基本信息
马荣华男博导中国科学院南京地理与湖泊研究所
电子邮件： rhma@niglas.ac.cn
通信地址： 南京市玄武区北京东路73号
邮政编码： 210008

研究领域 湖泊环境遥感
湖泊—流域数据共享

团队网页http://www.rslakes.com/index.asp

招生信息
招生专业070503-地图学与地理信息系统

招生方向湖泊环境遥感
湖泊—流域数据共享


教育背景
学历 -- 研究生

学位 -- 博士


工作经历
工作简历2009-01~现在,中国科学院南京地理与湖泊研究所,研究员
2005-09~2008-12,中国科学院南京地理与湖泊研究所,副研究员
2002-08~2005-08,中国科学院南京地理与湖泊研究所,助理研究员

社会兼职2017-10-01-2022-10-31,国际数字地球学会中国委员会, 委员
2017-09-29-2022-10-29,国际数字地球学会中国委员会数字山地专业委员会, 副主任委员
2014-12-31-今,中国遥感应用协会, 理事
2014-11-30-今,中国自然资源学会自然资源信息系统专业委员会, 委员
2011-12-31-今,江苏省遥感与地理信息学会, 副理事长
2010-09-01-今,中国环境科学学会环境信息系统与遥感专业委员会, 委员
2009-12-31-今,江苏省地理学会, 常务理事
2009-03-30-今,江苏省测绘学会, 理事


专利与奖励


（1）江苏省有突出贡献专家．2016年
（1）蓝藻水华监测预警及湖泊水源地保护关键技术研发及应用．中国科学院科技促进发展奖二等奖．2015年（排名第五）
（2）太湖水华蓝藻高精度遥感关键技术研发与应用．江苏省科学技术进步奖二等奖．2012年（排名第一）
（3）蓝藻水华形成的四阶段理论与水华预测．江苏省科学技术进步奖二等奖．2008年 （排名第二）
（4） 第十一届全国青年地理科技奖，中国地理学会，2011年
（5） 第二届江苏省青年地理科技奖，江苏省地理学会，2009年
（6） 湖泊水环境遥感研究小组先进集体，研究所（学校）级，2009 年
（7） 周立三科研奖励基金，二等奖，研究所（学校）级，2007 年
（8） 江苏长江岸线资源调查与评价关键技术研究，三等奖，省级，2007 年







奖励信息（1） 江苏省有突出贡献专家, 省级, 2016
（2） 太湖蓝藻水华MODIS定量遥感监测技术及标准, 二等奖, 省级, 2015
（3） 蓝藻水华监测预警及湖泊水源地保护关键技术研发及应用, 二等奖, 部委级, 2015
（4） 湖泊环境遥感研究团队, , 研究所（学校）, 2012
（5） 太湖水华蓝藻高精度遥感关键技术研发与应用, 二等奖, 省级, 2012
（6） 第十一届全国青年地理科技奖, , 其他, 2011
（7） 湖泊水环境遥感研究小组先进集体, , 研究所（学校）, 2009
（8） 第二届江苏省青年地理科技奖, , 其他, 2009
（9） 蓝藻水华形成的四阶段理论与水华, 二等奖, 省级, 2008
（10） 周立三科研奖励基金, 二等奖, 研究所（学校）, 2007
（11） 江苏长江岸线资源调查与评价关键技术研究, 三等奖, 省级, 2007
（12） 中国科学院南京地理与湖泊研究所先进个人, , 研究所（学校）, 2007
（13） 中国科学院南京地理与湖泊研究所先进个人, , 研究所（学校）, 2006
（14） 全国优秀工程咨询成果, 三等奖, 国家级, 2006
（15） 中国科学院南京分院优秀共产党员, , 院级, 2005

专利成果（ 1 ） 湖泊水环境遥感监测系统（V1.0）, 发明, 2010, 第 1 作者, 专利号: 2010SR025603
（ 2 ） 水体光谱数据处理软件（V1.0）, 发明, 2009, 第 1 作者, 专利号: 2009SR027422
（ 3 ） 太湖蓝藻卫星遥感监测系统(V1.0), 发明, 2009, 第 1 作者, 专利号: 2010SR053670
（ 4 ） 太湖蓝藻数据同化系统（V1.0）, 发明, 2010, 第 1 作者, 专利号: 2010SR025504
（ 5 ） 湖泊水色遥感高精度大气校正系统(V1.0), 发明, 2012, 第 1 作者, 专利号: 2012SR044821
（ 6 ） 湖泊流域数据共享平台(V1.0), 发明, 2012, 第 1 作者, 专利号: 2012SR017086
（ 7 ） HJ-1 CCD影像相对辐射自动校正系统(V1.0), 发明, 2011, 第 1 作者, 专利号: 2011SR094548


