[1] 梅安新, 彭望琭, 秦其明, 等. 遥感导论[M]. 北京: 高等教育出版社, 2001. [ MeiA X, PengW L, QinQ M, et al.Introduction to remote sensing [M]. Beijing: Higher Education Press, 2001. ] [ Mei A X, Peng W L, Qin Q M, et al. Introduction to remote sensing [M]. Beijing: Higher Education Press, 2001. ]

[2] 郭之怀. 遥感技术在环境保护领域中的应用现状[J]. 环境科学, 1993,14(4):28-33. [ GuoZ H. Application status of remote sensing technology in environmental protection[J]. Environmental Science, 1993,14(4):28-33. ] [ Guo Z H. Application status of remote sensing technology in environmental protection [J]. Environmental Science, 1993,14(4):28-33. ]

[3] 陈述彭. 天津—环渤海地区环境遥感论文集[M]. 北京: 科学出版社, 1985: 1-6. [ ChenS P. Proceedings of Tianjin-Bohai rim environmental remote sensing[M]. Beijing: Science Press, 1985: 1-6. ] [ Chen S P. Proceedings of Tianjin-Bohai rim environmental remote sensing[M]. Beijing: Science Press, 1985:1-6. ]

[4] 王桥, 郑丙辉. 环境遥感技术研究与应用进展[J]. 卫星应用, 2006,14(1):35-40. [ WangQ, ZhenB H. Research and application progress of environmental remote sensing technology[J]. Satellite Application, 2006,14(1):35-40. ] [ Wang Q, Zhen B H. Research and application progress of environmental remote sensing technology[J]. Satellite Application, 2006,14(1):35-40. ]

[5] 童庆禧. 中国遥感发展及其贡献[J]. 中国科学院院刊, 2013(z1):17-24. [ TongQ X. Development and Contribution of Remote Sensing in China[J]. Bulletin of the Chinese Academy of Sciences, 2013(z1):17-24. ] [ Tong Q X. Development and Contribution of Remote Sensing in China[J]. Bulletin of the Chinese Academy of Sciences, 2013(z1):17-24. ]

[6] 虞献平. “三北”防护林遥感综合调查[J]. 遥感信息, 1987(1):39-40. [ YuX P. Remote sensing comprehensive investigation of "Three North" shelterbelts[J]. Remote Sensing Information, 1987(1):39-40. ] [ Yu X P. Remote sensing comprehensive investigation of "Three North" shelterbelts[J]. Remote Sensing Information, 1987(1):39-40. ]

[7] 陈光伟. 黄土高原资源与环境遥感调查简介[J]. 自然资源学报, 1987,2(3):287-288. [ ChenG W. Remote sensing survey of resources and environment in the Loess Plateau[J]. Journal of Natural Resources, 1987,2(3):287-288. ] [ Chen G W. Remote sensing survey of resources and environment in the Loess Plateau [J]. Journal of Natural Resources, 1987,2(3):287-288. ]

[8] 张增祥. 我国资源环境遥感监测技术及其进展[J]. 中国水利, 2004(11):52-54. [ ZhangZ X. Remote sensing technology used in resource and environment monitoring in China and its development[J]. China Water Resources, 2004(11):52-54. ] [ Zhang Z X. Remote sensing technology used in resource and environment monitoring in China and its development[J]. China Water Resources, 2004(11):52-54. ]

[9] 刘纪远. 国家资源环境遥感宏观调查与动态监测研究[J]. 遥感学报, 1997,1(3):225-230. [ LiuJ Y. Study on National Resources & Environment Survey and Dynamic Monitoring Using Remote Sensing[J]. Journal of Remote Sensing, 1997,1(3):225-230. ] [ Liu J Y. Study on National Resources & Environment Survey and Dynamic Monitoring Using Remote Sensing [J]. Journal of Remote Sensing, 1997,1(3):225-230. ]

[10] 朱会义, 李秀彬, 何书金, 等. 环渤海地区土地利用的时空变化分析[J]. 地理学报, 2001,68(3):253-260. [ ZhuH Y, LiX B, HeS J, et al. Spatio-temporal change of land use in Bohai Rim[J]. Acta Geographica sinica, 2001,68(3):253-260. ] [ Zhu H Y, Li X B, He S J, et al. Spatio-temporal change of land use in Bohai Rim[J]. Acta Geographica sinica, 2001,68(3):253-260. ]

[11] 刘军会, 高吉喜. 北方农牧交错带界线变迁区的土地利用与景观格局变化[J]. 农业工程学报, 2008,24(11):76-82. [ LiuJ H, GaoJ X. Changes of land use and landscape pattern in the boundary change areas in farming-pastoral eco-tone of Northern China[J]. Journal of Agricultural Engineering, 2008,24(11):76-82. ] [ Liu J H, Gao J X. Changes of land use and landscape pattern in the boundary change areas in farming-pastoral eco-tone of Northern China[J]. Journal of Agricultural Engineering, 2008,24(11):76-82. ]

[12] 刘军会, 高吉喜, 马苏, 等. 中国生态环境敏感区评价[J]. 自然资源学报, 2015,30(10):1607-1616. [ LiuJ H, GaoJ X, MaS, et al. Evaluation of ecological sensitivity in China[J]. Journal of Natural Resources, 2015,30(10):1607-1616. ] [ Liu J H, Gao J X, Ma S, et al. Evaluation of ecological sensitivity in China[J]. Journal of Natural Resources, 2015,30(10):1607-1616. ]

[13] 侯鹏, 翟俊, 曹巍, 等. 国家重点生态功能区生态状况变化与保护成效评估——以海南岛中部山区国家重点生态功能区为例[J]. 地理学报, 2018,73(3):429-441. [ HouP, ZhaiJ, CaoW, et al. Ecosystem changes and implementation effect evaluation in the national key ecological function zones: central mountainous area of Hainan Island[J]. Acta Geographica Sinica, 2018,73(3):429-441. ] [ Hou P, Zhai J, Cao W, et al. Ecosystem changes and implementation effect evaluation in the national key ecological function zones: central mountainous area of Hainan Island[J]. Acta Geographica Sinica, 2018,73(3):429-441. ]

[14] 侯鹏, 王桥, 杨旻, 等. 生态保护红线成效评估框架与指标方法[J]. 地理研究, 2018,37(10):1927-1937. [ HouP, WangQ, YangM, et al. China's ecological protection redlines: Evaluation framework and method of protection effect[J]. Geographical research, 2018,37(10):1927-1937. ] [ Hou P, Wang Q, Yang M, et al. China's ecological protection redlines: Evaluation framework and method of protection effect[J]. Geographical research, 2018,37(10):1927-1937. ]

