基本信息
高光 男 博导 南京地理与湖泊研究所
电子邮件:guanggao@niglas.ac.cn
通信地址:南京市北京东路73号
邮政编码:210008

研究领域

主要的研究方向是湖泊微生物生态学及分子生态学,尤其是微食物网的结构、功能及其在湖泊物质循环过程中的作用。目前的研究兴趣主要是围绕着浅水湖泊富营养化机理及生态系统对富营养化的响应、蓝藻水华暴发机制等,研究磷在湖泊环境各介质中的分布、有效利用形式、迁移转化的途径、速率、影响因子、以及微生物、酶等在此过程中的作用。

招生信息

   
招生专业
083001-环境科学
招生方向
湖泊生物与生态
微生物学

教育背景

1997-10--2002-12 University of Innsbruck, Austria Ph.D
1990-09--1993-06 中国科学院南京地理与湖泊研究所 硕士
1983-09--1987-06 厦门大学 学士
学历
-- 研究生
学位
-- 博士

工作经历

   
工作简历
2005-12--今 中国科学院南京地理与湖泊研究所 研究员
1998-01--2005-12 中国科学院南京地理与湖泊研究所 副研
1992-01--1997-12 中国科学院南京地理与湖泊研究所 助研
1987-07--1991-12 中国科学院南京地理与湖泊研究所 研实员

专利与奖励

   
奖励信息
(1) 太湖水环境演化过程、驱动机制及生态效应,二等奖,省级,2013
(2) 蓝藻水华形成的四阶段理论与水华预测,二等奖,省级,2008
(3) 太湖内源污染与污泥疏浚研究,二等奖,省级,2006
专利成果
[1] 胡洋, 鲁艳, 卢汉雄, 邵克强, 汤祥明, 孙小州, 高光. 外源光对水体中沉水植物生长影响的实验装置. CN: CN212544757U, 2021-02-19.

[2] 邓建明, 汤祥明, 高光, 张运林, 秦伯强. 基于浮游植物群落的湖泊生态健康便捷监测系统及方法. CN: CN112269001A, 2021-01-26.

[3] 汤祥明, 邵克强, 胡洋, 高光. 基于水生植被生物量调控的城市草型湖泊稳态维持方法. CN: CN111448952A, 2020-07-28.

[4] 汤祥明, 于谨磊, 韩翠敏, 邵克强, 高光. 基于鱼类群落生物量调控的城市草型湖泊稳态维持方法. CN: CN111436387A, 2020-07-24.

[5] 秦伯强, 高光, 张运林, 汤祥明, 许海, 董百丽. 一种利用蓝藻水华为原料培育小球藻属浮游植物的方法. CN: CN106754385B, 2020-05-05.

[6] 邵克强, 胡洋, 汤祥明, 高光. 一种苦草种植装置. CN: CN209226690U, 2019-08-09.

[7] 邵克强, 胡洋, 龚伊, 汤祥明, 高光. 一种高效率的湖泊沉水植物自动种植装置. CN: CN209218707U, 2019-08-09.

[8] 秦伯强, 高光, 张运林, 朱广伟, 汤祥明, 吴挺峰, 董百丽, 许海, 邓建明. 一种利用蓝藻水华培育红假单胞菌属光合细菌的方法. CN: CN105543148B, 2019-03-29.

[9] 邵克强, 胡洋, 龚伊, 汤祥明, 高光. 一种高效率的湖泊沉水植物自动种植装置及使用方法. CN: CN109362408A, 2019-02-22.

[10] 邵克强, 胡洋, 汤祥明, 高光. 一种苦草种植装置及使用方法. CN: CN109354202A, 2019-02-19.

[11] 董百丽, 秦伯强, 高光. 一种浮游植物浓缩定量收集装置. 中国: CN207816617U, 2018-09-04.

[12] 董百丽, 秦伯强, 高光, 邵克强, 龚志军. 一种多层旋转式植物景观平台. 中国: CN207802894U, 2018-09-04.

[13] 邵克强, 胡洋, 汤祥明, 赛·巴雅尔图, 何建, 高光. 针对干旱地区农业面源污染的复合净化系统. 中国: CN105110475B, 2018-05-04.

[14] 邵克强, 刘颢, 胡洋, 汤祥明, 赛·巴雅尔图, 高光. 干旱地区湖滨带湿地干湿交替生态修复系统. 中国: CN105152344B, 2017.09.26.

[15] 刘颢, 汤祥明, 邵克强, 高光, 漆志飞, 潘辉. 一种适用于低流速城市小流域河网的水质净化系统及方法. 中国: CN104803558A, 2015.07.29.

[16] 秦伯强, 高光, 张运林, 朱广伟, 董百丽, 汤祥明. 一种以自来水为初始水源形成蓝藻门微囊藻属水华的方法. 中国: CN104429910A, 2015.03.25.

[17] 秦伯强, 高光, 张运林, 吴挺峰, 邓建明, 董百丽, 许海, 吴攀, 莫晓倩. 一种利用湖泊蓝藻水华培养浮游绿藻的方法. 中国: CN105112338A, 2015-12-02.

[18] 刘颢, 汤祥明, 邵克强, 高光, 漆志飞, 潘辉. 净水浮床养殖装置和净水方法. 中国: CN104828948A, 2015-08-12.

[19] 龚伊, 高光, 汤祥明, 邵克强. 基于流式细胞术测定浅水湖泊中异养细菌大小的方法. 中国: CN104777091A, 2015-07-15.

[20] 龚伊, 汤祥明, 高光, 邵克强, 胡洋. 一种快速检测湖泛的方法. 中国: CN104677847A, 2015-06-03.

[21] 秦伯强, 董百丽, 高光. 一种利用附着生物恢复净化水质的方法. 中国: CN104556400A, 2015-04-29.

[22] 秦伯强, 董百丽, 胡春华, 高光. 一种利用水生漂浮植物浮床净化水质的方法. 中国: CN104129859A, 2014-11-05.

[23] 龚伊, 汤祥明, 高光, 王博雯, 胡洋. 一种基于流式细胞术快速测定富营养化湖泊异养细菌的方法. 中国: CN103926189A, 2014-07-16.