出版信息


[1] Zhigang Cao, Ronghua Ma*, Hongtao Duan, Kun Xue. Effects of broad bandwidth on the remote sensing of inland waters: Implications for high spatial resolution satellite data application. ISPRS Journal of Photogrammetry and Remote Sensing. 2019. 153: 110-122
[2] Kun Xue, Ronghua Ma*, Hongtao Duan, Ming Shen. Inversion of inherent optical properties in optically complex waters using sentinel- 3A/OLCI images: A case study using China's three largest freshwater lakes. Remote Sensing of Environment, 2019, 225: 328-346
[3] Guangjia Jiang, Steven A. Loiselle, Dingtian Yang, Changjun Gao, Ronghua Ma*, Wen Su, Hongtao Duan. An Absorption-specific Algorithm to Examine Dynamics of Particulate Organic Carbon from VIIRS Observations in Inland and Coastal Waters.Remote Sensing of Environment, 2019,224: 29-43
[4] Jing Li, Ronghua Ma*, Kun Xue, Yuchao Zhang, Steven Loiselle.A remote sensing algorithm of column-integrated algal biomass covering algal bloom conditions in a shallow eutrophic lake. International Journal of Geo-Information. 2018, 7, 466, doi:10.3390/ijgi**
[5] Chen Lin, Ronghua MA，Junfeng Xiong. Can the watershed non-point phosphorus pollution be interpreted by critical soil properties: A new insight of different soil P states? Science of the Total Environment, 2018, 628-629: 870-881
[6] Chen Lin, Chuangchun Huang, Ronghua MA. Can the watershed non-point source phosphorus flux amount be reflected by lake sediment? Ecological Indicators, 2019, 102: 118-130
[7] Lin Qi, Chuanmin Hu, Peter M. Visser,Ronghua Ma*. Diurnal changes of cyanobacteria blooms in Taihu Lake as derived from geostationary ocean color AQ1 imager observations. Limnology and Oceanography, 2018, DOI:10.1002/lno.10802
[8] Kai Liu,Hu Ding, Guoan Tang, Chunqiao Song, Yiwen Liu, Ling Jiang, Bangyuan Zhao, Yunfei Gao,Ronghua Ma*.Large-scale mapping of gully-affected areas: An approach integrating Google Earth images and terrain skeleton information.Geomorphology,2018, 314: 13-26
[9]Juhua Luo, Hongtao Duan,Ronghua Ma*, Xiuliang Jin, Fei Li, Weiping Hu, Kun Shi, Wenjiang Huang. Mapping species of submerged aquatic vegetation withmulti-seasonal satellite images and considering life history information. International Journal of Applied Earth Observation and Geoinformation, 2017, 57: 154-165
[10]Jing Li, Yuchao Zhang, Ronghua Ma*, Hongtao Duan, Steven Loiselle, Kun Xue, and Qichun Liang. Satellite-Based Estimation of Column-Integrated Algal Biomass in Nonalgae Bloom Conditions: A Case Study of Lake Chaohu, China. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2017, 10(2): 450-460
[11] Kun Xue, Yuchao Zhang, Hongtao Duan, Ronghua Ma*. Variability of light absorption properties in optically complex inland waters of Lake Chaohu, China. Journal of Great Lakes Research, 2017, 43: 17-31
[12]Chen Lin, Zhipeng Wu, Ronghua Ma*, Zhihu Su. Detection of sensitive soil properties related to non-point phosphoruspollution by integrated models of SEDD and PLOAD. Ecological Indicators, 2016, 60:283-294
[13] Juhua Luo, Xinchuan Li, Ronghua Ma*, Fei Li, Hongtao Duan, Weiping Hu, Boqiang Qin, Wenjiang Huang. Applying remote sensing techniques to monitoring seasonal andinterannual changes of aquatic vegetation in Taihu Lake, China.Ecological Indicators, 2016,60:503-513
[14] Chen Lin, Ronghua Ma*, Zhihu Su and Qing Zhu. Detection of Critical LUCC Indices and Sensitive Watershed Regions Related to Lake Algal Blooms: A Case Study of Taihu Lake. International Journal of Environmental Research and Public Health, 2015, 12: 1629–1648
[15] Yuchao Zhang, Ronghua Ma*, Min Zhang, Hongtao Duan, Steven Loiselle and Jinduo Xu. Fourteen-Year Record (2000–2013) of the Spatial and Temporal Dynamics of Floating Algae Blooms in Lake Chaohu, Observed from Time Series of MODIS Images. Remote Sensing, 2015,7:10523-10542
[16] Guangjia Jiang, Ronghua Ma*, Steven A. Loiselle, Hongtao Duan, Wen Su, Weixu Cai, Chuguang Huang, Jie Yang, Wei Yu. Remote sensing of particulate organic carbon dynamics in a eutrophic lake (Taihu Lake, China). Science of the Total Environment, 2015, 532: 245-254
[17] Huili Yuan, Ronghua Ma*, Clement Atzberger, Fei Li, Steven Arthur Loiselle and Juhua Luo. Estimating Forest fAPAR from Multispectral Landsat-8 Data Using the Invertible Forest Reflectance Model INFORM. Remote Sensing, 2015,7:7425-7446
[18] Juhua Luo, Wenjiang Huang, Jingling Zhao, Jingcheng Zhang, Ronghua Ma*, Muyi Huang. Predicting the probability of wheat aphid occurrence using satellite remote sensing and meteorological data. Optik, 2014, 125:5660–5665
[19] Chen Lin, Ronghua Ma*, Qing Zhu, Jingtao Li.Using hyper-spectral indices to detect soil phosphorus concentration for various land use patterns. Environ Monit Assess. 2015, 187: 4130
