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中国科学院大学    资源与环境学院
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个人简介

招生专业 070503-地图学与地理信息系统 招生方向 地表水资源遥感 湿地生态 教育背景 2003-09--2008-06 浙江大学 硕士、博士 1999-09--2003-07 湖南科技大学 本科 工作简历 2020-03~现在, 中国科学院空天信息创新研究院, 副研究员 2019-08~2020-06,美国波士顿大学, 访问学者 2012-03~2019-08,中国科学院遥感与数字地球研究所, 副研究员 2012-02~2012-07,澳大利亚墨尔本大学, 访问学者 2011-05~2012-01,中国科学院遥感应用研究所, 助理研究员 2008-07~2010-04,中国科学院遥感应用研究所, 博士后、助理研究员 专著(参与编写) [1]《基于区域蒸散的北京市水资源管理》,科学出版社,2016. [2]《三北防护林工程生态环境效应遥感监测与评估研究》,科学出版社,2016. [3]《流域下垫面变化及其对洪水径流过程影响分析方法及应用》,中国水利水电出版社,2017. 科研项目 ( 1 ) 青藏高原湖泊过程及其与大气相互作用的高分辨率模式发展和模拟研究, 主持, 国家级, 2017-01--2020-12 ( 2 ) 面向水资源管理的天然水循环要素遥感监测技术研究, 主持, 国家级, 2017-07--2020-12 ( 3 ) 资源环境承载力综合评价技术系统集成与应用, 主持, 国家级, 2017-01--2020-12 ( 4 ) 一带一路可持续发展指标选择与示范, 参与, 部委级, 2018-10--2022-12 ( 5 ) 湖泊演变与气候变化响应, 参与, 国家级, 2019-11--2022-10 参与会议 (1)Remote Sensing Estimation and Analysis of Lake Water Storage in Tibetan Plateau 2018-03-27 (2)Lake Water Surface Variations and Its Influencing Factors in Tibetan Plateau During the Period of 2000-2012 2017-09-05 (3)Introduction of the CCafa Project 2016-06-20 (4)Quantifying impacts of climate variability and human activities on the hydrological system of the Haihe River Basin, China 2015-09-13 (5) Lake water volume calculation with time series remote sensing images 2013-04-26 (6)Flood monitoring with China's resources, environment, and weather satellite images 2013-03-13 (7)Spatiotemporal surface water monitoring and simulation with remote sensing 2012-10-23 (8)Lake water storage calculation with time series remote sensing images 2011-10-30 (9)40 years of land use changes in Baiyangdian Wetland 2009-09-15 已完成的科研项目 (1)2018.03-2019.04,水利部海河水利委员会海河流域水资源保护局项目“大清河系主要河湖健康评估(2018)” (2)2018.04-2018.12,中国地质科学院项目“中亚五国及中国相邻地区水文循环参量遥感监测与反演” (3)2017.04-2018.05,水利部海河水利委员会海河流域水资源保护局项目“永定河系健康评估(2017)” (4)2016.06-2018.12,遥感科学国家重点实验室自由探索项目“基于地形自相似理论的湖泊水储量遥感估算方法研究” (5)2015.01-2015.12,国家自然科学基金应急管理项目“近30年青藏高原湖泊水面变化及其区域气候效应” (6)2012-2014,国家自然科学基金青年科学基金项目“基于多源异构数据的湖泊水储量遥感估算方法研究” (7)2012-2014,遥感科学国家重点实验室重大研究计划项目“基于多传感器多时相遥感数据的水面时空过程重建方法研究及应用示范” (8)2013.07-2013.12,国家自然科学基金国际(地区)合作与交流项目“基于多源异构数据的水面时空过程重建方法研究” (9)2011-2013,水利部公益性行业专项经费项目“变化环境条件下海河流域水资源评估关键技术研究”子课题“基于遥感的流域下垫面变化综合分析” (10)2009-2012,水利部公益性行业专项经费项目“海河流域下垫面要素变化及对洪水影响研究”子课题“海河流域下垫面要素识别及水文单元区划” (11)2007-2012,中国科学院知识创新工程重大项目“重大工程生态环境效应遥感监测与评估”子课题“海河流域治理工程生态环境效应遥感监测与评估