[24] 陈源高, 赛·巴雅尔图, 高光, 汤祥明. 一种西北地区控污阻盐的生态沟渠. 中国: CN102659248A, 2012-09-12.

[25] 汤祥明, 王永平, 陈丹, 高光, 赛·巴雅尔图. 一种削减水体营养盐与盐分的人工载体组合装置. 中国: CN102633353A, 2012-08-15.

[26] 王永平, 汤祥明, 高光, 陈源高, 赛.巴尔雅图. 一种西北地区处理含盐水体的人工湿地. 中国: CN102616939A, 2012-08-01.

出版信息

   
发表论文
[1] Jiang, Xingyu, Liu, Changqing, Hu, Yang, Shao, Keqiang, Tang, Xiangming, Zhang, Lu, Gao, Guang, Qin, Boqiang. Climate-induced salinization may lead to increased lake nitrogen retention. WATER RESEARCH[J]. 2023, 228: http://dx.doi.org/10.1016/j.watres.2022.119354.
[2] Jiang, Xingyu, Gao, Guang, Hu, Yang, Shao, Keqiang, Tang, Xiangming, Cheng, Hua, Li, Jing. The shift from macrophytic to algal particulate organic matter favours dissimilatory nitrate reduction to ammonium over denitrification in a eutrophic lake. FRESHWATER BIOLOGY[J]. 2022, 67(3): 564-576, http://dx.doi.org/10.1111/fwb.13863.
[3] Jiang, Xingyu, Liu, Changqing, Hu, Yang, Shao, Keqiang, Tang, Xiangming, Gao, Guang, Qin, Boqiang. Salinity-Linked Denitrification Potential in Endorheic Lake Bosten (China) and Its Sensitivity to Climate Change. FRONTIERS IN MICROBIOLOGY[J]. 2022, 13: http://dx.doi.org/10.3389/fmicb.2022.922546.
[4] Liu, Changqing, Wu, Fan, Jiang, Xingyu, Hu, Yang, Shao, Keqiang, Tang, Xiangming, Qin, Boqiang, Gao, Guang. Salinity Is a Key Determinant for the Microeukaryotic Community in Lake Ecosystems of the Inner Mongolia Plateau, China. FRONTIERS IN MICROBIOLOGY[J]. 2022, 13: http://dx.doi.org/10.3389/fmicb.2022.841686.
[5] Yang Hu, Xingyu Jiang, Shao Keqiang, Xiangming Tang, Boqiang Qin, Guang Gao. Convergency and Stability Responses of Bacterial Communities to Salinization in Arid and Semiarid Areas: Implications for Global Climate Change in Lake Ecosystems. FRONTIERS IN MICROBIOLOGY[J]. 2022, 12: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8764409/.
[6] Jiang, Xingyu, Gao, Guang, Deng, Jianming, Zhu, Guangwei, Tang, Xiangming, Shao, Keqiang, Hu, Yang. Nitrogen concentration response to the decline in atmospheric nitrogen deposition in a hypereutrophic lake. ENVIRONMENTAL POLLUTION[J]. 2022, 300: http://dx.doi.org/10.1016/j.envpol.2022.118952.
[7] 高光, 张运林, 邵克强. 浅水湖泊生态修复与草型生态系统重构实践--以太湖蠡湖为例. 科学[J]. 2021, 73(3): 9-12+4, http://lib.cqvip.com/Qikan/Article/Detail?id=7104919854.
[8] Tang, Xiangming, Xie, Guijuan, Shao, Keqiang, Tian, Wei, Gao, Guang, Qin, Boqiang. Aquatic Bacterial Diversity, Community Composition and Assembly in the Semi-Arid Inner Mongolia Plateau: Combined Effects of Salinity and Nutrient Levels. MICROORGANISMS[J]. 2021, 9(2): https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7909399/.
[9] Xie, Guijuan, Tang, Xiangming, Shao, Keqiang, Zhu, Guangwei, Gao, Guang. Bacterial diversity, community composition and metabolic function in Lake Tianmuhu and its dammed river: Effects of domestic wastewater and damming. ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY[J]. 2021, 213: https://doaj.org/article/932e3ae8b0f94d7baa1a25619de58c34.
[10] Xie, Guijuan, Tang, Xiangming, Shao, Keqiang, Hu, Yang, Liu, Hao, Martin, Robbie M, Gao, Guang. Spatiotemporal patterns and environmental drivers of total and active bacterial abundances in Lake Taihu, China. ECOLOGICAL INDICATORS[J]. 2020, 114: http://dx.doi.org/10.1016/j.ecolind.2020.106335.
[11] Hu, Yang, Yao, Xin, Wu, Yuanyuan, Han, Wei, Zhou, Yongqiang, Tang, Xiangming, Shao, Keqiang, Gao, Guang. Contrasting Patterns of the Bacterial Communities in Melting Ponds and Periglacial Rivers of the Zhuxi glacier in the Tibet Plateau. MICROORGANISMS[J]. 2020, 8(4): https://doaj.org/article/bb1c31657924464ba00f3157106efbc1.
[12] Qin, Boqiang, Zhang, Yunlin, Zhu, Guangwei, Gong, Zhijun, Deng, Jianming, Hamilton, David P, Gao, Guang, Shi, Kun, Zhou, Jian, Shao, Keqiang, Zhu, Mengyuan, Zhou, Yongqiang, Tang, Xiangming, Li, Liang. Are nitrogen-to-phosphorus ratios of Chinese lakes actually increasing?. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2020, 117(35): 21000-21002, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7474625/.
[13] 薛庆举, 汤祥明, 龚志军, 高光, 蔡永久. 典型城市湖泊五里湖底栖动物群落演变特征及其生态修复应用建议. 湖泊科学[J]. 2020, 32(3): 762-771, http://lib.cqvip.com/Qikan/Article/Detail?id=7101521383.