[15] 侯鹏, 杨旻, 翟俊, 等. 论自然保护地与国家生态安全格局构建[J]. 地理研究, 2017,36(3):420-428. [ HouP, YangM, ZhaiJ, et al. Discussion about natural reserve and construction of national ecological security pattern[J]. Geographical Research, 2017,36(3):420-428. ] [ Hou P, Yang M, Zhai J, et al. Discussion about natural reserve and construction of national ecological security pattern[J]. Geographical Research, 2017,36(3):420-428. ]

[16] 郑新江, 罗敬宁, 刘征. FY-1C气象卫星在沙尘暴监测中的应用[J]. 上海航天, 2001(1):55-60. [ ZhenX J, LuoJ N, LiuZ. Study of using FY-1c meteorological satellite to monitor the dust storm[J]. Aerospace Shanghai, 2001(1):55-60. ] [ Zhen X J, Luo J N, Liu Z. Study of using FY-1c meteorological satellite to monitor the dust storm[J]. Aerospace Shanghai, 2001(1):55-60. ]

[17] 何立明, 王文杰, 王桥, 等. 中国秸秆焚烧的遥感监测与分析[J]. 中国环境监测, 2007,23(1):42-50. [ HeL M, WangW J, WangQ, et al. Evaluation of the agricultural residues burning reduction in China using MODIS Fire Product[J]. Environmental Monitoring in China, 2007,23(1):42-50. ] [ He L M, Wang W J, Wang Q, et al. Evaluation of the agricultural residues burning reduction in China using MODIS Fire Product[J]. Environmental Monitoring in China, 2007,23(1):42-50. ]

[18] 高一博, 梅世玉, 麻金继, 等. 基于OMI数据2005-2012年中国区域SO2时空变化特征研究[J]. 大气与环境光学学报, 2016,11(4):300-312. [ GaoY B, MeiS Y, MaJ G, et al. Spatiotemporal variations of SO2 over China by OMI observations during 2005-2012[J]. Journal of Atmospheric and Environmental Optics, 2016,11(4):300-312. ] 2时空变化特征研究[J].大气与环境光学学报,2016,11(4):300-312. [ Gao Y B, Mei S Y, Ma J G, et al. Spatiotemporal variations of SO2 over China by OMI observations during 2005-2012[J]. Journal of Atmospheric and Environmental Optics, 2016,11(4):300-312. ]

[19] 周春艳, 厉青, 张丽娟, 等. 遥感监测2005-2015年中国NO2时空特征及分析影响因素[J]. 遥感技术与应用, 2016,31(6):1190-1200. [ ZhouC Y, LiQ, ZhangL J, et al. Spatio-temporal change and influencing factors of tropospheric NO2 column density of China during 2005-2015[J]. Remote Sensing Technology and Application, 2016,31(6):1190-1200. ] 2时空特征及分析影响因素[J].遥感技术与应用,2016,31(6):1190-1200. [ Zhou C Y, Li Q, Zhang L J, et al. Spatio-temporal change and influencing factors of tropospheric NO2 column density of China during 2005-2015[J]. Remote Sensing Technology and Application, 2016,31(6):1190-1200. ]

[20] 孟倩文, 尹球. 中国区域CO2多年时空变化的卫星遥感分析[J]. 遥感技术与应用, 2016,31(2):203-213. [ MengQ W, YinQ. Remote sensing analysis of multi-years spatial and temporal variation of CO2 in China[J]. Remote Sensing Technology and Application, 2016,31(2):203-213. ] 2多年时空变化的卫星遥感分析[J].遥感技术与应用,2016,31(2):203-213. [Meng Q W, Yin Q. Remote sensing analysis of multi-years spatial and temporal variation of CO2 in China [J]. Remote Sensing Technology and Application, 2016,31(2):203-213. ]

[21] et al全球卫星大气成分遥感探测应用进展及其展望[J]. 科技导报, 33, 13-22(2015).

[22] 朱利, 王桥, 吴传庆, 等. 巢湖水华遥感监测与年度统计分析研究[J]. 中国环境监测, 2013,29(2):162-166. [ ZhuL, WangQ, WuC Q, et al. Monitoring and annual statistical analysis of algal blooms in Chaohu based on remote sensing[J]. Environmental Monitoring in China, 2013,29(2):162-166. ] [ Zhu L, Wang Q, Wu C Q, et al. Monitoring and annual statistical analysis of algal blooms in Chaohu based on remote sensing[J]. Environmental Monitoring in China, 2013,29(2):162-166. ]

[23] Study on remote sensing mechanism of lake eutrophication monitoring based on hyperspectral technology. Beijing: Beijing Normal University, 10-100(2008).

[24] 马荣华, 唐军武, 段洪涛, 等. 湖泊水色遥感研究进展[J]. 湖泊科学, 2009,21(2):143-158. [ MaR H, TangJ W, DuanH T, et al. Progress in lake water color remote sensing[J]. Journal of Lake Sciences, 2009,21(2):143-158. ] [ Ma R H, Tang J W, Duan H T, et al. Progress in lake water color remote sensing[J]. Journal of Lake Sciences, 2009,21(2):143-158. ]

[25] 郭宇龙, 李云梅, 李渊, 等. 一种基于GOCI数据的叶绿素a浓度三波段估算模型[J]. 环境科学, 2015,36(9):3175-3185. [ GuoY L, LiY M, LiY, et al. A three band chlorophyll-a concentration estimation model based on GOCI imagery[J]. Environmental Science, 2015,36(9):3175-3185. ] [ Guo Y L, Li Y M, Li Y, et al. A three band chlorophyll-a concentration estimation model based on GOCI imagery[J]. Environmental Science, 2015,36(9):3175-3185. ]

[26] 杜成功, 李云梅, 王桥, 等. 面向GOCI数据的太湖总磷浓度反演及其日内变化研究[J]. 环境科学, 2016,37(3):862-872. [ DuC G, LiY M, WangQ, et al. Inversion model and daily variation of total phosphorus concentrations in Taihu lake based on GOCI data[J]. Environmental Science, 2016,37(3):862-872. ] [ Du C G, Li Y M, Wang Q, et al. Inversion model and daily variation of total phosphorus concentrations in Taihu lake based on GOCI data[J]. Environmental Science, 2016,37(3):862-872. ]

