Climate, doi: 10.1175/JCLI-D-21-0077.1.
[5] Wei, J., Dong, N., Fersch, B., Arnault, J., Wagner, S., Laux, P., Zhang, Z., Yang, Q., Yang, C., Shang, S., Gao, L., Yu, Z., Kunstmann, H., (2021). Role of reservoir regulation and groundwater feedback in a simulated ground-soil-vegetation continuum: A long-term regional scale analysis. Hydrological Processes, 35(8), e14341.
[6] Lei, X., Gao, L.*, Wei, J., Ma, M., Xu, L., Fan, H., Li, X., Gao, J., Dang, H., Chen, X., Fang, W., (2021). Contributions of climate change and human activities to runoff variations in the Poyang Lake Basin of China. Physics and Chemistry of the Earth, Parts A/B/C, 103019.
[7] Yang, Q., Yu, Z., Wei, J., Yang, C., Gu, H., Xiao, M., Shang, S., Dong, N., Gao, L., Arnault, J., Laux, P., Kunstmann, H., (2021). Performance of the WRF model in simulating intense precipitation events over the Hanjiang River Basin, China–A multi-physics ensemble approach. Atmospheric Research, 248, 105206.
[8] Zhao, P., Gao, L.*, Wei, J., Ma, M., Deng, H., Gao, J., Chen, X., (2020). Evaluation of ERA-Interim air temperature data over the Qilian Mountains of China. Advances in Meteorology, 7353482:1-11.
[9] Cheng, Q., Gao, L.*, Zhong, F., Zuo, X., Ma, M., (2020). Spatiotemporal variations of drought in the Yunnan-Guizhou Plateau, southwest China, during 1960–2013 and their association with large-scale circulations and historical records. Ecological Indicators, 112, 106041.
[10] Ye, J., Lin, G., Zhang, M., Gao, L., (2020). Hazard analysis of typhoon disaster-causing factors based on different landing paths: a case study of Fujian Province, China. Natural Hazards, 100(2): 811-828.
[11] Wu, H., Chen, Y., Chen, X., Liu, M., Gao, L., Deng, H., (2020). A New Approach for Optimizing Rain Gauge Networks: A Case Study in the Jinjiang Basin. Water, 12, 2252:1-13.
[12] Yang, Q., Yu, Z., Wei, J., Yang, C., Gu, H., Xiao, M., Shang, S., Dong, N., Gao, L., Arnault, J., Laux, P., Kunstmann, H., (2020). Performance of the WRF model in simulating intense precipitation events over the Hanjiang River Basin, China-A multi-physics ensemble approach. Atmospheric Research, 248:105206.
[13] Chen, Q.P., Zuo, X.A., Zhong, F.L., Gao, L., Xiao, S.C., (2019). Runoff variation characteristics, association with large-scale circulation and dominant causes in the Heihe River basin, Northwest China. Science of the Total Environment, 688: 361-379.
[14] Liu, M.B., Chen, X.W., Chen, Y., Gao, L., Deng, H. J. (2019). Nitrogen Retention Effects under Reservoir Regulation at Multiple Time Scales in a Subtropical River Basin. Water, 11(8), 1685: 1-15.
[15] Chen, Y., Xu, C.Y., Chen, X.W., Xu, Y.P., Yin, Y.X., Gao, L., Liu, M.B., (2019). Uncertainty in simulation of land-use change impacts on catchment runoff with multi-timescales based on the comparison of the HSPF and SWAT models. Journal of Hydrology, 573: 486-500.
[16] Cheng, Q.P., Gao, L*., Zuo X.A., et al., (2019). Statistical analyses of spatial and temporal variabilities in total, daytime and nighttime precipitation indices and of extreme dry/wet association with large-scale circulations of Southwest China, 1961-2016. Atmospheric Research, 219: 166-182.
[17] Jiang, Q., Yue, Y., Gao, L., (2019). The spatial-temporal patterns of heatwave hazard impacts on wheat in northern China under extreme climate scenarios. Geomatics, Natural Hazards and Risk, 10(1): 2346-2367.