[14] Jiang, Xingyu, Gao, Guang, Zhang, Lu, Tang, Xiangming, Shao, Keqiang, Hu, Yang. Denitrification and dissimilatory nitrate reduction to ammonium in freshwater lakes of the Eastern Plain, China: Influences of organic carbon and algal bloom. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2020, 710: http://dx.doi.org/10.1016/j.scitotenv.2019.136303.
[15] Zhang, Lei, Fang, Wangkai, Li, Xingchen, Gao, Guang, Jiang, Jiahu. Linking bacterial community shifts with changes in the dissolved organic matter pool in a eutrophic lake. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2020, 719: http://dx.doi.org/10.1016/j.scitotenv.2020.137387.
[16] Deng, Jianming, Tang, Xiangming, Qin, Boqiang, Gao, Guang, Zhang, Yunlin, Zhu, Guangwei, Gong, Zhijun. Decreasing nitrogen loading and climate change promotes the occurrence of nitrogen-fixing cyanobacteria in a restored city lake. HYDROBIOLOGIA[J]. 2020, 847(13): 2963-2975, http://dx.doi.org/10.1007/s10750-020-04299-7.
[17] Liu, Changqing, Shi, Xiaoli, Wu, Fan, Ren, Mingdong, Gao, Guang, Wu, Qinglong. Genome analyses provide insights into the evolution and adaptation of the eukaryotic PicophytoplanktonMychonastes homosphaera. BMC GENOMICS[J]. 2020, 21(1): http://dx.doi.org/10.1186/s12864-020-06891-6.
[18] Tang, Xiangming, Xie, Guijuan, Shao, Keqiang, Hu, Yang, Cai, Jian, Bai, Chengrong, Gong, Yi, Gao, Guang. Contrast diversity patterns and processes of microbial community assembly in a river-lake continuum across a catchment scale in northwestern China (vol 15, 10, 2020). ENVIRONMENTAL MICROBIOME. 2020, 15(1): http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000553304400001.
[19] Jiang, Xingyu, Gao, Guang, Zhang, Lu, Tang, Xiangming, Shao, Keqiang, Hu, Yang, Cai, Jian. Role of algal accumulations on the partitioning between N-2 production and dissimilatory nitrate reduction to ammonium in eutrophic lakes. WATER RESEARCH[J]. 2020, 183: http://dx.doi.org/10.1016/j.watres.2020.116075.
[20] Tang, Xiangming, Xie, Guijuan, Shao, Keqiang, Hu, Yang, Cai, Jian, Bai, Chengrong, Gong, Yi, Gao, Guang. Contrast diversity patterns and processes of microbial community assembly in a river-lake continuum across a catchment scale in northwestern China. ENVIRONMENTAL MICROBIOME[J]. 2020, 15(1): https://doaj.org/article/f80a9f2d6159435b94dae3ec6a0a3b53.
[21] 田伟, 杨周生, 邵克强, 潘辉, 胡洋, 白承荣, 姜星宇, 高光, 汤祥明. 城市湖泊水环境整治对改善水质的影响:以蠡湖近30年水质变化为例. 环境科学[J]. 2020, 41(1): 183-193, http://lib.cqvip.com/Qikan/Article/Detail?id=7101033427.
[22] Bai, Chengrong, Cai, Jian, Zhou, Lei, Jiang, Xingyu, Hu, Yang, Dai, Jiangyu, Shao, Keqiang, Tang, Xiangming, Yang, Xiangdong, Gao, Guang. Geographic Patterns of Bacterioplankton among Lakes of the Middle and Lower Reaches of the Yangtze River Basin, China. APPLIED AND ENVIRONMENTAL MICROBIOLOGY[J]. 2020, 86(6): http://dx.doi.org/10.1128/AEM.02423-19.
[23] Cai, Jian, Bai, Chengrong, Tang, Xiangming, Dai, Jiangyu, Jiang, Xingyu, Hu, Yang, Shao, Keqiang, Gao, Guang. Spatiotemporal Variations in Seston C:N:P Stoichiometry in a Large Eutrophic Floodplain Lake (Lake Taihu): Do the Sources of Seston Explain Stoichiometric Flexibility?. WATER[J]. 2020, 12(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000519847200036.
[24] 高光. Role of algae-derived particulate organic matter on the partitioning between N2 production and dissimilatory nitrate reduction to ammonium in eutrophic lakes. Water Research. 2020, [25] Hu, Yang, Xie, Guijuan, Jiang, Xingyu, Shao, Keqiang, Tang, Xiangming, Gao, Guang. The Relationships Between the Free-Living and Particle-Attached Bacterial Communities in Response to Elevated Eutrophication. FRONTIERS IN MICROBIOLOGY[J]. 2020, 11: https://doaj.org/article/9e82847f357548438a616718ef862373.
[26] Xie, Guijuan, Tang, Xiangming, Gong, Yi, Shao, Keqiang, Gao, Guang. How do Planktonic Particle Collection Methods Affect Bacterial Diversity Estimates and Community Composition in Oligo-, Meso- and Eutrophic Lakes?. FRONTIERS IN MICROBIOLOGY[J]. 2020, 11: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7746777/.
[27] Liu, Changqing, Shi, Xiaoli, Wu, Fan, Zhang, Min, Gao, Guang, Wu, Qinglong. Temporal patterns in the interaction between photosynthetic picoeukaryotes and their attached fungi in Lake Chaohu. FEMS MICROBIOLOGY ECOLOGY[J]. 2020, 96(7): https://www.webofscience.com/wos/woscc/full-record/WOS:000565899500021.