[27] 申茜, 朱利, 曹红业. 城市黑臭水体遥感监测与筛查研究进展[J]. 应用生态学报, 2017,28(10):3433-3439. [ ShenQ, ZhuL, CaoH Y. Remote sensing monitoring and screening for urban black and odorous water body: A review[J]. Chinese Journal of Applied Ecology, 2017,28(10):3433-3439. ] [ Shen Q, Zhu L, Cao H Y. Remote sensing monitoring and screening for urban black and odorous water body: A review[J]. Chinese Journal of Applied Ecology, 2017,28(10):3433-3439. ]

[28] 姚延娟, 王桥, 吴迪. 饮用水水源地环境质量遥感监测评价与应用示范[J]. 环境保护, 2016(21):36-41. [ YaoY J, WangQ, WuD. Remote sensing monitoring technology evaluation system and application for drinking water source environmental quality[J]. Environmental Protection, 2016(21):36-41. ] [Yao Y J, Wang Q, Wu D. Remote sensing monitoring technology evaluation system and application for drinking water source environmental quality[J]. Environmental Protection, 2016(21):36-41. ]

[29] Fusion of Landsat-8/OLI and GOCI data for hourly mapping of suspended particulate matter at high spatial resolution: A case study in the Yangtze (Changjiang) estuary[J]. Remote Sensing, 10, 158(2018).

[30] 王夷萍, 郑慧敏, 孙华, 等. 土壤重金属污染农艺修复及其高光谱遥感监测研究评述[J]. 农业资源与环境学报, 2007,24(3):68-72. [ WangY P, ZhengH M, SunH, et al. Review on agricultural remediation and hyperspectral remote sensing monitoring of heavy metal pollution in soil[J]. Environmental Control, 2007,24(3):68-72. ] [ Wang Y P, Zheng H M, Sun H, et al. Review on agricultural remediation and hyperspectral remote sensing monitoring of heavy metal pollution in soil[J]. Environmental Control, 2007,24(3):68-72. ]

[31] 熊文成, 聂忆黄, 王桥, 等. 土壤污染遥感研究进展及应用展望[J]. 环境与可持续发展, 2017(6):53-56. [ XiongW C, NieY H, WangQ, et al. Progress in soil pollution remote sensing and its application Prospect[J]. Environment and Sustainable Development, 2017(6):53-56 .] [ Xiong W C, Nie Y H, Wang Q, et al. Progress in soil pollution remote sensing and its application Prospect[J]. Environment and Sustainable Development, 2017(6):53-56 .]

[32] 蔡东全, 吴泉源, 曹学江, 等. 基于HJ1A-HSI的龙口污水灌溉区土壤重金属含量反演[J]. 安全与环境工程, 2015,22(5):33-39. [ CaiD Q, WuQ Y, CaoX J, et al. Quantitative retrieval of soil heavy metal content in Longkou Wastewater irrigation area based on HJ1A-HIS Images[J]. Safety and Environmental Engineering, 2015,22(5):33-39. ] [ Cai D Q, Wu Q Y, Cao X J, et al. Quantitative retrieval of soil heavy metal content in Longkou Wastewater irrigation area based on HJ1A-HIS Images[J]. Safety and Environmental Engineering, 2015,22(5):33-39. ]

[33] 郭云开, 曹小燕, 石自桂. 水稻冠层光谱变化特征的土壤重金属全量反演研究[J]. 遥感信息, 2015,30(3):116-123. [ GuoY K, CaoX Y, ShiZ G. Inversion model of total amount of soil heavy metal based on spectral characteristics of rice canopy[J]. Remote Sensing Information, 2015,30(3):116-123. ] [ Guo Y K, Cao X Y, Shi Z G. Inversion model of total amount of soil heavy metal based on spectral characteristics of rice canopy[J]. Remote Sensing Information, 2015,30(3):116-123. ]

[34] 宋婷婷, 付秀丽, 陈玉, 等. 云南个旧矿区土壤锌污染遥感反演研究[J]. 遥感技术与应用, 2018,33(1):88-95. [ SongT T, FuX L, ChenY, et al. Remote sensing inversion of soil Zinc pollution in Gejiu Mining area of Yunnan[J]. Remote Sensing Technology and Application, 2018,33(1):88-95. ] [ Song T T, Fu X L, Chen Y, et al. Remote sensing inversion of soil Zinc pollution in Gejiu Mining area of Yunnan[J]. Remote Sensing Technology and Application, 2018,33(1):88-95. ]

[35] 张冲冲, 南颖, 赵洋. 基于多时相环境一号卫星CCD数据的植被覆盖信息快速提取研究——以长白山地区为例[J]. 地理与地理信息科学, 2013,29(5):41-44. [ Study on vegetation classification based on multi-temporal HJ-1 CCD data: the Changbai Mountain Area as a case[J]. Geography and Geo-information Science, 2013,29(5):41-44. ] [ Study on vegetation classification based on multi-temporal HJ-1 CCD data: the Changbai Mountain Area as a case[J]. Geography and Geo-information Science, 2013,29(5):41-44. ]

[36] 张方利, 杜世宏, 郭舟. 应用高分辨率影像的城市固体废弃物提取[J]. 光谱学与光谱分析, 2013,33(8):2024-2030. [ ZhangF L, DuS H, GuoZ. Extraction of municipal solid waste from high resolution images[J]. Spectroscopy and Spectral Analysis, 2013,33(8):2024-2030. ] [ Zhang F L, Du S H, Guo Z. Extraction of municipal solid waste from high resolution images[J]. Spectroscopy and Spectral Analysis, 2013,33(8):2024-2030. ]

[37] 郭舟, 杜世宏, 张方利. 基于高分辨率卫星影像的城市建设区提取[J]. 北京大学学报(自然科学版), 2013,49(4):635-642. [ GuoZ, DuS H, ZhangF L. Extracting municipal construction zones from high-resolution remotely sensed image[J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2013,49(4):635-642. ] [ Guo Z, Du S H, Zhang F L. Extracting municipal construction zones from high-resolution remotely sensed image[J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2013,49(4):635-642. ]