[18] Xu, T., Sun, X.S., Hong, H., Wang, X.Y., Cui, M.Y., Lei, G.L., Gao, L., Liu, J., Lone, M.A., Jiang, X.Y., (2019). Stable isotope ratios of typhoon rains in Fuzhou, Southeast China, during 2013-2017. Journal of Hydrology, 570: 445-453.
[19] Gao, L*., Wei, J.H., Wang, L.X., et al., (2018). A high-resolution air temperature data set for the Chinese Tian Shan in 1979-2016. Earth System Science Data, 10(4): 2097-2114.
[20] Gao, L*., Huang, J., Chen, X.W., et al., (2018). Contributions of natural climate changes and human activities to the trend of extreme precipitation. Atmospheric Research, 205: 60-69.
[21] Chen, Y., Chen, X.W., Xu, C.Y., Zhang, M.F., Liu, M.B., Gao, L., (2018). Toward improved calibration of SWAT using season-based multi-objective optimization: a case study in the Jinjiang basin in Southeastern China. Water Resources Management, 32(4): 1193-1207.
[22] Cheng, Q.P., Gao, L*., Chen, Y., et al., (2018). Temporal-spatial characteristics of drought in Guizhou province, China, based on multiple drought indices and historical disaster records. Advances in Meteorology, 4721269:1-22.
[23] Yue, Y.J., Ye, X.Y., Zou, X.Y., Wang, J.A., Gao, L., (2017). Research on land use optimization for reducing wind erosion in sandy desertified area: a case study of Yuyang County in Mu US desert, China. Stochastic Environmental Research and Risk Assessment, 31(6): 1371-1387.
[24] Gao, L*., Bernbardt, M., Schulz, K., et al., (2017). Elevation correction of ERA-Interim temperature data in the Tibetan Plateau. International Journal of Climatology, 37(9): 3540-3552.
[25] Wang, Y.F., Chen, X.W., Chen, Y., Liu, M.B., Gao, L., (2017). Flood/drought event identification using an effective indicator based on the correlations between multiple time scales of the Standardized precipitation Index and river discharge. Theoretical and Applied Climatology, 128(1-2): 159-168.
[26] Gao, L*., Huang, J., Chen, X.W., et al., (2017). Risk of extreme precipitation under nonstationarity conditions during the second flood season in the southeastern coastal region of China. Journal of Hydrometeorology, 18(3): 669-681.
[27] Wu, J.F., Chen, X.W., Gao, L., (2016). Response of hydrological drought to meteorological drought under the influence of large reservoir. Advances in Meteorology, 2197142:1-11.
[28] Gao, L*., Bernhardt, M., Schulz, K., et al., (2016). A first evaluation of ERA-20CM over China. Monthly Weather Review, 114(1): 45-57.
[29] Lin, B.Q., Chen, X.W., Yao, H.X., Chen, Y., Liu, M.B., Gao, L., (2015). Analyses of landuse change impacts on catchment runoff using different time indicators based on SWAT model. Ecological Indicators, 58: 55-63.
[30] Gao, L*., Hao, L., Chen, X.W., (2014). Evaluation of ERA-interim monthly temperature data over the Tiberan Plateau. Journal of Mountain Science, 11(5): 1154-1168.
[31] Gao, L*., Schulz, K., Bernhardt, M., (2014). Statistical downscaling of ERA-Interim forecast precipitation data in complex terrain using LASSO algorithm. Advances in Meteorology, 472741:1-16.
[32] Gao, L., Bernhardt, M.*, Schulz, L., (2012). Elevation correction of ERA-interim temperature data in complex terrain. Hydrology and Earth System Sciences, 16(12): 4661-4673.
[33] 毛春瑩,高路,王靜愛.中德中學災害教育對比研究[J].中學地理教學參考,2022,待刊.
[34] 劉倩,高路*,馬苗苗,汪瀾,林暉.遼寧大凌河流域氣溫和降水降尺度研究[J].水利水電技術(中英文), 2021, 52(9): 16-31.