[28] Zhou, Jian, Qin, Boqiang, Zhu, Guangwei, Zhang, Yunlin, Gao, Guang. Long-term variation of zooplankton communities in a large, heterogenous lake: Implications for future environmental change scenarios. ENVIRONMENTAL RESEARCH[J]. 2020, 187: http://dx.doi.org/10.1016/j.envres.2020.109704.
[29] Lei Zhang, Yu Cheng, Guang Gao, Jiahu Jiang. Spatial-Temporal Variation of Bacterial Communities in Sediments in Lake Chaohu, a Large, Shallow Eutrophic Lake in China. INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH[J]. 2019, 16(20): https://doaj.org/article/29bd6841ad224d28aa1a6897af20f68b.
[30] Shao, Keqiang, Bai, Chengrong, Cai, Jian, Hu, Yang, Gong, Yi, Chao, Jianying, Dai, Jiangyu, Wang, Yongping, Ba, Tunasheng, Tang, Xiangming, Gao, Guang. Illumina Sequencing Revealed Soil Microbial Communities in a Chinese Alpine Grassland. GEOMICROBIOLOGY JOURNAL[J]. 2019, 36(3): 204-211, http://dx.doi.org/10.1080/01490451.2018.1534902.
[31] Zhang, Lei, Shen, Zhen, Fang, Wangkai, Gao, Guang. Composition of bacterial communities in municipal wastewater treatment plant. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2019, 689: 1181-1191, http://dx.doi.org/10.1016/j.scitotenv.2019.06.432.
[32] Lu Weiwei, Yao Xin, Shao Keqiang, Zhang Baohua, Gao Guang. Unraveling the sources and fluorescence compositions of dissolved and particulate organic matter (DOM and POM) in Lake Taihu, China. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH[J]. 2019, 26(4): 4027-4040, [33] Jiang, Xingyu, Zhang, Lu, Gao, Guang, Yao, Xiaolong, Zhao, Zhonghua, Shen, Qiushi. High rates of ammonium recycling in northwestern Lake Taihu and adjacent rivers: An important pathway of nutrient supply in a water column. ENVIRONMENTAL POLLUTION[J]. 2019, 252: 1325-1334, http://dx.doi.org/10.1016/j.envpol.2019.06.026.
[34] Zhang, Lei, Zhao, Tingting, Wang, Qiao, Li, Li, Shen, Tingting, Gao, Guang. Bacterial community composition in aquatic and sediment samples with spatiotemporal dynamics in large, shallow, eutrophic Lake Chaohu, China. JOURNAL OF FRESHWATER ECOLOGY[J]. 2019, 34(1): 575-589, https://doaj.org/article/230d87df41f04b13a3ab2e5bebcb13aa.
[35] Shao, Keqiang, Yao, Xin, Xie, Guijuan, Wu, Yuanyuan, Hu, Yang, Tang, Xiangming, Gao, Guang. Detectable Levels of Bacterial Pathogens in the Rivers of the Lake Chaohu Basin, China. INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH[J]. 2019, 16(23): http://dx.doi.org/10.3390/ijerph16234857.
[36] Zhang, Lei, Zhao, Tingting, Shen, Tingting, Gao, Guang. Seasonal and spatial variation in the sediment bacterial community and diversity of Lake Bosten, China. JOURNAL OF BASIC MICROBIOLOGY[J]. 2019, 59(2): 224-233, http://dx.doi.org/10.1002/jobm.201800452.
[37] Shao, Keqiang, Jiang, Xingyu, Hu, Yang, Tang, Xiangming, Gao, Guang. Thaumarchaeota affiliated with Soil Crenarchaeotic Group are prevalent in the alkaline soil of an alpine grassland in northwestern China. ANNALS OF MICROBIOLOGY[J]. 2019, 69(8): 867-870, https://www.webofscience.com/wos/woscc/full-record/WOS:000475516600009.
[38] Shao, Keqiang, Gao, Guang. Soil microbial communities of three grassland ecosystems in the Bayinbuluke, China. CANADIAN JOURNAL OF MICROBIOLOGY[J]. 2018, 64(3): 209-213, https://www.webofscience.com/wos/woscc/full-record/WOS:000425813000005.
[39] Kong, Ming, Chao, Jianying, Zhuang, Wei, Wang, Peifang, Wang, Chao, Hou, Jun, Wu, Zhaoshi, Wang, Longmian, Gao, Guang, Wang, Yu. Spatial and Temporal Distribution of Particulate Phosphorus and Their Correlation with Environmental Factors in a Shallow Eutrophic Chinese Lake (Lake Taihu). INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH[J]. 2018, 15(11): https://doaj.org/article/a6e4c79a0938401fbb2a94ad8d99f539.
[40] Shao Keqiang, Gao Guang. Soil microbial communities of three grassland ecosystems in the. CANADIAN JOURNAL OF MICROBIOLOGY[J]. 2018, 64(3): 209-213, http://www.irgrid.ac.cn/handle/1471x/2554338.
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[169] 段雪梅, 冯胜, 王小冬, 汤详明, 高光, 秦伯强. 一株分离自太湖有机聚集体上的有机磷降解细菌的鉴定及其降解特性研究. 农业环境科学学报[J]. 2008, 27(2): 741-747, http://lib.cqvip.com/Qikan/Article/Detail?id=26834405.