[38] 张洁, 熊永合, 程璐. 基于面向对象分类法和高分一号影像的露天矿区分类技术研究[J]. 青海大学学报(自然科学版), 2018,36(1):94-100. [ ZhangJ, XiongY H, ChengL. Classification of open-pit mine area based on object-oriented technology with GF-1 remote sensing image[J]. Journal of Qinghai University (Natural Science), 2018,36(1):94-100. ] [ Zhang J, Xiong Y H, Cheng L. Classification of open-pit mine area based on object-oriented technology with GF-1 remote sensing image[J]. Journal of Qinghai University (Natural Science), 2018,36(1):94-100. ]

[39] 杨俊芳, 马毅, 任广波, 等. 基于国产高分卫星遥感数据的现代黄河三角洲入侵植物互花米草监测方法[J]. 海洋环境科学, 2017,36(4):596-602. [ YangJ F, MaY, RenG B, et al. Monitoring method of invasive vegetation Spartina alterniflora in modern Yellow River delta based on gf remote sensing data[J]. Marine Environmental Science, 2017,36(4):596-602. ] [ Yang J F, Ma Y, Ren G B, et al. Monitoring method of invasive vegetation Spartina alterniflora in modern Yellow River delta based on gf remote sensing data[J]. Marine Environmental Science, 2017, 36(4):596-602. ]

[40] 王中挺, 厉青, 李莘莘, 等. 基于环境一号卫星的霾监测应用[J]. 光谱学与光谱分析, 2012,32(3):775-780. [ WangZ T, LiQ, LiX X, et al. The monitoring of haze from HJ-1[J]. Spectroscopy and Spectral Analysis, 2012,32(3):775-780. ] [ Wang Z T, Li Q, Li X X, et al. The monitoring of haze from HJ-1[J]. Spectroscopy and Spectral Analysis, 2012,32(3):775-780. ]

[41] et al京津冀及周边地区PM_2.5时空变化特征遥感监测分析[J]. 环境科学, 40, 33-43(2019).

[42] 马鹏飞, 厉青, 陈辉, 等. 京津冀及周边地区大气污染防治重点关注区域遥感综合分析[J]. 遥感技术与应用, 2019,34(2):404-411. [ MaP F, LiQ, ChenH, et al. Remote sensing synthetic analysis of key areas of air pollution in Beijing-Tianjin-Hebei(BTH) and its surrounding area. Remote Sensing Technology and Application, 2019,34(2):404-411. ] [ Ma P F, Li Q, Chen H, et al. Remote sensing synthetic analysis of key areas of air pollution in Beijing-Tianjin-Hebei(BTH) and its surrounding area. Remote Sensing Technology and Application, 2019,34(2):404-411. ]

[43] 朱利, 姚延娟, 吴传庆, 等. 基于环境一号卫星的内陆水体水质多光谱遥感监测[J]. 地理与地理信息科学, 2010,26(2):81-84. [ ZhuL, YaoY J, WuC Q, et al. Remote sensing monitoring on water quality of interior water body based on the HJ-1 Satellite multi-spectral data[J]. Geography and Geo-information Science, 2010,26(2):81-84. ] [ Zhu L, Yao Y J, Wu C Q, et al. Remote sensing monitoring on water quality of interior water body based on the HJ-1 Satellite multi-spectral data[J]. Geography and Geo-information Science, 2010,26(2):81-84. ]

[44] 阎福礼, 王世新, 周艺, 等. 利用Hyperion星载高光谱传感器监测太湖水质的研究[J]. 红外与毫米波学报, 2006,25(6):460-464. [ YanF L, WangS X, ZhouY, et al. Monitoring the water quality of TaiHu Lake by using hyperion hyper spectral data[J]. Infrared Millim Waves, 2006,25(6):460-464. ] [Yan F L, Wang S X, Zhou Y, et al. Monitoring the water quality of TaiHu Lake by using hyperion hyper spectral data[J]. Infrared Millim Waves, 2006,25(6):460-464. ]

[45] 赵少华, 张峰, 李自杰, 等. 雷达遥感在环境保护工作中的应用概述[J]. 微波学报, 2014,30(1):90-96. [ ZhaoS H, ZhangF, LiZ J, et al. Summary of radar remote sensing application in environmental protection[J]. Journal of Microwaves, 2014,30(1):90-96.] [ Zhao S H, Zhang F, Li Z J, et al. Summary of radar remote sensing application in environmental protection[J]. Journal of Microwaves, 2014,30(1):90-96.]

[46] 黄长平, 刘波, 张霞, 等. 土壤重金属Cu含量遥感反演的波段选择与最佳光谱分辨率研究[J]. 遥感技术与应用, 2010,25(3):353-357. [ HuangC P, LiuB, ZhangX, et al. Study on band selection and optimal spectral resolution for prediction of Cu contamination in soils[J]. Remote Sensing Technology and Application, 2010,25(3):353-357. ] [ Huang C P, Liu B, Zhang X, et al. Study on band selection and optimal spectral resolution for prediction of Cu contamination in soils[J]. Remote Sensing Technology and Application, 2010,25(3):353-357. ]

[47] 张雅琼, 赵宇昕, 屈冉, 等. 基于GF-1卫星遥感影像的生态空间周边建筑余泥渣土场提取方法研究[J]. 环境保护科学, 2018,44(6):50-55,89. [ ZhangY Q, ZhaoY X, QuR, et al. Study of extraction method of construction waste residue fields around ecological space based on GF-1 Satellite remote sensing image[J]. Environmental Protection Science, 2018,44(6):50-55,89. ] [ Zhang Y Q, Zhao Y X, Qu R, et al. Study of extraction method of construction waste residue fields around ecological space based on GF-1 Satellite remote sensing image[J]. Environmental Protection Science, 2018,44(6):50-55,89. ]

[48] 顾行发, 余涛, 田国良, 等. 40年的跨越——中国航天遥感蓬勃发展中的“三大战役”[J]. 遥感学报, 2016,20(5):781-793. [ GuX F, YuT, TianG L, et al. Up to the higher altitude: The new "three campaigns" for the development of China spaceborne remote sensing application[J]. Journal of Remote Sensing, 2016,20(5):781-793. ] [ Gu X F, Yu T, Tian G L, et al. Up to the higher altitude: The new "three campaigns" for the development of China spaceborne remote sensing application[J]. Journal of Remote Sensing, 2016,20(5):781-793. ]

[49] 龚燃, 刘韬. 2018年国外对地观测卫星发展综述[J]. 国际太空, 2019(2):48-55. [ GongR, LiuT. A review of the development of foreign earth observation satellites in 2018[J]. Space International, 2019(2):48-55. ] [ Gong R, Liu T. A review of the development of foreign earth observation satellites in 2018[J]. Space International, 2019(2):48-55. ]

