人物經歷
教育經歷
博士後 中科院地理科學與資源研究所 2009.11-2013.06(北京)
博士中科院地理科學與資源研究所 2005.09-2008.06(北京)
碩士 西安理工大學 2002.09-2005.04(西安)
學士 河海大學 1999.09-2002.06(南京)
工作經歷
社會工作
中國自然資源學會青年工作委員會委員、水資源專業委員會委員,美國生態學會(ESA)、國際水資源協會(IWRA)、中國地理學會會員,《南水北調與水利科技》編委
主講課程
研究生課程《生態水文學》
研究生課程《水資源管理》
研究方向
遙感水文,生態水文
出版圖書
作者名稱:趙長森
作者類型:
作者時間:2015年3月1日
《遙感水文》介紹了遙感水文是當前科學研究的前沿和熱點領域。《遙感水文》從水文學和遙感科學與技術的發展歷史出發,闡述了水文學發展過程中空間數據獲取的重要性,介紹了遙感科學與水文學的基本原理,詳細論述了在水文學套用中所需要的基本遙感技術及其處理方法,並從不同尺度闡述了遙感水文模型的構建與套用。
研究成果
主持項目
(1)北京市項目
項目名稱:北京市面源污染估算與分析
(2)貴州省項目
項目名稱:南明河流域多水源水量-水質-水生態聯合調度研究
(3)山東省項目
項目名稱:濟南市水文局計算濟南市河道生態基流(生態流量)
(4)國家科技部十三五專題
項目名稱:林草、梯田對流域產水產沙的耦合作用機制
(5)北京市項目
項目名稱:北京市暴雨山洪災害風險應對關鍵技術研究
項目名稱:小流域暴雨洪水模型參數空間尺度轉換研究
(7)山東省科技支撐項目
項目名稱:濟南市水生態健康動態評價
(8)山東省科技支撐項目
項目名稱:濟南市水生態時空變異驅動機制及自動監測模式
項目名稱:高強度人類活動下典型河流水生態安全閾值研究
(10)第四十七批中國博士後科學基金
項目名稱:氣候變化和人類活動對潮白河生態缺水影響的定量分解
(11)2012-2013年水利重大課題
項目名稱:保障國家水安全戰略研究之生態安全專題子課題“生態安全現狀與發展態勢”
項目名稱:基於關鍵功能組的河道內生態需水研究
項目名稱:河口地區河道內生態需水研究--以東江為例
項目名稱:秦嶺北坡降水的時空演變特徵研究
代表性論文
[1] Zhao, C.S., Yang, Y., Yang, S.T., Xiang, H., Wang, F., Chen, X., Zhang, H.M. and Yu, Q. (2019). Impact of spatial variations in water quality and hydrological factors on the food-web structure in urban aquatic environments. Water Research. 153: 121-133. (DOI: 10.1016/j.watres.2019.01.015)
[2] Zhao, C., Yang, S., Liu, J., Liu, C., Hao, F., Wang, Z., Zhang, H., Song, J., Mitrovic, S.M. and Lim, R.P. (2018). Linking fish tolerance to water quality criteria for the assessment of environmental flows: A practical method for streamflow regulation and pollution control. Water Research, 141: 96-108. (DOI: 10.1016/j.watres.2018.05.025)
[3] Zhao, C.S., Yang, S.T., Sun, Y., Zhang, H.T., Sun, C.L., Xu, T.R., Lim, R.P. and Mitrovic, S.M. (2018). Estimating river accommodation capacity for organic pollutants in data-scarce areas. Journal of Hydrology. 564: 442-451. (DOI: 10.1016/j.jhydrol.2018.07.022)
[4] Chen, J.X., Xia, J., Zhao, C.S., Zhang, S.F., &Fu, G.B. (2014). The Mechanism and Scenarios of how Mean Annual Runoff Varies with Climate Change in Asian monsoon areas. Journal of Hydrology, 517: 595-606. (DOI: 10.1016/j.jhydrol.2014.05.075)
[5] Zhao, C., Zhang, Y., Yang, S., Xiang, H., Sun, Y., Yang, Z., Yu, Q. and Lim, R.P. (2018). Quantifying effects of hydrological and water quality disturbances on fish with food-web modeling. Journal of Hydrology, 560: 1-10. (DOI: 10.1016/j.jhydrol.2018.03.017)
[6] Zhao, C.S., Shao, N.F., Yang, S.T., Xiang, H., Lou, H.Z., Sun, Y., Yang, Z.Y., Zhang, Y., Yu, X.Y., Zhang, C.B., & Yu, Q. (2018). Identifying the principal driving factors of water ecosystem dependence and the corresponding indicator species in a Pilot City, China. Journal of Hydrology, 556 :488–499. (DOI: 10.1016/j.jhydrol.2017.11.031)
[7] Zhao, C.S., Zhang, C.B., Yang, S.T., Liu, C.M., Xiang, H., Sun, Y., Yang, Z.Y., Zhang, Y., Yu, X.Y., Shao, N.F. & Yu, Q. (2017). Calculating e-flow using UAV and ground monitoring. Journal of Hydrology, 552: 351–365. (DOI: 10.1016/j.jhydrol.2017.06.047)