[170] 王小冬, 秦伯强, 高光. 高温强太阳光照条件下蓝藻水华形成的实验研究. 生态科学[J]. 2008, 27(5): 357-361, http://lib.cqvip.com/Qikan/Article/Detail?id=28876636.
[171] 冯胜, 秦伯强, 高光. 太湖磷转化细菌与水体磷形态关系. 湖泊科学[J]. 2008, 20(4): 428-436, http://lib.cqvip.com/Qikan/Article/Detail?id=27586728.
[172] Ding, Ling, Wu, Jian Q, Pang, Yong, Li, Ling, Gao, Guang, Hu, Dong W. Simulation study on algal dynamics based on ecological flume experiment in Taihu Lake, China. ECOLOGICAL ENGINEERING[J]. 2007, 31(3): 200-206, http://dx.doi.org/10.1016/j.ecoleng.2007.06.013.
[173] 宋玉芝, 秦伯强, 高光. 氮及氮磷比对附着藻类及浮游藻类的影响. 湖泊科学[J]. 2007, 19(2): 125-130, http://lib.cqvip.com/Qikan/Article/Detail?id=24252921.
[174] 朱广伟, 秦伯强, 高光. 太湖现代沉积物中磷的沉积通量及空间差异性. 海洋与湖沼[J]. 2007, 38(4): 329-335, http://lib.cqvip.com/Qikan/Article/Detail?id=25059696.
[175] 宋玉芝, 秦伯强, 高光, 罗敛聪, 孟芳. 附着生物对沉水植物伊乐藻生长的研究. 生态环境[J]. 2007, 16(6): 1643-1647, http://lib.cqvip.com/Qikan/Article/Detail?id=26363480.
[176] Zhu, Guangwei, Qin, Boqiang, Gao, Guang, Zhang, Lu, Luo, Liancong, Zhang, Yunlin. Effects of hydrodynamics on phosphorus concentrations in water of Lake Taihu, a large, shallow, eutrophic lake of China. HYDROBIOLOGIA[J]. 2007, 581: 53-61, http://159.226.73.51/handle/332005/10080.
[177] Gao, Guang, Qin, Boqiang, Sommaruga, Ruben, Psenner, Roland. The bacterioplankton of Lake Taihu, China: abundance, biomass, and production. HYDROBIOLOGIA[J]. 2007, 581: 177-188, http://159.226.73.51/handle/332005/10064.
[178] 邢鹏, 孔繁翔, 高光. 太湖浮游细菌种群基因多样性及其季节变化规律. 湖泊科学[J]. 2007, 19(4): 373-381, http://lib.cqvip.com/Qikan/Article/Detail?id=24958893.
[179] 冯胜, 秦伯强, 高光. 细菌群落结构对水体富营养化的响应. 环境科学学报[J]. 2007, 27(11): 1823-1829, http://lib.cqvip.com/Qikan/Article/Detail?id=25865766.
[180] Shi, Xiaoli, Yang, Liuyan, Jiang, Lijuan, Kong, Fanxiang, Qin, Boqiang, Gao, Guang. Intracellular phosphorus metabolism and growth of Microcystis aeruginosa in dark/light cycles under various redox potential difference conditions. HYDROBIOLOGIA[J]. 2007, 581(1): 167-176, http://159.226.73.51/handle/332005/10088.
[181] 宋玉芝, 秦伯强, 高光. 附着生物对太湖沉水植物影响的初步研究. 应用生态学报[J]. 2007, 18(4): 928-932, http://lib.cqvip.com/Qikan/Article/Detail?id=24484060.
[182] 陈默, 高光, 朱丽萍, 冯胜, 中. 太湖水体中微型原生动物对细菌的捕食作用. 应用生态学报[J]. 2007, 18(10): 2384-2388, http://lib.cqvip.com/Qikan/Article/Detail?id=25644575.
[183] 冯胜, 高光, 朱广伟, 张运林, 秦伯强. 基于16S rDNA-DGGE和FDC技术对富营养化湖泊不同生态修复工程区细菌群落结构的研究. 应用与环境生物学报[J]. 2007, 13(4): 535-540, http://lib.cqvip.com/Qikan/Article/Detail?id=25312775.
[184] 秦伯强, 胡维平, 刘正文, 谢平, 尹澄清, 高光, 谷孝鸿, 徐在宽. 太湖水源地水质净化的生态工程试验研究. 环境科学学报[J]. 2007, 27(1): 5-12, http://lib.cqvip.com/Qikan/Article/Detail?id=23663563.
[185] 王珂, 逄勇, 高光. 不同扰动条件下微囊藻和栅藻竞争能力的比较. 江苏环境科技[J]. 2006, 19(2): 40-42, http://lib.cqvip.com/Qikan/Article/Detail?id=21690109.
[186] Zhang Lu, Zhu Guangwei, Luo Liancong, Gao Guang, Zhang Yunlin, Qin Boqiang, Fan Chengxin. Wind-wave affected phosphate loading variations and their relationship to redox condition in Lake Taihu. SCIENCE IN CHINA SERIES D-EARTH SCIENCES[J]. 2006, 49: 154-161, http://ir.las.ac.cn/handle/研究所代码,例如:311007/3011.
[187] Zhang Yunlin, Qin Boqiang, Zhu Guangwei, Gao Guang, Luo Liancong, Chen Weimin. Effect of sediment resuspension on underwater light field in shallow lakes in the middle and lower reaches of the Yangtze River: A case study in Longgan Lake and Taihu Lake. SCIENCE IN CHINA SERIES D-EARTH SCIENCES[J]. 2006, 49: 114-125, http://ir.las.ac.cn/handle/研究所代码,例如:311007/2989.
[188] 秦伯强, 宋玉芝, 高光. 附着生物在浅水富营养化湖泊藻-草型生态系统转化过程中的作用. 中国科学C辑:生命科学[J]. 2006, 36(3): 283-288, http://159.226.73.51/handle/332005/5803.
[189] 陈鋆, 高光, 李一平, 王珂, 逢勇. 太湖水体中悬浮物的静沉降特征. 湖泊科学[J]. 2006, 18(5): 528-534, http://lib.cqvip.com/Qikan/Article/Detail?id=22748855.
[190] 秦伯强, 胡维平, 刘正文, 高光, 谷孝鸿, 胡春华, 宋玉芝, 陈非洲. 太湖梅梁湾水源地通过生态修复净化水质的试验. 中国水利[J]. 2006, 23-29, http://lib.cqvip.com/Qikan/Article/Detail?id=22771462.
[191] Qin Boqiang, Song Yuzhi, Gao Guang. The role of periphytes in the shift between macrophyte and phytoplankton dominated systems in a shallow, eutrophic lake (Lake Taihu, China).. SCIENCE IN CHINA. SERIES C, LIFE SCIENCES[J]. 2006, 597-602, http://159.226.73.51/handle/332005/2907.