研究领域

地表水资源遥感。重点开展基于卫星遥感的时空连续地表水动态变化监测、地表水动态变化与区域气候相互作用、湖库水储量和河川径流量估算、河流湖泊地貌变迁等方面研究。

近期论文

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[1] Lu, S., Chen, F., Zhou, J., Hughes, A.C., Ma, X., Gao, W. 2020. Cascading implications of a single climate change event for fragile ecosystems on the Qinghai-Tibetan Plateau. Ecosphere, 11(9): e03243. [2] Ikhumhen, H.O., Li, T., Lu, S., Matomela, N. 2020. Assessment of a novel data driven habitat suitability ranking approach for Larus relictus specie using remote sensing and GIS. Ecological Modelling, 432: 109221. [3] Ikhumhen, H.O., Li, T., Lu, S., Matomela, N. 2020. Larus relictus HABITAT HIERARCHICAL EVALUATION BASED ON A DATA DRIVEN APPROACH. Environmental Engineering and Management Journal, 19(12): 2217-2229. [4] Zhang, S., Ma, Y., Chen, F., Liu, J., Chen, F., Lu, S., Jiang, L., Li, D. 2020. A new method for supporting interpretation of paleochannels in a large scale — Detrended Digital Elevation Model Interpretation. Geomorphology, 369: 107374. [5] Lu, S.; Chen, F.; Zhou, J.; Hughes, A.C. 2019. Accounting for the long lasting unexpected impacts of climate change on the Tibetan antelope survival. Science, eLetters, https://science.sciencemag.org/content/366/6462/194/tab-e-letters. [6] Lu, S., Ma, J., Ma, X., Tang, H., Zhao, H., and Ali Bai Hasan, M. 2019. Time series of Inland Surface Water Dataset in China (ISWDC) for 2000-2016 derived from MODIS archives. Earth Syst. Sci. Data, 11, 1-10, https://doi.org/10.5194/essd-11-1-2019. [7] Lu, S., Ma, J., Ma, X., Tang, H., Zhao, H., and Ali Bai Hasan, M. 2018. Time series of Inland Surface Water Dataset in China (ISWDC) [Data set]. Zenodo. https://doi.org/10.5281/zenodo.2616035. [8] Zhai, Z., Lu, S., Wang, P., Tang, H., Liu, D., Han, Q., Guo, J., Liu, X., Wei, T. 2021. Ocean Chlorophyll-a retrieval using GF1-WFV data-a case study of the central Bohai Sea. IOP Conference Series: Earth Environmental Science, 626: 012021. [9] Tang, H., Lu, S., Cheng, Y., Ge, L., Zhang, J. 2019. Analysis of dynamic changes and influence factors of Lake Balkhash in the last twenty years. Journal of Groundwater Science and Engineering, 7(3): 214-223. [10] Zhang, Q., Jin, J., Zhu, L., Lu, S. 2018. Modeling of water surface temperature of three lakes on the Tibetan Plateau using a physically based lake model. Atmosphere-Ocean, doi:10.1080/07055900.2018.1474085. [11] Li J., Guo, Y., Wang, Y., Lu, S., Chen, X. 2018. Drought Propagation Patterns under Naturalized Condition Using Daily Hydrometeorological Data. Advances in Meteorology, https://doi.org/10.1155/2018/2469156. [12] Zhang, L., Lu, D., Li, Q., Lu, S. 2018. Impacts of socioeconomic factors on cropland transition and its adaptation in Beijing, China. Environmental Earth Sciences, 77: 575. [13] Lu, S., Li, J., Zhang, L., Wei, Y., Baig, M.H.A., Zhai, Z., Meng, J., Li, X., Zhang, G. 2017. Lake water surface mapping in the Tibetan Plateau using the MODIS MOD09Q1 product, Remote Sensing Letters, 8(3): 224-233. [14] Lu, S., Zhou, J., Dubee, F. 2016. New allies fight for China's environment. Science, 352 (6287), 781. [15] Lu, S., Zhang, L., Guo, S., Fan, L., Meng, J., Wang, G. 