[50] 及莉. 美国对地观测卫星系统在轨运行与应用服务管理[J]. 卫星应用, 2017(4):40-46. [ On orbit operation and application service management of us Earth Observation Satellite System[J]. Satellite Application, 2017(4):40-46. ] [ On orbit operation and application service management of us Earth Observation Satellite System[J]. Satellite Application, 2017(4):40-46. ]

[51] 史培军, 潘耀忠, 陈晋, 等. 深圳市土地利用/覆盖变化与生态环境安全分析[J]. 自然资源学报, 1999,14(4):293-299. [ ShiP J, PanY Z, ChenJ, et al. Land use /cover change and environmental security in Shenzhen region[J]. Journal of Natural Resources, 1999,14(4):293-299. ] [ Shi P J, Pan Y Z, Chen J, et al. Land use /cover change and environmental security in Shenzhen region[J]. Journal of Natural Resources, 1999,14(4):293-299. ]

[52] 吴炳方, 李苗苗, 颜长珍, 等. 生态环境典型治理区5年期遥感动态监测[J]. 遥感学报, 2005,9(1):32-38. [ WuB F, LiM M, YanC Z, et al. Environment monitoring over 1997-2002 with remote sensing in 5 national environmental projected sites[J]. Journal of Remote Sensing, 2005,9(1):32-38. ] [ Wu B F, Li M M, Yan C Z, et al. Environment monitoring over 1997-2002 with remote sensing in 5 national environmental projected sites[J]. Journal of Remote Sensing, 2005,9(1):32-38. ]

[53] 罗敬宁, 范一大, 史培军, 等. 多源遥感数据沙尘暴强度监测的信息可比方法[J]. 自然灾害学报, 2003,12(2):28-34. [ LuoJ N, FanY D, ShiP J, et al. Information-comparable method of monitoring the intensity of dust storm by multisource data of remote sensing[J]. Journal of Natural Disasters, 2003,12(2):28-34. ] [ Luo J N, Fan Y D, Shi P J, et al. Information-comparable method of monitoring the intensity of dust storm by multisource data of remote sensing[J]. Journal of Natural Disasters, 2003,12(2):28-34. ]

[54] 王子峰, 陈良富, 顾行发. 基于MODIS数据的华北地区秸秆焚烧监测[J]. 遥感技术与应用, 2008,23(6):611-617. [ WangZ F, ChenL F, GuX F. Monitoring of crop residue burning in North China on the basis of MODIS data[J]. Remote Sensing Technology and Application, 2008,23(6):611-617. ] [ Wang Z F, Chen L F, Gu X F. Monitoring of crop residue burning in North China on the basis of MODIS data[J]. Remote Sensing Technology and Application, 2008,23(6):611-617. ]

[55] 杨一鹏, 王桥, 肖青, 等. 基于TM数据的太湖叶绿素a浓度定量遥感反演方法研究[J]. 地理与地理信息科学, 2006,22(2):5-8. [ YangY P. Quantitative remote sensing inversion methods of chlorophyll-a concentration in Taihu Lake based on TM data[J]. Geography and Geo-information Science, 2006,22(2):5-8. ] [ Yang Y P. Quantitative remote sensing inversion methods of chlorophyll-a concentration in Taihu Lake based on TM data [J]. Geography and Geo-information Science, 2006,22(2):5-8. ]

[56] 阎福礼, 王世新, 周艺, 等. 利用Hyperion星载高光谱传感器监测太湖水质的研究[J]. 红外与毫米波学报, 2006,25(6):460-464. [ YanF L, WangS X, ZhouY, et al. Monitoring the water quality of TaiHu Lake by using hyperion hyper spectral data[J]. Infrared Millim Waves, 2006,25(6):460-464. ] [ Yan F L, Wang S X, Zhou Y, et al. Monitoring the water quality of TaiHu Lake by using hyperion hyper spectral data[J]. Infrared Millim Waves, 2006,25(6):460-464. ]

[57] 李俊生, 张兵, 申茜, 等. 航天成像光谱仪CHRIS在内陆水质监测中的应用[J]. 遥感技术与应用, 2007,22(5):593-597. [ LiJ S, ZhangB, ShenQ, et al. Application of space borne imaging spectrometry CHRIS in monitoring of inland water quality[J]. Remote Sensing Technology and Application, 2007,22(5):593-597. ] [ Li J S, Zhang B, Shen Q, et al. Application of space borne imaging spectrometry CHRIS in monitoring of inland water quality[J]. Remote Sensing Technology and Application, 2007,22(5):593-597. ]

[58] 万华伟, 王昌佐, 李亚, 等. 基于高光谱遥感数据的入侵植物监测[J]. 农业工程学报, 2010,26(S2):59-63. [ WanH W, WangC Z, LiY, et al. Monitoring an invasive plant using hyperspectral remote sensing data[J]. Transactions of the Chinese Society of Agricultural Engineering, 2010,26(S2):59-63. ] [ Wan H W, Wang C Z, Li Y, et al. Monitoring an invasive plant using hyperspectral remote sensing data[J]. Transactions of the Chinese Society of Agricultural Engineering, 2010,26(S2):59-63. ]

[59] 刘晓曼, 王桥, 孙中平, 等. 基于环境一号卫星的自然保护区生态系统健康评价[J]. 中国环境科学, 2011,31(5):863-870. [ LiuX M, WangQ, SunZ P, et al. Assessment of ecosystem health of nature reserve based on HJ-1 remote sensing imagery[J]. China Environmental Science, 2011,31(5):863-870. ] [ Liu X M, Wang Q, Sun Z P, et al. Assessment of ecosystem health of nature reserve based on HJ-1 remote sensing imagery[J]. China Environmental Science, 2011,31(5):863-870. ]

[60] 高明亮, 赵文吉, 宫兆宁, 等. 基于环境卫星数据的黄河湿地植被生物量反演研究[J]. 生态学报, 2013,33(2):542-553. [ GaoM L, ZhaoW J, GongZ N, et al. The study of vegetation biomass inversion based on the HJ satellite data in Yellow River wetland[J]. Acta Ecologica Sinica, 2013,33(2):542-553. ] [ Gao M L, Zhao W J, Gong Z N, et al. The study of vegetation biomass inversion based on the HJ satellite data in Yellow River wetland[J]. Acta Ecologica Sinica, 2013,33(2):542-553. ]