[20] Zhihu Su, Chen Lin, Ronghua Ma*, Juhua Luo, LIANG Q.O. Effect of land use change on lake water quality in different buffer zones. Applied Ecology And Environmental Research, 2014,13(2): 489-503
[21] Yuchao Zhang, Ronghua Ma*, Hongtao Duan, Steven A. Loiselle, Jinduo Xu, and Mengxiao Ma. A novel algorithm to estimate algal bloom coverage to subpixel resolution in Lake Taihu.IEEEJournal of Selected Topics in Applied Earth Observations and Remote Sensing, 2014, 7: 3060-6068
[22] Lin Qi, Chuanmin Hu, Hongtao Duan, Brian B.Barnes, Ronghua Ma*. An EOF-based algorithm to estimate chlorophyll a concentrations in Taihu Lake from MODIS land-band measurements: Implications for near real-time aplications and frecasting mdels. Remote Sensing, 2014,6:10694-10715
[23] Lin Qi, Ronghua Ma*, Weiping Hu, and Steven Arthur Loiselle. Assimilation of MODIS chlorophyll-a data into a coupledhydrodynamic-biological model of Taihu Lake. IEEEJournal of Selected Topics in Applied Earth Observations and Remote Sensing, 2014,9:1623-1631
[24] Lin Qi, Chuanmin Hu, Hongtao Duan, Jennifer Cannizzaro, Ronghua Ma*. A novel MERIS algorithm to derive cyanobacterial phycocyanin pigment concentrations in a eutrophic lake: Theoretical basis and practical considerations. Remote Sensing of Environment, 2014, 9:298-317
[25] Hongtao Duan, Lian Feng, Ronghua Ma*, Yuchao Zhang and Steven Arthur Loiselle. Variability of particulate organic carbon in inland waters observed from MODIS Aqua imagery. Environmental Research Letters, 2014, 5, 084011
[26] Juhua Luo, Ronghua Ma*, Hongtao Duan, Weiping Hu, Jinge Zhu, Wenjiang Huang and Chen Lin. A New method for modifyingthresholds in the classification of tree models for mapping aquatic vegetation in Taihu Lake with satellite images. Remote sensing,2014,6:7442-7462
[27] Yuchao Zhang, Ronghua Ma*, Hongtao Duan, Steven Loiselle, and Jinduo Xu. A spectral decomposition algorithm for estimatingchlorophyll-a concentrations in Lake Taihu, China. Remote Sensing, 2014,6:5090–5016
[28] Hongtao Duan, Ronghua Ma*, Steven Loiselle, Shen Q, Yin H, Yuchao Zhang. Optical characterization of black water blooms in eutrophic waters. Science of The Total Environment, 2014; 482–483: 174-183
[29] Hongtao Duan, Ronghua Ma*, Yuchao Zhang, Steven Arthur Loiselle. Are algal blooms occurring later in Lake Taihu? Climate localeffects outcompete mitigation prevention. Journal of Plankton Research. 2014,36(3): 866–871
[30] Ronghua Ma*, Guishan Yang, Hongtao Duan, Jiahu Jiang, Sumin Wang, Xuezhi Feng, Ainong Li, Fanxiang Kong, Bin Xue, Jinglu Wu, Shijie Li. China’s lakes at present: number, area and spatial distribution.SCIENCE CHINA Earth Sciences (Science in China Series D), 2011, 54(2): 283-289,doi: 10.1007/s11430-010-4052-6
[31] Hongtao Duan, Ronghua Ma*, Chuanmin Hu. Remote sensing algorithms of cyanobacteria pigments during spring bloom formation in several lakes of East China. Remote Sensing of Environment, 2012, 126: 126-135
[32] Guangjia Jiang, Ronghua Ma*, Steven Loiselle, Hongtao Duan. Optical approaches to examining the dynamics ofdissolved organic carbon in optically complexinland waters. Environmental Research Letters, 2012, 7 (3), 034014
[33] Ronghua Ma*, Hongtao Duan, Qinhuo Liu, Steven Arthur Loiselle. Approximate bottom contribution to remote sensing reflectance in Taihu Lake, China. Journal of Great Lakes Research, 2011, 37(1): 18-25
[34] Ronghua Ma*, Guangjia Jiang, Hongtao Duan, Luca Bracchini, Steven Loiselle. Effective upwelling irradiance depths in turbid waters: a spectral analysis of origins and fate. OpticsExpress. 2011, 19(8): 7127-7138
[35] Ronghua Ma*, Hongtao Duan, Chuanguang Lv, Steven Loiselle. Unusual links between inherent and apparent optical properties in shallow lakes, the case of Taihu Lake. Hydrobiologia, 2011, 667:149–158
[36] Hongtao Duan, Ronghua Ma*, Yuanzhi Zhang, Steven Arthur Loiselle, Jingping Xu, Chenlu Zhao, Lin Zhou, and Linlin Shang. A newthree-band algorithm for estimating chlorophyll-concentrations in turbid inland lakes. Environmental Research Letters, 2010, 5,044009
[37] Ronghua Ma*, Hongtao Duan, Chuanmin Hu, Xuezhi Feng, Ainong Li, Weimin Ju, Jiahu Jiang, Guishan Yang. A half-century of changes in China's lakes: Global warming or human influence? Geophysical Research Letters. 2010, 37, L24106
[38] Hongtao Duan, Ronghua Ma*, Yuanzhi Zhang, Bing Zhang. Remote sensing assessment of regional inland lakes water clarity in Northeast China. Limnology, 2009, 10(2): 135-141
[39] Ronghua Ma*,Delu Pan, Hongtao Duan, Qingjun Song. Absorption and scattering properties of water body in Taihu Lake, China:backscattering. International Journal of Remote Sensing, 2009, 30(9): 2321-2335
[40] Ronghua Ma*, Chaolin Gu, Yingxia Pu, Xiaodong Ma. Mining the Urban Sprawl Pattern: A Case Study on Sunan, China. Sensors,2008,8: 6371-6395