2016. Forty years channel change on the Yongdinghe River, China: Patterns and causes. The International Journal of River Basin Management, 2016, 14(2): 183-193. [16] Lu, S., Wu, B., Wei, Y., Yan, N., Wang, H., Guo, S. 2015. Quantifying the impacts of climate variability and human activities on the hydrological system of the Haihe River Basin, China. Environmental Earth Sciences, 73:1491-1503. [17] Lu, S., Ouyang, N., Wu, B., Wei, Y., Tesemma, Z. 2013. Lake water volume calculation with time series remote-sensing images. International Journal of Remote Sensing, 34(22): 7962-7973. [18] Lu, S., Wu, B., Wang, H., Ouyang, N., Guo, S. 2012. Hydro-ecological impact of water conservancy projects in the Haihe River Basin. Acta Oecologica, 44: 67-74. [19] Lu, S., Wu, B., Yan, N., Wang, H. 2011. Water body mapping method with HJ-1A/B satellite imagery. International Journal of Applied Earth Observation and Geoinformation, 3(13): 428-434. [20] Lu, S., Zou, L., Shen, X., Wu, W., Zhang, Z. 2010. Multi-spectral remote sensing image enhancement method based on PCA and IHS transformation. Journal of Zhejiang University-SCIENCE A, 16(6): 453-460. [21] Lu, S., Shen, X., Zou, L., et al. 2008. Remote sensing image enhancement method of the fault thermal information based on scale analysis: A case study of Jiangshan-Shaoxing fault between Jinhua and Quzhou of Zhejiang Province, China. Chinese Journal of Geophysics, 51(5): 1047-1057. [22] Lu, S., Shen, X., Zou, L., et al. 2008. An integrated classification method for Thematic Mapper imagery of plain and highland terrains. Journal of Zhejiang University SCIENCE A, 9(6): 858-866. [23] Lu, S., Shen, X., Zou, L. 2006. Land cover change in Ningbo and its surrounding area of Zhejiang Province, 1987-2000. Journal of Zhejiang University SCIENCE A, 7(4): 633-640. [24] Lu, S., Wu, B., Li, F. 2011. Wetland pattern change in Hai Basin. Journal of Remote Sensing, 15(2): 349-371. [25] Ouyang, N., Lu, S., Zhu, J., Wu, B., Wang, H. 2011. Wetland Restoration Suitability Evaluation at the Watershed Scale - A Case Study in Upstream of the Yongdinghe River. Procedia Environmental Sciences, 10: 1926-1932. [26] Wu, B., Lu, S. 2011. Watershed remote sensing: methodology and a paradigm in Hai Basin. Journal of Remote Sensing, 15(2): 201-223. [27] Zhang, L., Li, X., Lu, S., Jia, K. 2016. Multi-scale object-based measurement of arid plant community structure. International Journal of Remote Sensing, 37(10): 2168-2179 [28] Wang, H., Wu, B., Lu, S., Li, J., Ouyang, N. 2011. Water resources estimation model based on remote sensing evapotranspiration. ISWREP, 2: 936-939. [29] Wu B., Xiong, J., Lu, S. 2010. Discussion on Remote Sensed ET validation and Land-use Accuracy Assessment. HAIHE River Basin Research and Planning Approach-Proceedings of 2009 International Symposium of HAIHE Basin Integrated Water and Environment Management. 