[35] 雷享勇,高路*,馬苗苗,黨皓飛,高建芸.鄱陽湖流域極端降水時空分布和非平穩性特徵[J].應用生態學報,2021,32(9): 3277-3287.
[36] 王迪,劉梅冰,陳興偉,高路.基於CMIP5和SWAT的山美水庫流域未來藍綠水時空變化特徵.南水北調與水利科技(中英文), 2021,19(3):446-458.
[37] 劉倩,高路*,趙鵬,陳興偉.2000-2016年中國熱帶氣旋災害時空特徵研究[J].中國防汛抗旱,2020,30(05):50-57.
[38] 鄧海軍,郭斌,曹永強,陳忠升,張餘慶,陳興偉,高路,陳瑩,劉梅冰.1961—2016年中國晝夜降水變化的時空格局[J].地理研究,2020,39(10):2415-2426.
[39] 綦昕瑤,高路*.不同地形條件下的颱風災害鏈致災分析——以「利奇馬」颱風為例[J].福建師範大學學報(自然科學版),2020,36(05):74-83.
[40] 江清華,高路*.1950—2000年福建暴雨災害災情時空分析[J].亞熱帶資源與環境學報,2019,14(02):41-48.
[41] 何澤仕,鄭巧雅,徐曹越,高路*.1960—2013年福建省颱風暴雨時空特徵研究[J].人民珠江,2019,40(03):1-8+18.
[42] 盧彬彬,陳瑩,陳興偉,劉梅冰,高路.基於AnnAGNPS模型的山美水庫流域非點源氮控制研究[J].亞熱帶資源與環境學報,2019,14(01):54-61.
[43] 陳興偉,高路,陳瑩,鄧海軍,劉梅冰,林炳青.颱風與非颱風暴雨洪水的分類研究[J].中國防汛抗旱,2019,29(04):18-21.
[44] 吳麗娜,陳瑩,陳興偉,劉梅冰,高路,楊博,盧彬彬.氣候變化下山美水庫流域未來徑流量變化[J].亞熱帶資源與環境學報,2019,14(04):18-22+35.
[45] 程新宇傑,高路*.ECMWF再分析氣溫資料在天山山區的可信度檢驗[J].北京師範大學學報(自然科學版),2018,54(05):635-644.
[46] 楊博,陳瑩,陳興偉,劉梅冰,高路.基於PEST的HSPF模型徑流模擬優化[J].中國水土保持科學,2018,16(02):9-16.
[47] 程新宇傑,高路*.基於綜合自然區劃的天山區域氣溫變化研究[J].山地學報,2018,36(02):194-205.
[48] 孟翔翔,高路*. ERA-Interim降水數據在福建省的適用性評估[EB/OL]. 北京:中國科技論文在線 [2018-10-08]. http://www.paper.edu.cn/releasepaper/content/201810-2.
[49] 吳傑峰,陳興偉,高路,陳瑩,劉梅冰.人類活動對晉江流域徑流演變影響的分析與定量評估[J].南水北調與水利科技,2017,15(02):65-72+79.
[50] 鄭玉萍,高路,張江燕,朱芸.福州市極端氣候變化趨勢研究[J].福建師範大學學報(自然科學版),2017,33(02):96-104+116.
[51] 吳傑峰,陳興偉,高路.水文乾旱對氣象乾旱的響應及其臨界條件[J].災害學,2017,32(01):199-204.
[52] 黃婕,高路*,陳興偉,王靜愛.降水極值的非平穩性特徵及其重現期研究——以福建省為例[J].北京師範大學學報(自然科學版),2016,52(05):603-609.
[53] 吳傑峰,陳興偉,高路,林志東.基於標準化徑流指數的區域水文乾旱指數構建與識別[J].山地學報,2016,34(03):282-289.
[54] 黃婕,高路*,陳興偉,陳瑩,劉梅冰.東南沿海前汛期降水極值變化特徵及歸因分析[J].地理學報,2016,71(01):153-165.