[61] 赵少华, 秦其明, 张峰, 等. 基于环境减灾小卫星(HJ-1B) 的地表温度单窗反演研究[J]. 光谱学与光谱分析, 2011,31(6):1552-1556. [ ZhaoS H, QinQ M, ZhangF, et al. Research on using a Mono-Window algorithm for land surface temperature retrieval from Chinese satellite for environment and natural disaster monitoring(HJ-1B) data[J]. Spectroscopy and Spectral Analysis, 2011,31(6):1552-1556. ] [ Zhao S H, Qin Q M, Zhang F, et al. Research on using a Mono-Window algorithm for land surface temperature retrieval from Chinese satellite for environment and natural disaster monitoring(HJ-1B) data[J]. Spectroscopy and Spectral Analysis, 2011,31(6):1552-1556. ]

[62] 贺宝华, 陈良富, 陶金花, 等. 基于观测几何的环境卫星红外相机遥感火点监测算法[J]. 红外与毫米波学报, 2011,30(2):104-108,114. [ HeB H, ChenL F, TaoJ H, et al. A contextual fire detection algorithm based on observation geometry for HJ-1B-IRS[J]. Journal of Infrared and Millimeter Waves, 2011,30(2):104-108,114. ] [ He B H, Chen L F, Tao J H, et al. A contextual fire detection algorithm based on observation geometry for HJ-1B-IRS[J]. Journal of Infrared and Millimeter Waves, 2011,30(2):104-108,114. ]

[63] et al环境一号卫星在监测大气PM10中的应用[J]. 中国环境科学, 31, 202-206(2011).

[64] et al利用MODIS数据监测北京地区气溶胶[J]. 遥感技术与应用, 23, 284-288(2008).

[65] 方莉, 余涛, 顾行发, 等. 北京地区HJ-1卫星CCD数据的气溶胶反演及在大气校正中的应用[J]. 遥感学报, 2013,17(1):151-164. [ FangL, YuT, GuX F, et al. Aerosol retrieval and atmospheric correction of HJ-1 CCD data over Beijing[J], Journal of Remote Sensing, 2013,17(1):151-164. ] [ Fang L, Yu T, Gu X F, et al. Aerosol retrieval and atmospheric correction of HJ-1 CCD data over Beijing[J], Journal of Remote Sensing, 2013,17(1):151-164. ]

[66] 王彦飞, 李云梅, 吕恒, 等. 环境一号卫星高光谱遥感数据的内陆水质监测适宜性——以巢湖为例[J]. 湖泊科学, 2011,23(5):789-795. [ WangY F, LiY M, LvH, et al. Suitability assessment of lake water quality monitoring on water body images acquired by HJ-1A hyper spectral imager: A case study of Lake Chaohu[J]. Journal of Lake Sciences, 2011,23(5):789-795. ] [ Wang Y F, Li Y M, Lv H, et al. Suitability assessment of lake water quality monitoring on water body images acquired by HJ-1A hyper spectral imager: A case study of Lake Chaohu[J]. Journal of Lake Sciences, 2011,23(5):789-795. ]

[67] 杨煜, 李云梅, 王桥, 等. 基于环境一号卫星高光谱遥感数据的巢湖水体叶绿素a浓度反演[J]. 湖泊科学, 2010,22(4):495-503. [ YangY, LiY M, WangQ, et al. Retrieval of chlorophyll-a concentration by Three-band model in Lake Chaohu[J]. Journal of Lake Sciences, 2010,22(4):495-503. ] [ Yang Y, Li Y M, Wang Q, et al. Retrieval of chlorophyll-a concentration by Three-band model in Lake Chaohu[J]. Journal of Lake Sciences, 2010,22(4):495-503. ]

[68] 潘邦龙, 易维宁, 王先华, 等. 基于环境一号卫星超光谱数据的多元回归克里格模型反演湖泊总氮浓度的研究[J]. 光谱学与光谱分析, 2011,31(7) 1884-1888. [ PanB L, YiW N, WangX H, et al. Inversion of the lake total nitrogen concentration by multiple regression kriging model based on hyperspectral data of HJ-1A[J]. Spectroscopy and Spectral Analysis, 2011,31(7) 1884-1888. ] [ Pan B L, Yi W N, Wang X H, et al. Inversion of the lake total nitrogen concentration by multiple regression kriging model based on hyperspectral data of HJ-1A[J]. Spectroscopy and Spectral Analysis, 2011,31(7)1884-1888. ]

[69] 潘邦龙, 易维宁, 王先华, 等. 湖泊水体高光谱遥感反演总磷的地统计算法设计[J]. 红外与激光工程, 2012,41(5):1255-1260. [ PanB L, YiW N, WangX H, et al. Geostatistics algorithm design on hyperspectral inversion of total phosphorus of lake[J]. Infrared and Laser Engineering, 2012,41(5):1255-1260. ] [ Pan B L, Yi W N, Wang X H, et al. Geostatistics algorithm design on hyperspectral inversion of total phosphorus of lake[J]. Infrared and Laser Engineering, 2012,41(5):1255-1260. ]

[70] 余晓磊, 巫兆聪. 利用环境一号卫星热红外影像反演渤海海表温度[J]. 海洋技术, 2011,30(2):1-6. [ YuX L, WuZ C. SST retrieving of Bohai Sea using thermal infrared images on HJ-1 Satellite[J]. Ocean Technology, 2011,30(2):1-6. ] [ Yu X L, Wu Z C. SST retrieving of Bohai Sea using thermal infrared images on HJ-1 Satellite[J]. Ocean Technology, 2011,30(2):1-6. ]

[71] 孙俊, 张慧, 王桥, 等. 利用环境一号卫星热红外通道反演太湖流域地表温度的3种方法比较[J]. 生态与农村环境学, 2011,27(2):100-104. [ SunJ, ZhangH, WangQ, et al. Three methods for inverting land surface temperature of the Taihu Lake Basin using HJ-1 Satellite thermal infrared channel[J]. Journal of Ecology and Rural Environment, 2011,27(2):100-104. ] [ Sun J, Zhang H, Wang Q, et al. Three methods for inverting land surface temperature of the Taihu Lake Basin using HJ-1 Satellite thermal infrared channel[J]. Journal of Ecology and Rural Environment, 2011,27(2):100-104. ]

[72] 李德仁, 童庆禧, 李荣兴, 等. 高分辨率对地观测的若干前沿科学问题[J]. 中国科学(地球科学), 2012,42(6):805-813. [ LiD R, TongQ X, LiR X, et al. Current issues in high-resolution earth observation technology[J]. Science China Earth Science, 2012,42(6):805-813. ] [ Li D R, Tong Q X, Li R X ,et al. Current issues in high-resolution earth observation technology[J]. Science China Earth Science, 2012,42(6):805-813. ]

[73] 基于GF-1数据的南京江北新区植被覆盖度遥感估算[J]. 安徽农业科学, 246-247,268(2016).