[192] 冯胜, 高光, 秦伯强, 陈默. 太湖北部湖区水体中浮游细菌的动态变化. 湖泊科学[J]. 2006, 18(6): 636-642, http://159.226.73.51/handle/332005/5885.
[193] Qin Boqiang, Song Yuzhi, Gao Guang. The role of periphytes in the shift between macrophyte and phytoplankton dominated systems in a shallow, eutrophic lake (Lake Taihu, China). SCIENCE IN CHINA SERIES C-LIFE SCIENCES[J]. 2006, 49(6): 597-602, http://159.226.73.51/handle/332005/2907.
[194] 秦伯强, 朱广伟, 张路, 罗潋葱, 高光, Gu Binghe. 大型浅水湖泊沉积物内源营养盐释放模式及其估算方法——以太湖为例. 中国科学(D辑:地球科学)[J]. 2005, 33-44, http://159.226.73.51/handle/332005/6529.
[195] 许秋瑾, 高光, 陈伟民. 太湖微囊藻毒素年变化及其与浮游生物的关系. 中国环境科学[J]. 2005, 25(1): 28-31, http://lib.cqvip.com/Qikan/Article/Detail?id=11916592.
[196] 吴敬禄, 林琳, 刘建军, 高光. 太湖沉积物碳氮同位素组成特征与环境意义. 海洋地质与第四纪地质[J]. 2005, 25(2): 25-30, http://lib.cqvip.com/Qikan/Article/Detail?id=15944129.
[197] 朱广伟, 秦伯强, 高光. 风浪扰动引起大型浅水湖泊内源磷暴发性释放的直接证据. 科学通报[J]. 2005, 50(1): 66-71, http://lib.cqvip.com/Qikan/Article/Detail?id=11990235.
[198] 丁玲, 逄勇, 李凌, 高光. 水动力条件下藻类动态模拟. 生态学报[J]. 2005, 25(8): 1863-1868, http://lib.cqvip.com/Qikan/Article/Detail?id=20099725.
[199] 张运林, 秦伯强, 陈伟民, 高光, 朱广伟, 吴生才, 罗潋葱, 杨顶田. 龙感湖水体光学特性的观测. 湖泊科学[J]. 2005, 17(2): 114-119, http://lib.cqvip.com/Qikan/Article/Detail?id=15958545.
[200] 朱广伟, 秦伯强, 高光, 罗潋葱, 王文敏. 太湖近代沉积物中重金属元素的累积. 湖泊科学[J]. 2005, 17(2): 143-150, http://lib.cqvip.com/Qikan/Article/Detail?id=15958551.
[201] 张运林, 秦伯强, 陈伟民, 胡维平, 高光, 朱广伟, 罗潋葱. 不同风浪条件下太湖梅梁湾光合有效辐射的衰减. 应用生态学报[J]. 2005, 16(6): 1133-1137, http://lib.cqvip.com/Qikan/Article/Detail?id=15845503.
[202] 逄勇, 丁玲, 高光. 基于生态槽实验的藻类生长参数确定. 环境科学[J]. 2005, 26(3): 78-82, http://lib.cqvip.com/Qikan/Article/Detail?id=15686695.
[203] 高光, 朱广伟, 秦伯强, 陈鋆, 王珂. 太湖水体中碱性磷酸酶的活性及磷的矿化速率. 中国科学(D辑:地球科学)[J]. 2005, 157-165, http://159.226.73.51/handle/332005/6545.
[204] 张运林, 秦伯强, 陈伟民, 陈宇炜, 高光. 太湖梅梁湾春季浮游植物初级生产力. 湖泊科学[J]. 2005, 17(1): 81-86, http://lib.cqvip.com/Qikan/Article/Detail?id=12107226.
[205] 张运林, 秦伯强, 朱广伟, 高光, 罗潋葱, 陈伟民. 长江中下游浅水湖泊沉积物再悬浮对水下光场的影响研究——以龙感湖和太湖为例. 中国科学(D辑:地球科学)[J]. 2005, 101-110, http://159.226.73.51/handle/332005/6537.
[206] 张路, 朱广伟, 罗潋葱, 高光, 张运林, 秦伯强, 范成新. 风浪作用下太湖梅梁湾水体磷负荷变化及与水体氧化还原特征关系. 中国科学(D辑:地球科学)[J]. 2005, 138-144, http://159.226.73.51/handle/332005/6541.
[207] 孔繁翔, 高光. 大型浅水富营养化湖泊中蓝藻水华形成机理的思考. 生态学报[J]. 2005, 25(3): 589-595, http://lib.cqvip.com/Qikan/Article/Detail?id=15224705.
[208] 秦伯强, 高光, 胡维平, 吴庆龙, 胡春华, 刘正文, 谷孝鸿, 朱广伟, 陈非洲. 浅水湖泊生态系统恢复的理论与实践思考. 湖泊科学[J]. 2005, 17(1): 9-16, http://lib.cqvip.com/Qikan/Article/Detail?id=12107215.
[209] 杨柳燕, 蒋丽娟, 秦伯强, 高光. 铜绿微囊藻与附生假单胞菌静态吸磷的比较. 中国环境科学[J]. 2004, 24(5): 572-575, http://lib.cqvip.com/Qikan/Article/Detail?id=10854884.
[210] 朱广伟, 秦伯强, 高光, 张路, 罗潋葱. 灼烧对沉积物烧失量及铁、磷测定的影响. 分析试验室[J]. 2004, 23(9): 72-76, http://lib.cqvip.com/Qikan/Article/Detail?id=10533872.
[211] 张运林, 秦伯强, 陈伟民, 高光, 陈宇炜. 悬浮物浓度对水下光照和初级生产力的影响. 水科学进展[J]. 2004, 15(5): 615-620, http://lib.cqvip.com/Qikan/Article/Detail?id=10611060.
[212] 许秋瑾, 高光, 陈伟民. 太湖微囊藻毒素与湖泊物理因素之间的关系. 中国环境监测[J]. 2004, 20(1): 12-16, http://lib.cqvip.com/Qikan/Article/Detail?id=9302668.
[213] 范成新, 张路, 秦伯强, 胡维平, 高光, 王建军. 太湖沉积物-水界面生源要素迁移机制及定量化——1.铵态氮释放速率的空间差异及源-汇通量. 湖泊科学[J]. 2004, 16(1): 10-20, http://lib.cqvip.com/Qikan/Article/Detail?id=9217129.
[214] 许秋瑾, 高光, 陈伟民. 从种群竞争的角度初步研究微囊藻的产毒机理. 生物学杂志[J]. 2004, 21(1): 17-19, http://lib.cqvip.com/Qikan/Article/Detail?id=9192565.
[215] 朱广伟, 秦伯强, 高光, 张路, 范成新. 长江中下游浅水湖泊沉积物中磷的形态及其与水相磷的关系. 环境科学学报[J]. 2004, 24(3): 381-388, http://lib.cqvip.com/Qikan/Article/Detail?id=10165471.
[216] 吴生才, 陈伟民, 高光. 太湖藻类抗逆性的初步研究. 生态环境[J]. 2004, 13(4): 500-502, http://lib.cqvip.com/Qikan/Article/Detail?id=12091121.
[217] 张运林, 秦伯强, 陈伟民, 高光, 陈宇炜. 模拟水流条件下初级生产力及光动力学参数. 生态学报[J]. 2004, 24(8): 1808-1815, http://lib.cqvip.com/Qikan/Article/Detail?id=10325223.
[218] 范成新, 张路, 王建军, 郑超海, 高光, 王苏民. 湖泊底泥疏浚对内源释放影响的过程与机理. 科学通报[J]. 2004, 49(15): 1523-1528, http://lib.cqvip.com/Qikan/Article/Detail?id=10375473.
[219] 朱广伟, 秦伯强, 高光. 强弱风浪扰动下太湖的营养盐垂向分布特征. 水科学进展[J]. 2004, 15(6): 775-780, http://lib.cqvip.com/Qikan/Article/Detail?id=11424969.
[220] 张运林, 秦伯强, 陈伟民, 高光, 陈宇炜. 太湖梅梁湾浮游植物叶绿素a和初级生产力. 应用生态学报[J]. 2004, 15(11): 2127-2131, http://lib.cqvip.com/Qikan/Article/Detail?id=10877579.
[221] 高光, 秦伯强, 朱广伟, 范成新, 季江. 太湖梅梁湾中碱性磷酸酶的活性及其与藻类生长的关系. 湖泊科学[J]. 2004, 16(3): 245-251, http://lib.cqvip.com/Qikan/Article/Detail?id=10318227.