[41] Ronghua Ma*, Hongtao Duan, Xiaohong Gu, Shouxuan Zhang. Detecting Aquatic Vegetation Change of Taihu Lake, China UsingMulti-Temporal Satellite Imageries. Sensors, 2008, 8: 3988-4005
[42] Ronghua Ma*, Xiaodong Ma, Jinfang Dai. Hyperspectral feature analysis of chlorophyll-a and suspended solids with field measurements in Taihu Lake, Eastern China. Hydrological Sciences Journal, 2007, 52(4): 808-824
[43] Ronghua Ma*, Junwu Tang, Jinfang Dai, Yunlin Zhang, Qingjun Song. Absorption and scattering properties of water body in Taihu Lake, China: absorption. International Journal of Remote Sensing, 2006, 27(19):4277-4304
[44] Ronghua Ma*, Junwu Tang, Jinfang Dai. Bio-optical model with optimal parameter suitable for Taihu Lake in water colour remote sensing. International Journal of Remote Sensing. 2006, 27(19): 4305-4328
[45] Ronghua Ma*, Jinfang Dai. Investigation of chlorophyll-a and total suspended matter concentrations using Landsat ETM and fieldspectral measurement in Taihu Lake, China. International Journal of Remote Sensing, 2005, 26: 2779-2787
[46] Qi Hu, Ronghua Ma, Fulong Chen, Aihui Jiang, Yuan Wang. Urban landscape monitoring based on high-resolution spaceborne TerraSAR-X data: a case study of Nanjing City, China. International Journal of Remote Sensing and Remote Sensing Letters. 2018, 9(5): 447-456
[47] Hongtao Duan, Ronghua Ma, Jingping Xu, Yuanzhi Zhang, Bing Zhang. Comparison of Different Semi-empirical Algorithms to Estimate Chlorophyll-a Concentration in Inland Lake Water.Environmental Monitoring and Assessment, 2010, 170: 231-244, DOI:10.1007/s10661- 009-1228-7
[48] Hongtao Duan, Ronghua Ma, Xiaofeng Xu, Fanxiang Kong, Shouxuan Zhang, Weijuan Kong, Jingyan Hao, Linlin Shang. Two-decade reconstruction of algal blooms in China's Lake Taihu.Environmental Science and Technology, 2009, 43: 3522-3528
[49] Hongtao Duan, Ronghua Ma, Yuanzhi Zhang, Bing Zhang. Remote sensing assessment of regional inland lakes water clarity in Northeast China.Limnology, 2009, 10(2): 135-141
[50] Yingxia Pu, Ronghua Ma, Ying Ge, Xingyuan Huang. Spatial-temporal dynamics of regional convergence at the county level in Jiangsu.Chinese Geographical Science, 2005, 15(2): 113-119
[51] Wei Yang, Bunkei Matsushita, Jin Chen, Takehiko Fukushima, Ronghua Ma. An Enhanced Three-Band Index for Estimating Chlorophyll-a in Turbid Case-II Waters: Case Studies of Lake Kasumigaura, Japan, and Lake Dianchi, China. IEEE Geoscience and Remote Sensing Letters, 2010, 7(4):655-659
[52] Hongtao Duan, Ronghua Ma, J. Xu, Y. Zhang, B. Zhang. Comparison of Different Semi-empirical Algorithms to Estimate Chlorophyll-a Concentration in Inland Lake Water. Environmental Monitoring and Assessment, 2010, 170: 231-244
[53] Hongtao Duan, Ronghua Ma, Stefan G.H. Simis, Chenlu Zhao. Validation of MERIS Case-2 Water Products in Lake Taihu, China. GIScience & Remote Sensing, 2012, 49(6): 873-894
[54] Feng Gao, Eric Brown de Colstoun, Ronghua Ma, Qihao Weng, Jeffrey G. Masek, Jin Chen, Yaozhong Pan, Conghe Song. Mapping impervious surface expansion using medium-resolution satellite image time series: a case study in the Yangtze River Delta, China.International Journal of Remote Sensing, 2012,33(24):7609-7628
[55] Chuanmin Hu, Zhongping Lee, Ronghua Ma, Kun Yu, Daqiu Li, Shaoling Shang.Moderate Resolution Imaging Spectroradiometer (MODIS) observations of cyanobacteria blooms in Taihu Lake.Journal of Geophysical Research, 2010, 115, C04002, doi:10.1029/2009JC 005511
[56] Yunlin Zhang, Bing Zhang, Ronghua Ma, Chengfeng Le. Optically active substances and their contributions to the underwater light climate in Lake Taihu, a large shallow lake in China.Fundamental and Applied Limnology, 2007, 170: 11-19
[57] Deyu Wang, Xuezhi Feng, Ronghua Ma. A Method for Retrieving Water-leaving Radiance from Landsat TM Image in Taihu Lake, East China.Chinese Geographical Science, 2007, 17(4): 364-369
[58] Qichun Liang, Yuchao Zhang, Ronghua Ma, Steven Loiselle, Jing Li, Minqi Hu. A MODIS-Based Novel Method to Distinguish Surface Cyanobacterial Scums and Aquatic Macrophytes in Lake Taihu. Remote Sensing, 9, 133: 1-25; doi:10.3390/rs**
[59] Min Tao, Hongtao Duan, Zhigang Cao, Steven Arthur Loiselle, Ronghua Ma. A Hybrid EOF Algorithm to Improve MODIS Cyanobacteria Phycocyanin Data Quality in a Highly Turbid Lake: Bloom and Nonbloom Condition.IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,2017, 99: 1-15
[60] Zhigang Cao, Hongtao Duan, Lian Feng, Ronghua Ma, Kun Xue. Climate- and human-induced changes in suspended particulate matter over Lake Hongze on short and long timescales.Remote Sensing of Environment, 2017, 192: 98-113