[8] Zhao, C.S., Yang, S.T., Zhang, H.T., Liu, C.M., Sun, Y., Yang, Z.L., Zhang, Y., Dong, B.E., & Lim, R.P. (2017). Coupling Habitat Suitability and Ecosystem Health with AEHRA to Estimate E-flows under Intensive Human Activities. Journal of Hydrology, 551: 470–483. (DOI: 10.1016/j.jhydrol.2017.05.047)
[9] Zhao, C.S., Yang, S.T., Xiang, H., Liu, C.M., Zhang, H.T., Yang, Z.L., Zhang ,Y., Sun, Y., Mitrovic, S.M., & Yu, Q. (2015). Hydrologic and water-quality rehabilitation of environments for suitable fish habitat. Journal of Hydrology, 530, 799-814. (DOI: 10.1016/j.jhydrol.2015.10.031)
[10] Zhao, C.S., Yang, S.T., Liu, C.M., Dou, T.W., Yang, Z.L., Yang, Z.Y., Liu, X.L., Xiang, H., Nie, S.Y., &Zhang, J.L. (2015). Linking hydrologic, physical and chemical habitat environments for the potential assessment of fish community rehabilitation in a developing city. Journal of Hydrology, 523: 384-397. (DOI: 10.1016/j.jhydrol.2015.01.067)
[11] Zhao, C.S., Liu, C.M., Xia, J., Zhang, Y.Y., Yu, Q., & Eamus, D. (2012). Recognition of Key Regions for Restoration of Phytoplankton Communities in the Huai River basin, China. Journal of Hydrology, 420-421: 292-300. (DOI: 10.1016/j.jhydrol.2011.12.016)
[12] Xu, T., Guo, Z., Xia, Y., Ferreira, V. G., Liu, S., Wang, K., ... & Zhao, C.* (2019). Evaluation of Twelve Evapotranspiration Products from Machine Learning, Remote Sensing and Land Surface Models over Conterminous United States. Journal of Hydrology, 124105. DOI: 10.1016/j.jhydrol.2019.124105
[13] Liu, C.M., Zhao, C.S.*, Xia, J., Sun, C.L., Wang, R., &Liu, T. (2011). An Instream Ecological Flow Method for Data-scarce Regulated Rivers. Journal of Hydrology, 398: 17-25. (DOI: 10.1016/j.jhydrol.2010.11.026)
[14] Zhao, C., Pan, T., Dou, T., Liu, J., Liu, C., Ge, Y., Zhang, Y., Yu, X., Mitrovic, S. and Lim, R., 2019. Making global river ecosystem health assessments objective, quantitative and comparable. Science of The Total Environment. 667: 500-510. (DOI: 10.1016/j.scitotenv.2019.02.379)
[15] Zhao, C.S., Shao, N.F., Yang, S.T., Ren, H., Ge, Y.R., Zhang, Z.S., Feng, P. and Liu, W.L., 2019. Quantitative assessment of the effects of human activities on phytoplankton communities in lakes and reservoirs. Science of The Total Environment. 665: 213-225. (DOI: 10.1016/j.scitotenv.2019.02.117)
[16] Zhao, C.S., Yang, Y., Yang, S.T., Xiang, H., Zhang, Y., Wang, Z.Y., Chen, X. and Mitrovic, S.M. (2019). Predicting future river health in a minimally influenced mountainous area under climate change. Science of The Total Environment. 656: 1373-1385. (DOI: 10.1016/j.scitotenv.2018.11.430)
[17] Lou, H.Z., Yang, S.T., Zhao, C.S.*, Shi, L.H., Wu, L.N., Wang, Y., & Wang, Z.W. (2016). Detecting and analyzing soil phosphorus loss associated with critical source areas using a remote sensing approach. Science of the Total Environment, 573, 397-408. (DOI: 10.1016/j.scitotenv.2016.08.048)
[18] Zhao, C. S., Pan, T. L., Xia, J., Yang, S. T., Zhao, J., Gan, X. J., ... & Ding, S. Y. (2019). Streamflow calculation for medium-to-small rivers in data scarce inland areas. Science of The Total Environment, 693, 133571. DOI:10.1016/j.scitotenv.2019.07.377.