[222] 黄文钰, 高光, 舒金华, 于忠华, 周修炜. 含磷洗衣粉对太湖藻类生长繁殖的影响. 湖泊科学[J]. 2003, 15(4): 326-330, http://lib.cqvip.com/Qikan/Article/Detail?id=8840690.
[223] 高光, 胡文英, 李宽意. 溶解氧对低洼盐碱地鱼塘特质循环的影响. 湖泊科学[J]. 2003, 15(1): 56-62, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=1300792&detailType=1.
[224] 蒋丽娟, 史小丽, 杨柳燕, 肖琳, 王凤平, 高光, 秦伯强. 游离附生假单胞菌对铜绿微囊蓝细菌中^32P释放的影响. 环境科学学报[J]. 2003, 23(4): 521-524, http://lib.cqvip.com/Qikan/Article/Detail?id=8231982.
[225] 史小丽, 王凤平, 蒋丽娟, 周治, 杨柳燕, 孔志明, 高光, 秦伯强. 温度对外源性^32P在水、铜绿微囊藻和底泥中迁移的影响. 应用生态学报[J]. 2003, 14(11): 1967-1970, http://lib.cqvip.com/Qikan/Article/Detail?id=8563682.
[226] 高光, 胡文英, 李宽意. 溶解氧对低洼盐碱地鱼塘物质循环的影响. 湖泊科学[J]. 2003, 15(1): 56-62, http://lib.cqvip.com/Qikan/Article/Detail?id=12155963.
[227] 秦伯强, 胡维平, 高光, 罗敛葱, 张金善. 太湖沉积物悬浮的动力机制及内源释放的概念性模式. 科学通报[J]. 2003, 48(17): 1822-1831, http://lib.cqvip.com/Qikan/Article/Detail?id=8509346.
[228] 朱广伟, 高光, 秦伯强, 张路, 罗潋葱. 浅水湖泊沉积物中磷的地球化学特征. 水科学进展[J]. 2003, 14(6): 714-719, http://lib.cqvip.com/Qikan/Article/Detail?id=8703223.
[229] 朱广伟, 秦伯强, 高光. 浅水湖泊沉积物磷释放的重要因子——铁和水动力. 农业环境科学学报[J]. 2003, 22(6): 762-764, http://lib.cqvip.com/Qikan/Article/Detail?id=8846900.
[230] 吴生才, 陈伟民, 高光. 太湖冬季底泥中活体藻类的检测. 湖泊科学[J]. 2003, 15(4): 339-344, http://lib.cqvip.com/Qikan/Article/Detail?id=8840651.
[231] 杨龙元, 范成新, 陈宇炜, 高光, 梁海棠. 水草自然修复围隔实验净化水质功能及相关问题的研究. 河海大学学报:自然科学版[J]. 2002, 33-37, http://lib.cqvip.com/Qikan/Article/Detail?id=1000427502.
[232] 许秋瑾, 高光. 微囊藻毒素的研究进展. 中国公共卫生[J]. 2002, 18(6): 761-763, http://lib.cqvip.com/Qikan/Article/Detail?id=6364440.
[233] 张民, 史小丽, 蒋丽娟, 杨柳燕, 高光, 秦伯强. 两种外源性磷及振荡对铜绿微囊藻(Microcystis aeruginosa)生长的影响. 应用与环境生物学报[J]. 2002, 8(5): 507-510, http://lib.cqvip.com/Qikan/Article/Detail?id=7140881.
[234] 史小丽, 王凤平, 蒋丽娟, 杨柳燕, 孔志明, 高光, 秦伯强. 扰动对外源性磷在模拟水生态系统中迁移的影响. 中国环境科学[J]. 2002, 22(6): 537-541, http://lib.cqvip.com/Qikan/Article/Detail?id=7180144.
[235] 范成新, 张路, 池俏俏, 黄文钰, 高光, 杨龙元. 太湖宜溧河和西苕溪干流沉积物中形态磷分布特征. 河海大学学报:自然科学版[J]. 2002, 23-27, http://lib.cqvip.com/Qikan/Article/Detail?id=1000427500.
[236] 舒金华, 黄文钰, 高光, 周修伟, 姜耀慈. 太湖地区“禁磷”措施效果评估研究. 日用化学品科学[J]. 2002, 25(2): 26-28, http://lib.cqvip.com/Qikan/Article/Detail?id=6279255.
[237] 李宽意, 刘正文, 高光, 吴庆龙, 胡耀辉, 胡文英. 低洼盐碱地鱼虾混养塘中的浮游生物. 湖泊科学[J]. 2002, 14(4): 369-373, http://lib.cqvip.com/Qikan/Article/Detail?id=7132915.
[238] 邬建勇, 沈蕾, 林国芳, 沈建华, 高光. 太湖梅梁湾冬季表层水体致大肠杆菌阿拉伯糖抗性正向突变. 湖泊科学[J]. 2002, 14(4): 337-342, http://lib.cqvip.com/Qikan/Article/Detail?id=7132910.
[239] 黄文钰, 高光, 舒金华. 太湖水污染近期变动趋势及对策建议. 上海环境科学[J]. 2002, 21(3): 149-152, http://lib.cqvip.com/Qikan/Article/Detail?id=6318848.
[240] 许秋瑾, 秦伯强, 陈伟民, 陈宇炜, 高光. 太湖藻类生长模型研究. 湖泊科学[J]. 2001, 13(2): 149-157, http://lib.cqvip.com/Qikan/Article/Detail?id=5373149.
[241] 高光, 胡文英, 李宽意. 氮、磷等营养物质对低洼盐碱地鱼塘水质的影响. 湖泊科学[J]. 2001, 13(4): 345-350, http://lib.cqvip.com/Qikan/Article/Detail?id=6071446.
[242] 黄文钰, 高光, 舒金华, 周修伟, 姜耀慈. 太湖地区“禁磷”措施的效果及在富营养化控制中的作用. 农村生态环境[J]. 2001, 17(4): 26-29, http://lib.cqvip.com/Qikan/Article/Detail?id=5703370.
[243] 黄文钰, 舒金华, 高光, 周修伟, 史运祥. 太湖洗衣粉“禁磷”措施削减磷负荷量研究. 湖泊科学[J]. 2001, 13(4): 356-360, http://lib.cqvip.com/Qikan/Article/Detail?id=6071448.
[244] 秦伯强, 胡维平, 陈伟民, 季江, 范成新, 陈宇炜, 高锡芸, 杨龙元, 高光, 黄文钰, 姜家虎, 张琛, 刘元波, 周子元. 太湖梅梁湾水动力及相关过程的研究. 湖泊科学[J]. 2000, 12(4): 327-334, http://lib.cqvip.com/Qikan/Article/Detail?id=4720217.
[245] 高光, 高锡芸, 秦伯强, 季江. 太湖水体中碱性磷酸酶的作用阈值. 湖泊科学[J]. 2000, 12(4): 353-358, http://lib.cqvip.com/Qikan/Article/Detail?id=4720220.
[246] 陈伟民, 陈宇炜, 秦伯强, 高锡芸, 高光, 季江, 许秋瑾. 模拟水动力对湖泊生物群落演替的实验. 湖泊科学[J]. 2000, 12(4): 343-352, http://lib.cqvip.com/Qikan/Article/Detail?id=4720219.
[247] 高光, 董雅文, 金浩波, 黄卫. 城市垃圾处理与管理对策研究. 城市环境与城市生态[J]. 2000, 13(2): 39-41, http://lib.cqvip.com/Qikan/Article/Detail?id=4228002.
[248] 高光. 低湿洼地鱼塘中异养细菌的矿化作用. 湖泊科学[J]. 1998, 10(3): 61-67, http://lib.cqvip.com/Qikan/Article/Detail?id=3125087.
[249] 高光. 伊乐藻,轮叶黑藻净化养鱼污水效果试验. 湖泊科学[J]. 1996, 8(2): 184-188, http://lib.cqvip.com/Qikan/Article/Detail?id=2206176.
[250] 郭晓鸣, 高光, 魏云, 周万平. 伊乐藻—草鱼圈养复合生态系统中水生生物的变化和影响. 湖泊科学[J]. 1996, 79-92, http://lib.cqvip.com/Qikan/Article/Detail?id=4001084610.
[251] 吴庆龙, 陈开宁, 高光, 范成新, 季江, 隋桂荣, 周万平. 大水面网围精养对水环境的影响及其对策. 水产学报[J]. 1995, 19(4): 343-349, http://lib.cqvip.com/Qikan/Article/Detail?id=1888522.
发表著作
(1) 博斯腾湖生态环境演化,Eco-environment change of Lake Bosten,科学出版社,2013-12,第1作者