[74] 由佳, 张怀清, 陈永富, 等. 基于GF-4号卫星影像东洞庭湖湿地植被类型监测能力比较研究[J]. 安徽农业科学, 2018,46(3):152-156,168. [ YouJ, ZhangH Q, ChenY F, et al. Based on the GF-4 Satellite image for the East Dongting Lake Wetland vegetation type monitoring ability[J]. Journal of Anhui Agricultural Sciences, 2018,46(3):152-156,168. ] [ You J, Zhang H Q, Chen Y F, et al. Based on the GF-4 Satellite image for the East Dongting Lake Wetland vegetation type monitoring ability[J]. Journal of Anhui Agricultural Sciences, 2018,46(3):152-156,168. ]

[75] 雷志斌, 孟庆岩, 田淑芳, 等. 基于GF-3和Landsat 8遥感数据的土壤水分反演研究[J]. 地球信息科学学报, 2019,21(12):1965-1976. [ LeiZ B, MengQ Y, TianS F, et al. Soil moisture retrieval study based on GF-3 and Landsat8 remote sensing data[J]. Journal of Geo-information Science, 2019,21(12):1965-1976. ] [ Lei Z B, Meng Q Y, Tian S F, et al. Soil moisture retrieval study based on GF-3 and Landsat8 remote sensing data[J]. Journal of Geo-information Science, 2019,21(12):1965-1976. ]

[76] 赵少华, 王桥, 杨一鹏, 等. 高分一号卫星环境遥感监测应用示范研究[J]. 卫星应用, 2015(3):37-40. [ ZhaoS H, WangQ, YangY P, et al. Study application on environmental remote sensing monitoring of GF-1 satellite[J]. Satellite Application, 2015(3):37-40. ] [ Zhao S H, Wang Q, Yang Y P, et al. Study application on environmental remote sensing monitoring of GF-1 satellite[J]. Satellite Application, 2015(3):37-40. ]

[77] 侯爱华, 高伟, 王中挺, 等. 利用高分一号卫星监测开封地区PM2.5[J]. 国土资源遥感, 2017,29(4):161-165. [ HouA H, GaoW, WangZ T, et al. Estimation of PM2. 5 concentration from GF-1 data in Kaifeng City[J]. Remote Sensing for Land & Resources, 2017,29(4):161-165. ] [ Hou A H, Gao W, Wang Z T, wt al. Estimation of PM2. 5 concentration from GF-1 data in Kaifeng City[J]. Remote Sensing for Land & Resources, 2017,29(4):161-165. ]

[78] 薛兴盛, 郑硕, 白杨, 等. 徐州市GF-1卫星气溶胶光学厚度反演与空间特征分析[J]. 安徽农业大学学报, 2019,46(4):689-696. [ XueX S, ZhenS, BaiY, et al. Aerosol optical depth retrieval and spatial characteristics analysis of GF-1 satellite in Xuzhou[J]. Journal of Anhui Agricultural University, 2019,46(4):689-696. ] [ Xue X S, Zhen S, Bai Y, et al. Aerosol optical depth retrieval and spatial characteristics analysis of GF-1 satellite in Xuzhou[J]. Journal of Anhui Agricultural University, 2019,46(4):689-696. ]

[79] 王中挺, 张玉环, 袁淑云, 等. 利用高分四号数据监测“京津冀”地区陆地气溶胶[J]. 环境与可持续发展, 2016,41(5):113-116. [ WangZ T, ZhangY H, YuanS Y, et al. The aerosol monitoring over Beijing-Tianjin-Hebei region from GF-4 data[J]. Environment and Sustainable Development, 2016,41(5):113-116. ] [ Wang Z T, Zhang Y H, Yuan S Y, et al. The aerosol monitoring over Beijing-Tianjin-Hebei region from GF-4 data[J]. Environment and Sustainable Development, 2016,41(5):113-116. ]

[80] 王艳莉, 周斌, 应航, 等. 利用GF-4PMS数据反演城市地区气溶胶光学厚度[J]. 遥感技术与应用, 2019,34(3):564-570. [ WangY L, ZhouB, YingH, et al. Aerosol optical depth retrieval over urban areas using GF-4 PMS images[J]. Remote Sensing Technology and Application, 2019,34(3):564-570. ] [ Wang Y L, Zhou B, Ying H, et al. Aerosol optical depth retrieval over urban areas using GF-4 PMS images[J]. Remote Sensing Technology and Application, 2019,34(3):564-570. ]

[81] 屈冉, 聂忆黄, 张雅琼, 等. 基于国产高分卫星GF-1影像的农膜遥感信息提取技术研究[J]. 环境与可持续发展, 2018,43(6):66-69. [ QuR, NieY H, ZhangY Q, et al. Study on extraction of plasticulture basing on GF-1 of high resolution image of China[J]. Environment and Sustainable Development, 2018,43(6):66-69. ] [ Qu R, Nie Y H, Zhang Y Q, et al. Study on extraction of plasticulture basing on GF-1 of high resolution image of China[J]. Environment and Sustainable Development, 2018,43(6):66-69. ]

[82] 彭保发, 陈哲夫, 李建辉, 等. 基于GF-1影像的洞庭湖区水体水质遥感监测[J]. 地理研究, 2018,37(9):1683-1691. [ PengB F, ChenZ F, LiJ H, et al. Monitoring water quality of Dongting Lake region based on GF-1 image[J]. Geographical Research, 2018,37(9):1683-1691. ] [ Peng B F, Chen Z F, Li J H, et al. Monitoring water quality of Dongting Lake region based on GF-1 image[J]. Geographical Research, 2018,37(9):1683-1691. ]

[83] et al基于高分影像的城市黑臭水体遥感识别:以南京为例[J]. 环境科学, 39, 57-67(2018).