[61] Hongtao Duan, Min Tao, Steven Arthur Loiselle, Wei Zhao, Zhigang Cao, Ronghua Ma, Xiaoxian Tang. MODIS observations of cyanobacterial risks in a eutrophic lake: Implications for long-term safety evaluation in drinking-water source.Water Research, 122 (2017) 455-470
[62] Zhigang Cao, Hongtao Duan, Ming Shen, Ronghua Ma, Kun Xue, Dong Liu, Qitao Xiao. Using VIIRS/NPP and MODIS/Aqua data to provide a continuous record of suspended particulate matter in a highly turbid inland lake.Int J Appl Earth Obs Geoinformation. 2018, 64: 256-265
[63] Qianhan Wu, Kai Liu, Chunqiao Song, Jida Wang, Linghong Ke, Ronghua Ma, Wensong Zhang, Hang Pan, Xinyuan Deng. Remote Sensing Detection of Vegetation and Landform Damages by Coal Mining on the Tibetan Plateau. Sustainability, 2018, 10: 3851, doi:10.3390/su**
[64] Chunqiao Song, Linghong Ke, Hang Pan, Shengan Zhan, Kai Liu, Ronghua Ma. Long-term surface water changes and driving cause in Xiong’an, China from dense Landsat time series images and synthetic analysis. Science Bulletin, 2018, 63: 708-716
[65] Hongtao Duan, Min Tao, Steven Arhur Loiselle, Wei Zhao, Zhigang Cao, Ronghua Ma, Xiaoxian Tang.Water Research. 2017, 122: 455-470
[66] Zhigang Cao, Hongtao Duan, Ming Shen, Ronghua Ma, Kun Xue, Dong Liu, Qitao Xiao.International Journal of Aplied Earth Observation and Geoinformation. 2018, 64: 256-265
[67] Zhigang Cao, Hongtao Duan, Lian Feng, Ronghua Ma, Kun Xue. Climate- and human-induced changes in suspended particulate matter over Lake Hongze on short and long timescales. Remote Sensing of Environment, 2017, 192, 98-113
[68] Chen Lin, Weiping Hu, Jinduo Xu, Ronghua Ma. Development of a visualization platform oriented to Lake water quality targets management - A case study of Lake Taihu.Ecological Informatics. 2017, 41: 40-53
[69] Hongtao Duan, Steven Arthur Loiselle, Zuochen Li, Qiushi Shen, Yingxun Du,Ronghua Ma. A new insight into black blooms: Synergies between optical and chemical factors. Estuarine, Coastal and Shelf Science. 2016, 175: 118-125
[70] ZhongPing Lee, Mingshun Jiang, Curtiss Davis, Yu-Hwan Ahn, Ronghua Ma. Impactofmultiplesatelliteoceancolorsamplingsinadayonassessingphytoplanktondynamics.OceanScienceJournal, 2012, 47(3): 323-329
[71] Xingwei Jiang, Junwu Tang, Minwei Zhang, Ronghua Ma, Jing Ding. Application of MODIS data in monitoring suspended sediment of Taihu Lake, China.Chinese Journal of Oceanology and Limnology, 2009, 27(3): 1-7, doi: 10.1007/s00343-009-0000-0
[72] Zengyou He, Xiaofei Xu, Shengchun Deng, Ronghua Ma. Mining action rules from scratch. Expert Systems with Applications, 2005, 29: 691–699
[73] 马荣华*，张玉超，段洪涛．非传统湖泊水色遥感的现状与发展．湖泊科学，2016，28(2)：237-245
[74] 姜广甲，马荣华*，段洪涛．太湖有色溶解有机物对水体总吸收贡献的遥感估算．湖泊科学，2012，24(6)：914-922
[75] 赵晨露，马荣华*，郝景燕，段洪涛．太湖水体吸收分解（Ⅱ）：浮游植物色素吸收分解．湖泊科学，2012，24(6)：905-913
[76] 饶加旺，马荣华*，段洪涛，姜广甲，尚琳琳，周琳．太湖上空大气气溶胶光学厚度及其特征分析．环境科学，2012，33(7)：2158-2164
[77] 姜广甲，马荣华*，段洪涛．利用CDOM吸收系数估算太湖水体表层DOC浓度．环境科学，2012，33(7)：2235-2243
[78] 马荣华，杨桂山，段洪涛，姜加虎，王苏民，冯学智，李爱农，孔繁翔，薛滨，吴敬禄，李世杰．中国湖泊的数量、面积和空间分布．中国科学D辑：地球科学，2011，41(3)：394-401
[79] 尚琳琳，马荣华*，段洪涛，姜广甲，周琳．利用MODIS影像提取太湖蓝藻水华的尺度差异性分析．湖泊科学，2011，23(6)：847-854
[80] 郭承燕，贾建华，马荣华*，许金朵，邢永超，吕春光．滑坡灾害预测预报信息共享平台．地球信息科学学报，2012，14(2)：199-208
[81] 马荣华，孔维娟，段洪涛，张寿选．基于MODIS影像估测太湖蓝藻暴发期藻蓝素含量．中国环境科学，2009，29(3)：254-260
[82] 马荣华，唐军武，段洪涛，潘德炉．湖泊水色遥感研究进展．湖泊科学，2009，21(2)：143-158
[83] 马荣华，孔繁翔，段洪涛，张寿选，孔维娟，郝景燕．基于卫星遥感的太湖蓝藻水华时空分布规律认识．湖泊科学，2008，20(6)：687-694
[84] 马荣华，段洪涛，张寿选，潘德炉．太湖草型湖区底质对遥感反射比的贡献．遥感学报，2008，13(3)：483-489
[85] 马荣华，段洪涛，张寿选，潘德炉．太湖水体的后向散射概率．湖泊科学，2008，20(3)：375-379
[86] 马荣华，宋庆君，唐军武，潘德炉．太湖秋季水体遥感反射比的简单经验估测模型．湖泊科学，2007，19(3): 227-234
[87] 马荣华，何增有．从空间数据库中挖掘频繁临近类别集的一种新算法．武汉大学学报?信息科学版，2007，32(2): 112-114
[88] 马荣华，顾朝林，蒲英霞，马晓冬，朱传耿．苏南沿江城镇扩展的空间模式及其测度．地理学报，2007，62(10): 1011-1022
[89] Ronghua Ma, Jinfang Dai. Hyperspectral features about suspended substance in some representative areas, Lake Taihu, China. Proceedings of SPIE. 2006, 6199:1-9
[90] 马荣华，何增有．从GIS数据库中挖掘空间离群点的一种高效算法．武汉大学学报·信息科学版，2006，31(8)：679-682
[91] 马荣华，唐军武．湖泊水色遥感参数获取与算法分析．水科学进展，2006，17(5)：720-726
[92] 杨桂山，马荣华，张路，姜加虎，姚书春，张民，曾海鳌．中国湖泊现状及面临的重大问题与保护策略．湖泊科学，2010, 22(6)：799-810
[93] 郝景燕，马荣华，段洪涛，张寿选．太湖水体吸收分解（Ⅰ）：悬浮颗粒与浮游植物色素的分离．湖泊科学，2010，22(3)：337-348
[94] 郝景燕，马荣华，段洪涛，张寿选．太湖水体吸收分解（Ⅰ）：悬浮颗粒与浮游植物色素的分离．湖泊科学，2010，22(3)：337-348
[95] 段洪涛，马荣华，张源智，张柏．高叶绿素水体荧光峰位置变化响应关系研究．光谱学与光谱分析，2009，29(1)：161-164
[96] 孔维娟，马荣华，段洪涛．结合温度因子估算太湖叶绿素a含量的神经网络模型．湖泊科学，2009，21(2)：193-198
[97] 孔维娟，马荣华，段洪涛，张寿选．太湖秋冬季蓝藻水华MODIS卫星遥感监测．遥感应用，2009(8)：80-88
[98] 段洪涛，马荣华，孔维娟，郝景燕，张寿选．太湖沿岸水体CDOM吸收光谱特性．湖泊科学，2009，21(2)：242-247
[99] 蒲英霞，马荣华，马晓冬，顾朝林．长江三角洲地区城市规模分布的时空演变特征．地理研究，2009，28(1)：161-172
[100] 孔繁翔，马荣华，高俊峰，吴晓东．太湖蓝藻水华的预防、预测和预警的理论与实践．湖泊科学，2009，21(3)：314-328
[101] 宋庆君，马荣华，唐军武，王晓梅．秋季太湖悬浮物高光谱估算模型．湖泊科学，2008，20(2)：196-202
[102] 潘德炉，马荣华．湖泊水质遥感的几个关键问题．湖泊科学，2008，20(2)：139-144
[103] 姜广甲，苏文，马荣华，段洪涛，蔡伟叙，黄楚光，阳杰，余威.富营养化水体颗粒有机碳浓度的遥感估算及动态变化特征. 红外与毫米波学报. 2015, 34(2)：203-210
[104] 姜广甲，苏文，马荣华，段洪涛，蔡伟叙，黄楚光.太湖中颗粒有机碳对水体固有光学特性的影响.环境科学研究. 2015, 28(2)：234-241.