[19] Zhao, C.S., Shao, N.F., Yang, S.T., Ren, H., Ge, Y.R., Feng, P., Dong, B.E. and Zhao, Y., 2019. Predicting cyanobacteria bloom occurrence in lakes and reservoirs before blooms occur. Science of The Total Environment. 670: 837-848. (DOI: 10.1016/j.scitotenv.2019.03.161)
[20] Yang, S., Guan, Y., Zhao, C.*, Zhang, C., Bai, J., & Chen, K. (2019). Determining the influence of catchment area on intensity of gully erosion using high-resolution aerial imagery: A 40-year case study from the Loess Plateau, northern China. Geoderma, 347, 90-102. (DOI: 10.1016/j.geoderma.2019.03.042)
[21] 趙長森,潘旭,楊勝天,劉昌明,陳新,張含明,潘天力. (2019). 低空遙感無人機影像反演河道流量[J]. 地理學報, 74 (7): 1360-1376.
[22] 劉昌明,門寶輝,趙長森. 生態需水及其與流速因素的相互作用[J]. 水科學進展, 2020, 網路首發.
[23] 張遠,趙長森*,楊勝天,張惠潼,相華,孫影,楊增麗,董寶恩,劉德虎,張純斌,於心怡.基於Ecopath的小清河河流生態系統關鍵功能組分析[J].南水北調與水利科技,2017,15(06):66-73.
[24] 張遠,趙長森*,楊勝天,劉昌明,張惠潼,相華,孫影,楊增麗,董寶恩,劉德虎,張純斌,於心怡.耦合多物種生態流速的生態需水計算方法[J].北京師範大學學報(自然科學版),2017,53(03):337-343.
合作專著
[1]蔣艷,欒震宇,趙長森.淮河流域閘壩運行對河流生態與環境影響研究.北京:中國水利水電出版社, 2014.
[2]撰寫第9章.黃領梅,沈冰等.人類活動對乾旱區水文情勢的影響—以新疆和田為例.北京:水利水電出版社, 2010.
[3] Zhao Changsen, Xia Jun and Zhan Chesheng. Advance in regional land-surface evapotranspiration. In“Water Security to Climate Change and Human Activity in East Asia and Pacific Region”edited by Xia Jun and Liu Suxia. Beijing: China Meteorological Press, 2008.
[4]楊勝天,趙長森.遙感水文.北京:科學出版社, 2015.
[5]楊勝天,王志偉,趙長森,蔡明勇.遙感水文數字實驗-EcoHAT使用手冊.北京:科學出版社, 2015.
所獲榮譽
2019年貴州省自然科學一等獎;
2018年水利部大禹獎;
2011年澳大利亞政府頒發的獎學金"2011 Endeavour Australia Cheung Kong Research Fellowship";
2010年獲第四十七批中國博士後科學基金一等資助;
2007年獲教育部科技進步二等獎。