[84] 龚文峰, 王鹏, 王双宇, 等. 基于GF-2卫星遥感影像的界河水体信息提取方法[J]. 黑龙江大学工程学报, 2018,9(4):1-7. [ GongW F, WangP, WangS Y, et al. Methods of water body extraction in boundary river based on GF-2 satellite remote sensing image of high resolution[J]. Journal of Heilongjiang Hydraulic Engineering College, 2018,9(4):1-7. ] [ Gong W F, Wang P, Wang S Y, et al. Methods of water body extraction in boundary river based on GF-2 satellite remote sensing image of high resolution[J]. Journal of Heilongjiang Hydraulic Engineering College, 2018,9(4):1-7. ]

[85] 范剑超, 姜大伟, 赵建华, 等. GF-3号SAR卫星遥感围填海监测方法研究——以大连金州湾为例[J]. 海洋科学, 2017,41(12):60-65. [ FanJ C, JiangD W, ZhaoJ H, et al. Marine reclamation monitoring approach research based on GF-3 remote sensing image: A case study of the Jinzhou Bay in Dalian[J]. Marine Sciences, 2017,41(12):60-65. ] [ Fan J C, Jiang D W, Zhao J H, et al. Marine reclamation monitoring approach research based on GF-3 remote sensing image: A case study of the Jinzhou Bay in Dalian[J]. Marine Sciences, 2017,41(12):60-65. ]

[86] 杨超宇, 唐丹玲, 叶海彬. 基于GF-4遥感数据的叶绿素浓度反演算法研究[J]. 热带海洋学报, 2017,36(5):33-39. [ YangC Y, TangD L, YeH B. A study on retrieving chlorophyll concentration by using GF-4 data[J]. Journal of Tropical Oceanography, 2017,36(5):33-39. ] [ Yang C Y, Tang D L, Ye H B. A study on retrieving chlorophyll concentration by using GF-4 data[J]. Journal of Tropical Oceanography, 2017,36(5):33-39. ]

[87] et al[M]. 全国生态环境十年变化(2000-2010年)遥感调查与评估(2014).

[88] 生态环境部,中国科学院. 全国生态状况变化(2010-2015年)遥感调查评估报告[R]. 2018. [ Ministry of Ecological Environment, Chinese Academy of Sciences. The report of Ecology investigation and assessment from 2010 to 2015 with Remote Sensing of China[R]. 2018. ] [ Ministry of Ecological Environment, Chinese Academy of Sciences. The report of Ecology investigation and assessment from 2010 to 2015 with Remote Sensing of China[R]. 2018. ]

[89] 水利部. 第一次全国水利普查水土保持情况公报[R]. 2013. [ Ministry of water resources. Bulletin on Soil and water conservation of the first national water conservancy census [R]. 2013. ] [ Ministry of water resources. Bulletin on Soil and water conservation of the first national water conservancy census[R]. 2013. ]

[90] 中华人民共和国国务院. 大气污染防治行动计划[Z]. 北京, 2013. [ State Council of the People's Republic of China. Action plan for prevention and control of atmospheric pollution[Z]. Beijing, 2013. ] [ State Council of the People's Republic of China. Action plan for prevention and control of atmospheric pollution[Z]. Beijing, 2013. ]

[91] 中华人民共和国国务院. 水污染防治行动计划[Z]. 北京, 2015. [ State Council of the People's Republic of China. Action plan for prevention and control of water pollution[Z]. Beijing, 2015. ] [ State Council of the People's Republic of China. Action plan for prevention and control of water pollution[Z]. Beijing, 2015. ]

[92] 中华人民共和国国务院. 土壤污染防治行动计划[Z]. 北京, 2016. [ State Council of the People's Republic of China. Action plan for rrevention and control of soil pollution[Z]. Beijing, 2016. ] [ State Council of the People's Republic of China. Action plan for rrevention and control of soil pollution[Z]. Beijing, 2016. ]

[93] 张艳, 王维和, 张兴赢. 卫星遥感监测大气臭氧总量分布和变化[J]. 科技导报, 2015,33(17):23-29. [ ZhangY, WangW H, ZhangX Y. Distribution and variation of atmospheric total column ozone based on satellite remote sensing data[J]. Science & Technology Review, 2015,33(17):23-29. ] [ Zhang Y, Wang W H, Zhang X Y. Distribution and variation of atmospheric total column ozone based on satellite remote sensing data[J]. Science & Technology Review, 2015,33(17):23-29. ]

[94] 卫星遥感监测全球和中国区域大气CO变化特征[J]. 科技导报, 33, 52-62(2015).

[95] 李晓静, 高玲, 张兴赢, 等. 卫星遥感监测全球大气气溶胶光学厚度变化[J]. 科技导报, 2015,33(17):30-40. [ LiX J, GaoL, ZhangX Y, et al. Global change of aerosol optical depth based on satellite remote sensingdata[J]. Science & Technology Review, 2015,33(17):30-40. ] [ Li X J, Gao L, Zhang X Y, et al. Global change of aerosol optical depth based on satellite remote sensingdata[J]. Science & Technology Review, 2015,33(17):30-40. ]

[96] 李令军, 王英. 基于卫星遥感与地面监测分析北京大气NO2污染特征[J]. 环境科学学报, 2011,31(12):2762-2768. [ LiL J, WangY. The characterization of NO2 pollution in Beijing based on satellite and conventional observation data[J]. Acta Scientiae Circumstantiae, 2011,31(12):2762-2768. ] 2污染特征[J].环境科学学报,2011,31(12):2762-2768. [ Li L J, Wang Y. The characterization of NO2 pollution in Beijing based on satellite and conventional observation data[J]. Acta Scientiae Circumstantiae, 2011,31(12):2762-2768. ]

[97] Research on combined monitoring of optical properties of atmospheric particulate in eastern China with satellite and terrestrial remote sensing. Shanghai: Donghua University(2017).

[98] Aerosol Optical Depth Based on Satellite Observations in China. Lanzhou: Lanzhou University(2012).

[99] 中华人民共和国水利部. 水土保持遥感监测技术规范[Z]. 北京, 2012. [ Ministry of Water Resources of the People's Republic of China. Technical Specification of Soil and Water Conservation Monitoring by Remote Sensing[Z]. Beijing, 2012. ] [ Ministry of Water Resources of the People's Republic of China. Technical Specification of Soil and Water Conservation Monitoring by Remote Sensing[Z]. Beijing, 2012. ]