发表论文（1）Effects of broad bandwidth on the remote sensing of inland waters: Implications for high spatial resolution satellite data application,ISPRS Journal of Photogrammetry and Remote Sensing,2019,通讯作者
（2）Inversion of inherent optical properties in optically complex waters using sentinel-3A/OLCI images: A case study using China's three largest freshwater lakes,Remote Sensing of Environment,2019,通讯作者
（3）An Absorption-specific Algorithm to Examine Dynamics of Particulate Organic Carbon from VIIRS Observations in Inland and Coastal Waters,Remote Sensing of Environment,2019,通讯作者
（4）Evaluation of Weighting Average Functions as a Simplification of the Radiative Transfer Simulation in Vertically Inhomogeneous EutrophicWaters,Applied Sciences,2019,通讯作者
（5）A remote sensing algorithm of column-integrated algal biomass covering algal bloom conditions in a shallow eutrophic lake,International Journal of Geo-Information,2018,通讯作者
（6）Diurnal changes of cyanobacteria blooms in Taihu Lake as derived from geostationary ocean color imager observations,Limnology and Oceanography,2018,通讯作者
（7）Large-scale mapping of gully-affected areas: An approach integrating Google Earth images and terrain skeleton information,Geomorphology,2018,通讯作者
（8）Satellite-Based Estimation of Column-Integrated Algal Biomass in Nonalgae Bloom Conditions: A Case Study of Lake Chaohu, China,IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,2017,通讯作者
（9）Mapping species of submerged aquatic vegetation withmulti-seasonal satellite images and considering life history information,International Journal of Applied Earth Observation and Geoinformation,2017,通讯作者
（10）Variability of light absorption properties in optically complex inland waters of Lake Chaohu, China,Journal of Great Lakes Research,2017,通讯作者
（11）Detection of sensitive soil properties related to non-point phosphoruspollution by integrated models of SEDD and PLOAD,Ecological Indicators,2016,第3作者
（12）Influence of Particle Composition on Remote Sensing Reflectance and MERIS Maximum Chlorophyll Index Algorithm: Examples From Taihu Lake and Chaohu Lake,IEEE Geoscience and Remote Sensing Letters,2015,通讯作者
（13）Remote sensing of particulate organic carbon dynamics in a eutrophic,Science of the Total Environment,2015,通讯作者
（14）Estimating Forest fAPAR from Multispectral Landsat-8 Data,Remote Sensing,2015,通讯作者
（15）2.Are algal blooms occurring later in Lake Taihu Climate local effects outcompete mitigation prevention,Journal of Plankton Research,2014,第2作者
（16）A Spectral Decomposition Algorithm for Estimating Chlorophyll-a Concentrations in Lake Taihu, China ,Remote Sensing,2014,第2作者
（17）A New Method for Modifying Thresholds in the Classification of Tree Models for Mapping Aquatic Vegetation in Taihu Lake with Satellite Images,Remote Sensing,2014,第2作者
（18）Variability of particulate organic carbon in inland waters observed from MODIS Aqua imagery,Environ. Res. Lett.,2014,第3作者
（19）A novel MERIS algorithm to derive cyanobacterial phycocyanin pigment concentrations in a eureophic lake: Theoretical basis and practical considerations,Remote Sensing of Environment,2014,通讯作者
（20）A Validation Study of an Improved SWIR Iterative Atmospheric Correction Algorithm for MODIS-Aqua Measurements in Lake Taihu China,IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING,2013,第2作者
（21）基于实测数据的太湖上空气溶胶单次散射反照率特征分析,中国科学院大学学报,2013,第2作者
（22）Remote determination of chromophoric dissolved organic matter in lakes, China,International Journal of Digital Earth,2013,第2作者
（23）基于集合卡尔曼滤波的太湖叶绿素浓度同化试验系统设计及实现,中国科学院大学学报,2013,第2作者
（24）浑浊II 类水体叶绿素a 浓度遥感反演( II):MEＲIS 遥感数据的应用,红外与毫米波学报,2013,第3作者
（25）Evaluation of remote sensing algorithms for cyanobacterial pigment retrievals during spring bloom formation in several lakes of East China,Remote Sensing of Environment,2012,第2作者
（26）太湖上空大气气溶胶光学厚度及其特征分析,环境科学,2012,第2作者
（27）太湖水体吸收分解( Ⅱ) : 浮游植物色素吸收分解,湖泊科学,2012,第2作者
（28）中国东部湖泊蓝藻色素遥感反演算法评价,Evaluation of remote sensing algorithms for cyanobacterial pigment retrievals during spring bloom formation in several lakes of East China,Remote sensing of Environment,2012,第2作者
（29）Optical approaches to examining the dynamics of dissolved organic carbon in optically complex inland waters,ENVIRONMENTAL RESEARCH LETTERS,2012,第1作者