科研活动

   
科研项目
(1) 水动力输移对大型浅水富营养化湖泊环境要素时空分异格局的影响机制,参与,国家级,2013-01--2017-12
(2) 干旱地区高寒草原湿地生态系统安全监控与保护研究,参与,部委级,2013-01--2015-12
(3) 浅水湖泊营养盐循环的生物学机制,主持,研究所(学校)级,2012-07--2015-07
(4) 干旱地区湖泊咸化过程的微生物学响应机制,主持,国家级,2012-01--2015-12
(5) 干旱地区内陆大型湖泊生态健康监测评估体系研究,参与,部委级,2009-09--2012-09

指导学生

已指导学生

陈默  硕士研究生  083001-环境科学  

陈鋆  硕士研究生  070501-自然地理学  

朱丽萍  硕士研究生  083001-环境科学  

晁建颖  硕士研究生  083001-环境科学  

蔡贤雷  博士研究生  083001-环境科学  

陈丹  硕士研究生  083001-环境科学  

戴江玉  博士研究生  083001-环境科学  

张磊  博士研究生  083001-环境科学  

现指导学生

晁建颖  博士研究生  083001-环境科学  

龚伊  博士研究生  083001-环境科学  

胡洋  博士研究生  083001-环境科学  

蔡舰  博士研究生  083001-环境科学