[55] 黃婕,王躍峰,高路*,陳興偉.1960—2011年福建省不同等級降水時空變化特徵[J].中國水土保持科學,2015,13(02):17-23.
[56] 高路*,郝璐.ERA-Interim氣溫數據在中國區域的適用性評估[J].亞熱帶資源與環境學報,2014,9(02):75-81.
[57] 高路*,Karsten Schulz,陳興偉,林廣發.基於ERA-Interim再分析資料的中國極端氣溫分析[J].南水北調與水利科技,2014,12(02):75-78+106.
[58] 王靜愛,劉金欣,高路,孟繁蘊,張文生,陳靜.淺談「數字藥匣」的理論構建與應用[J].中草藥,2011,42(06):1046-1052.
[59] 劉金欣,劉鑫欣,高路,魏英勤,孟繁蘊,王永炎.數字地球技術在中藥資源研究中的應用[J].中國中藥雜誌,2011,36(03):243-246.
[60] 郝璐,王靜愛,高路,潘東華.老哈河流域近40年徑流變化趨勢分析[J].北京師範大學學報(自然科學版),2008,44(06):629-634.
[61] 周洪建,史培軍,王靜愛,高路,鄭憬,於德永.近30年來深圳河網變化及其生態效應分析[J].地理學報,2008(09):969-980.
[62] 王靜愛,史培軍,郝璐,高路.區域可持續發展中的生態教育移民[J].北京師範大學學報(社會科學版),2008(04):139-145.
[63] 高路,陳思,周洪建,羅奎,王靜愛,毛佳.重慶市2006年特大旱災分析與災後恢復性研究[J].自然災害學報,2008(01):21-26.
[64] 周洪建,王靜愛,史培軍,潘東華,高路,賈慧聰.深圳市1980-2005年河網變化對水災的影響[J].自然災害學報,2008(01):97-103.
[65] 萬金紅,王靜愛,劉珍,賈慧聰,高路,高立龍,張峰.從收入多樣性的視角看農戶的旱災恢復力——以內蒙古興和縣為例[J].自然災害學報,2008(01):122-126.
獲獎成果
2020.11 第十四屆福建省自然科學優秀學術論文三等獎
2020.01 福建師範大學「寶琛計劃」青年英才支持計劃
2019.08 2018年度福建省科技進步獎二等獎(排名第五)
2018.12 2018年度福建省高校傑出青年科研人才培育計劃
2017.03 德意志學術交流中心-王寬誠教育基金會高級訪問學者獎學金
2017.01 福建師範大學「寶琛計劃」青年英才支持計劃
科研項目
1. 福建省災害天氣重點實驗室開放課題:東南沿海暴雨集合預報可行性和方法研究(2020KFKT01),2020.07-2022.06,主持。
2. 國家重點研發計劃「戰略性國際科技創新合作」重點專項:大湖流域生態-水安全保障關鍵技術研究及應用示範(2018YFE0206400),課題一:鄱陽湖流域極端氣候演變規律與集合預報技術,2019.12-2022.11,主持。
3. 福建省高校傑出青年科研人才培育計劃,2019-2021,主持。
4. 福建省科技廳省屬公益類科研專項:基於WRF-Ensemble的東南沿海暴雨預報技術(2019R1002-3),2019-2022,主持。
5. 國家自然青年基金:複雜地形區的再分析資料降尺度研究——以天山山區為例(41501106),2016.01-2018.12,主持。
6. 教育部留學回國人員科研啟動基金:ERA-Interim再分析資料的中國區域適用性評估與統計降尺度研究(2014-1685),2015-2017,主持。
7. 福建省科技廳省屬公益類科研專項:基於歷史災害案例的極端降水事件閾值界定方法研究(2014R1034-6),2014-2016,主持。
8. 福建省教育廳A類項目:ECMWF再分析氣溫資料在天山山區的適用性評估(JA14083),2015-2017,主持。
9. 福建省科技廳自然科學基金青年創新項目:基於再分析資料的青藏高原氣溫降尺度研究(2015J05080),2015-2018,主持。[1]