（30）Approximate bottom contribution to remote sensing reflectance in Taihu Lake,Journal of GreatLakes Research,2011,第1作者
（31）Effective upwelling irradiance depths in turbid waters: a spectral analysis of origins and fate,Optics Express,2011,第1作者
（32）Unusual links between inherent and apparent optical properties in shallow lakes, the case of Taihu Lake,Hydrobiologia,2011,第1作者
（33）China’s lakes at present: Number, area and spatial distribution,Sci China Earth Sci,2011,第1作者
（34）中国湖泊的数量、面积与空间分布,中国科学,2011,第1作者
（35）浑浊Ⅱ类水体叶绿素a浓度遥感反演（Ⅰ）：模型的选择,红外与毫米波学报,2011,第2作者
（36）内陆水体叶绿素a浓度反演的区域化三波段模型研究,遥感学报,2011,第3作者
（37）利用MODIS影像提取太湖蓝藻水华的尺度差异性分析,湖泊科学,2011,第2作者
（38）基于IDL Export Bridge技术的湖泊水环境遥感监测系统设计,环境监控与预警,2011,第2作者
（39）基于实测高光谱数据的太湖悬浮物浓度与透明度分区,生态与农村环境学报,2011,第4作者
（40）A half-century of changes in China’s lakes: Global warming or human influence,Geophysical Research Letters,2010,第1作者
（41）China’s lakes at present: number, area and spatial distribution,SCIENCE CHINA Earth Sciences(Science in China Series D),2010,第1作者
（42）Comparison of Different Semi-empirical Algorithms to Estimate Chlorophyll-a Concentration in Inland Lake Water,Environmental Monitoring and Assessment,2010,第2作者
（43）中国湖泊现状及面临的重大问题与保护策略,湖泊科学,2010,第2作者
（44）太湖水体吸收分解（Ⅰ）：悬浮颗粒与浮游植物色素的分离,湖泊科学,2010,第2作者
（45）Absorption and scattering properties of water body in Taihu Lake, China: backscattering,International Journal of Remote Sensing,2009,第1作者
（46）基于MODIS影像估测太湖蓝藻暴发期藻蓝素含量,中国环境科学,2009,第1作者
（47）湖泊水色遥感研究进展,湖泊科学,2009,第1作者
（48）Two-decade reconstruction of algal blooms in China’s Lake Taihu,Environmental Science and Technology,2009,第2作者
（49）Remote sensing assessment of regional inland lakes water clarity in Northeast China,Limnology,2009,第2作者
（50）高叶绿素水体荧光峰位置变化响应关系研究,光谱学与光谱分析,2009,第2作者
（51）结合温度因子估算太湖叶绿素a含量的神经网络模型,湖泊科学,2009,第2作者
（52）太湖沿岸水体CDOM吸收光谱特性,湖泊科学,2009,第2作者
（53）长江三角洲地区城市规模分布的时空演变特征,地理研究,2009,第2作者
（54）太湖蓝藻水华的预防、预测和预警的理论与实践,湖泊科学,2009,第2作者
（55）Mining the Urban Sprawl Pattern: A Case Study on Sunan, China,Sensors,2008,第1作者
（56）Detecting Aquatic Vegetation Change of Taihu Lake, China Using Multi-Temporal Satellite Imageries,Sensors,2008,第1作者
（57）基于卫星遥感的太湖蓝藻水华时空分布规律认识,湖泊科学,2008,第1作者
（58）太湖草型湖区底质对遥感反射比的贡献,遥感学报,2008,第1作者
（59）太湖水体的后向散射概率,湖泊科学,2008,第1作者
（60）秋季太湖悬浮物高光谱估算模型,湖泊科学,2008,第2作者
（61）湖泊水质遥感的几个关键问题,湖泊科学,2008,第2作者
（62）Hyperspectral feature analysis of chlorophyll-a and suspended solids with field measurements in Taihu Lake, Eastern China,Hydrological Sciences Journal,2007,第1作者
（63）太湖秋季水体遥感反射比的简单经验估测模型,湖泊科学,2007,第1作者
（64）从空间数据库中挖掘频繁临近类别集的一种新算法,武汉大学学报 信息科学版,2007,第1作者
（65）苏南沿江城镇扩展的空间模式及其测度,地理学报,2007,第1作者
（66）Determination of chlorophyll-a concentration using inverse continuum removal analysis of fluorescence peak in Lake Chagan, China,Proceedings of SPIE,2007,第2作者
（67）Hydrophtes extraction in Taihu Lake, China: an approach of integrating decision tree with water depth based on Landsat TM and SPOT,Proceedings of SPIE,2007,第2作者
（68）基于分区的太湖叶绿素a遥感估测模型,河海大学学报（自然科学版）,2007,第2作者
（69）Qingjun Song. Absorption and scattering properties of water body in Taihu Lake, China Ⅰ: Absorption,International Journal of Remote Sensing,2006,第1作者
（70）Bio-optical model with optimal parameter suitable for Taihu Lake in water colour remote sensing,International Journal of Remote Sensing,2006,第1作者
（71）Hyperspectral features about suspended substance in some representative areas, Lake Taihu, China,Proceedings of SPIE,2006,第1作者
（72）从GIS数据库中挖掘空间离群点的一种高效算法,武汉大学学报 信息科学版,2006,第1作者
（73）湖泊水色遥感参数获取与算法分析,水科学进展,2006,第1作者
（74）基于马尔可夫链的江苏省“俱乐部趋同”演变特征,南京社会科学,2006,第2作者
（75）Investigation of chlorophyll-a and total suspended matter concentrations using Landsat ETM and field spectral measurement in Taihu Lake, China,International Journal of Remote Sensing,2005,第1作者
（76）Cognitive Logic Representation of Spatial Association Rules of Knowledge Discovery from GIS Database,Proceedings of Internatioanl Symposium on Spatial-temporal Modeling, Spatial Reasoning, Spatial Analysis, Data Mining and Data Fusion,2005,第1作者
（77）应用实测光谱估测太湖梅梁湾附近水体叶绿素浓度,遥感学报,2005,第1作者
（78）从GIS数据库中挖掘空间关联规则知识,遥感学报,2005,第1作者
（79）结合Landsat ETM与实测光谱估测太湖叶绿素及悬浮质含量,湖泊科学,2005,第1作者
（80）东太湖CDOM吸收光谱的影响因素与参数确定,湖泊科学,2005,第1作者
（81）GIS认知与数据组织研究初步,武汉大学学报 信息科学版,2005,第1作者
（82）基于空间马尔科夫链的江苏区域趋同时空演变,地理学报,2005,第2作者
（83）Spatial-temporal dynamics of regional convergence at the county level in Jiangsu,Chinese Geographical Science,2005,第2作者