978-0-9807687-1-8: 336-342. [30] Xing, Q., Wu, B., Zhu, W., Lu, S. 2013. The improved ET calculation in winter by introducing radar-based aerodynamic roughness information into ETWatch System. IEEE IGARSS, 1824-1826. [31] Wu, W., Zou, L., Shen, X., Lu, S., et al. 2012. Thermal anomalies associated with faults: a case study of the Jinhua–Quzhou basin of Zhejiang Province, China. International Journal of Remote Sensing, 33(6): 1850-1867. [32] Wu, W., Zou, L., Shen, X., Lu, S., et al. 2012. Thermal infrared remote-sensing detection of thermal information associated with faults: A case study in Western Sichuan Basin, China. Journal of Asian Earth Sciences, 43: 110-117. [33] Zhang, X., Wu, B., Li, X., Lu, S. 2012. Soil erosion risk and its spatial pattern in upstream area of Guanting reservoir. Environmental Earth Sciences, 65(1): 221-229. [34] Zhang, G., Zou, L., Shen, X., Lu, S., et al. 2009. Remote sensing detection of heavy oil through spectral enhancement techniques in the western slope zone of Songliao Basin, China. AAPG Bulletin, 93(1): 31-49. [35] Zhu, W., Wu, B., Lu, S. 2014. An improved empirical method for large spatial scale surface soil heat flux estimations. Earth and Environmental Science, 17: 1-6. [36] Baig, M.H.A., Zhang, L., Wang, S., Jiang, G., Lu, S., Tong, Q. 2013. Comparison of MNDWI and DFI for water mapping in flooding season. IEEE IGARSS, 2876-2879. [37] Zhang, G., Shen, X., Zou, L., Li, C., Wang, Y., Lu, S. 2007. Detection of hydrocarbon bearing sand through remote sensing techniques in the western slope zone of Songliao basin, China. International Journal of Remote Sensing, 28(8): 1819-1833. [38] 卢善龙, 陈甫, 邱玉宝. 2018. 三江源国家公园核心区卓乃湖沙化严重. 中国科学院专报信息, 135. 中办国办采纳. [39] 牛振国, 卢善龙, 朱亮. 2017. 白洋淀流域地表水和湿地减少严重. 中国科学院专报信息, 112. 中办国办采纳. [40] 王 辉, 卢善龙, 丁俊, 邱玉宝, 唐海龙, 闫强. 2020. 气候变化对南极冰面湖的影响研究—以埃默里和拉森A冰架为例. 极地研究, 32(3): 322-335. [41] 马小奇, 卢善龙, 马津等. 2019. 基于地形参数的湖泊水储量估算方法——以青藏高原纳要错为例. 国土资源遥感. 31(4), 167-173. [42] 翟召坤, 卢善龙, 暴柱等, 2018. 基于GF-1卫星WFV数据的潘家口水库水质参数遥感估算模型研究. 中国水利水电科学研究院学报, 16(4): 297-306. [43] 马津, 卢善龙, 齐建国, 翟召坤. 2019. 水文资料缺乏区河流流量遥感估算模型研究与应用. 测绘科学, 44(5): 184-190. [44] 卢善龙, 金继明, 贾立等. 2017. 基于MODIS MOD09Q1的青海、西藏湖泊水面数据集(2000~2012). 中国科学数据, 2(2). DOI: 10.11922/csdata.170.2016.0113. [45] 卢善龙, 肖高怀, 贾立等. 2016. 2000~2012 年青藏高原湖泊水面时空过程数据集遥感提取. 国土资源遥感. 28(3): 181-187. [46] 卢善龙, 吴炳方, 李发鹏等. 2010. 河川径流遥感监测研究进展. 地球科学进展, 25(8): 820-826. [47] 翟召坤, 卢善龙, 王萍等. 2017. 基于NSIDC海冰产品的FY北极海冰数据集优化. 地球信息科学, 19(2): 143-151. [48] 王浩, 卢善龙, 吴炳方, 李晓松. 2013. 不透水面提取及应用研究进展. 地球科学进展, 28(3): 327-336 [49] 欧阳宁雷, 卢善龙, 吴炳方, 朱建军, 王浩. 2012. 流域尺度湿地恢复及可行性评价——以白洋淀流域为例. 湿地科学. 10(2): 200-205. [50] 王京, 卢善龙, 吴炳方等. 2010. 近40年白洋淀湿地土地区覆被变化分析. 地球信息科学学报, 12(2): 292-299. [51] 孙玉燕, 张磊, 卢善龙, 刘红超. 2020. 基于动态NDSI阈值的每日积雪监测方法. 地球信息科学学报, 22(2): 298-307. [52] 肖高怀, 侯淑涛, 卢善龙等. 2015. 基于Saxton 模型的土壤水分特征栅格化计算平台研究. 东北农业大学学报. 46(5): 68-74. [53] 刘梅, 李发鹏, 卢善龙, 乔玉霜, 刘焕焕. 2011. 流域系统重金属污染研究进展. 安徽农业科学, 39(25): 15622-15626. [54] 吴炳方, 熊隽, 卢善龙, 闫娜娜. 2009. 遥感蒸散和土地利用的精度验证问题. 2009年GEF海河流域水资源与水环境综合管理项目国际研讨会, 2009-12-01, 604-613. [55] 王浩, 吴炳方, 李晓松, 卢善龙. 2011. 流域尺度的不透水面遥感提取. 遥感学报, 15(2): 288-400. [56] 武文波, 姬翠翠, 李晓松, 卢善龙等. 2010. 影响土壤水蚀的环境因子分析. 中国水土保持, 5: 36-38. [57] 罗海静, 资锋, 陈玲, 张微, 卢善龙. 2015. 高分一号卫星在国土资源领域的应用及前景. 卫星应用, 3: 41-43. [58] 吴炳方, 周月敏, 闫娜娜, 曾源, 熊隽, 李晓松, 卢善龙, 张磊. 2009. 区域生态遥感的发展与未来. 遥感学报, 13(s1): 138-144.

学术兼职

2015-01-01-今,中国生物多样性保护与绿色发展基金会北京研究院, 副院长

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