发表著作（1）GIS空间关联模式发现,Mining Spatial Association Patterns from GIS Database,科学出版社,2007-01,第1作者
（2）湖泊水环境遥感,Lake Water Environment Remote Sensing,科学出版社,2010-09,第1作者
（3）中国湖泊调查技术规程,科学出版社,2015-04,第5作者
（4）中国湖泊分布地图集,Lake Distribution Atals in China,科学出版社,2015-09,第1作者
（5）太湖水质目标管理系统化开发与应用实践,南京大学出版社,2018-07,第3作者
（6）面向太湖水环境管理的数据库设计与实现,南京大学出版社,2018-08,第3作者


科研活动
科研项目（ 1 ） 华东地区固碳参量遥感监测, 主持,国家级,2011-03--2015-03
（ 2 ） 基于浮游植物色素反演的富营养化湖泊主要藻类遥感识别机理, 主持,国家级,2009-01--2011-12
（ 3 ） 华东地区土地覆盖遥感监测, 主持,国家级,2012-01--2014-12
（ 4 ） 中国湖泊水质、水量和生物资源调查, 主持,国家级,2006-01--2011-12
（ 5 ） 湖库型饮用水源地富营养化监测预警系统开发与示范, 主持,国家级,2013-06--2016-12
（ 6 ） 富营养化湖泊水体藻颗粒对遥感反射比的影响机理研究, 主持,国家级,2015-01--2019-12
（ 7 ） 太湖水质目标管理平台研发, 主持,部委级,2013-07--2018-12
（ 8 ） 宽波段卫星传感器叶绿素遥感反演机理及高精度算法开发：以Landsat OLI为例, 主持,国家级,2018-01--2021-12
（ 9 ） 富营养化湖泊蓝藻爆发前的藻蓝素遥感定量探测机理, 主持,国家级,2009-01--2011-12
（ 10 ） 浅水湖泊中底质对遥感反射比的贡献——以太湖为试验区, 主持,国家级,2007-01--2009-12
（ 11 ） 长三角重要生态功能区生态评估系统平台, 主持,部委级,2019-01--2023-12
（ 12 ） 村镇建设资源环境承载力测算系统开发, 主持,国家级,2018-01--2022-12

参与会议（1）Lake Color Environment Remote Sensing in China2017-05-15
（2）Remote sensing based monitoring of aquatic carbon dynamics; developments of the CarbMonit project中国科技部—欧洲空间局“龙计划”合作 2015年“龙计划”学术研讨会张玉超、薛坤、李晶、马荣华、Steven Loiselle2015-06-22
（3）China’s lakes: The present and the pastRonghua ma, Hongtao Duan2011-06-13


合作情况
项目协作单位