一、个人信息
姓 名：王海军 理学博士
现任职务：研究员
通讯地址：昆明市呈贡区大学城东外环南路
邮件地址：wanghaijun@ynu.edu.cn
二、研究领域

湖泊生态与修复：生态系统突变，湖泊富营养化，蓝藻水华发生机理与控制，底栖动物生态学，水生植物生态学，沉积物营养物释放与控制，湖泊食物网调控，高氮污染的生态效应

三、主要学术任职
综合性国际期刊The Innovation，编委
国际湖沼学会期刊Inland Waters，副主编
EI期刊《湖泊科学》，编委
“一带一路”国际青年联盟第一届理事会，理事
中国海洋湖沼学会湖泊分会第一届理事会，理事
青年生命科学论坛第一届理事会，副理事长
中科院青促会生命科学分会，第三届副会长（2017~2019）
中科院青促会武汉分会，第一届理事会理事和第二届理事会会长（2016 ~2018）
四、教育背景
2002-09至2007-07，中国科学院水生生物研究所，水生生物学，博士
1997-09至2001-07，南昌大学，生物学教育，学士
五、工作经历
2020-12至今，云南大学，高原湖泊生态与治理研究院，研究员
2017-05至2017-06，新西兰怀卡托大学，访学
2012-12至2013-08，荷兰瓦赫宁根大学，访学
2012-06至2012-09，丹麦奥尔胡斯大学，访学
2010-10至2020-11，中国科学院水生生物研究所，副研究员
2007-10至2010-10，中国科学院水生生物研究所，助理研究员
2001-07至2002-09，中国科学院水生生物研究所，研究实习员
六、获奖荣誉
湖北省优秀博士学位论文
湖北省省级优秀特派员
湖北省黄石市突出贡献人才
七、承担科研项目
云南省科技厅项目，云南高原湖泊生态系统稳态转换发生阈值及其变异规律，2020/07-2022/07，参加
中国科学院人事局人才项目，中科院青年创新促进会优秀会员，2019/01-2021/12，主持
中国科学院人事局人才项目，中科院青年创新促进会会员，2014/01-2017/12，主持
科技部重点研发项目子课题，典型湖泊生态灾害对渔业生境和生物多样性的影响及其预测评估，2018/12-2022/12，主持
国家水专项子课题，大型浅水湖泊稳态转换预警体系研究，2017/01-2020/12，主持
科技部科技基础性专项课题，三峡库区底栖无脊椎动物多样性调查及图鉴制作，2014/05-2018/04，主持
湖北省科技支撑项目，基于鱼类结构优化和水位调控的湖泊沉水植被恢复技术研究与示范，2015/06-2017/05，主持
中科院重点部署项目任务，人工LED补光对三种代表性沉水植物生长的影响，2016/10-2017/10，主持
地方委托，枝江金湖国家湿地公园生态本底资源调查，2018/08-2019/05，主持
地方委托，枝江金湖国家湿地公园湿地生态环境提升工程方案研制，2018/08-2019/05，主持
武汉市政府项目，中法武汉生态示范城水生态系统修复重建专题研究，2017/01-2018/12，主持
武汉市政府项目，武汉市63个湖泊底栖动物调查、部分湖泊浮游动物调查和生态健康评价，2017/10-2018/12，主持
其他任务，长江流域重点水域富营养化状况调查与趋势分析， 2017/09-2018/06，主持
地方委托，湖北保安湖国家湿地公园生物多样性调查，2015/06-2016/03，主持
地方委托，寿县湖滨带生态修复工程初步设计，2012/05-2014/12，主持
八、主要论文和专著
Water Research
1) Ma, S. N., H. J. Wang*, H. Z. Wang*, M. Zhang, Y. Li, S. J. Bian, X. M. Liang, M. S?ndergaard, E. Jeppesen. Effects of nitrate on phosphorus release from lake sediments. Water Research, 2021, 194:116894.
2) Ma, S. N., H. J. Wang*, H. Z. Wang, Y. Li, M. Liu, X. M. Liang, Q. Yu, E. Jeppesen, M. S?ndergaard. High ammonium loading can increase alkaline phosphatase activity and promote sediment phosphorus release: a two-month mesocosm experiment. Water Research, 2018, 145: 388-397.
3) Yu, Q., H. Z. Wang, Y. Li, J. C. Shao, X. M. Liang, E. Jeppesen, H. J. Wang*. Effects of high nitrogen concentrations on the growth of submersed macrophytes at moderate phosphorus concentrations. Water Research, 2015, 83: 385-395.
Science of the Total Environment
4) Wang, H. J., X. C. Xiao, H. Z. Wang*, Y. Li, Q. Yu, X. M. Liang, W. S. Feng, J. C. Shao, M. Rybicki, D. Jungmann, E. Jeppesen. Effects of high ammonia concentrations on three cyprinid fish: acute and whole-ecosystem chronic tests. Science of the Total Environment, 2017, 598: 900-909.
5) Yu, Q., H. Z. Wang, C. Xu, E. Jeppesen, H. J. Wang*. Reply to Cao et al.'s comment on "Does the responses of Vallisneria natans (Lour.) Hara to high nitrogen loading differ between the summer high-growth season and the low-growth season? Science of the Total Environment, 2017 601-602 (2017) 1513-1521. Science of the Total Environment, 2018, 615: 1093-1094.
6) Yu, Q., H. J. Wang*, H. Z. Wang, Y. Li, X. M. Liang, C. Xu, E. Jeppesen. Does the responses of Vallisneria natans (Lour.) Hara to high nitrogen loading differ between the summer high-growth season and the low-growth season? Science of the Total Environment, 2017, 601: 1513-1521.
Freshwater Biology
7) Wang, H. J., H. Z. Wang*. Macrophyte effects on algal turbidity in subtropical versus temperate lakes: a reply to Dolman (2014). Freshwater Biology, 2014, 59(12): 2659-2660.
8) Wang, H. J., H. Z. Wang*, X. M. Liang, S. K. Wu. Total phosphorus thresholds for regime shifts are nearly equal in subtropical and temperate shallow lakes with moderate depths and areas. Freshwater Biology, 2014, 59: 1659-1671.
9) Wang, H. J., X. M. Liang, P. H. Jiang, J. Wang, S. K. Wu, H. Z. Wang*. TN:TP ratio and planktivorous fish do not affect nutrient-chlorophyll relationships in shallow lakes. Freshwater Biology, 2008, 53（5）: 935-944.
The Innovation
10) Wang, H. J.^#, Xu, C.^#, Liu, Y. ^#, Jeppesen, E., Svenning, J.C., Wu, J.G., Zhang, W.X., Zhou, T.J., Wang, P.Z., Nangombe, S., Ma, J.G., Duan, H.T., Fang, J.Y., Xie. P.* From unusual suspect to serial killer: cyanotoxins boosted by climate change may jeopardize African megafauna. The Innovation, 2021, 2(2): 100092.
11) Wang, H. J., Wang, P.Z., Zhao, X., Zhang, W.X., Li, J., Xu, C., Xie. P. What triggered the Asian elephant's northward migration across southwest Yunnan? The Innovation, 2021, 2(3): 100142.
其他杂志
12) Yu, Q., H. Z. Wang, C. Xu, Y. Li, S. N. Ma, X. M. Liang, E. Jeppesen, and H.J. Wang*. Higher tolerance of canopy-forming Potamogeton crispus than rosette-forming Vallisneria natans to high nitrogen concentration as evidenced from experiments in 10 ponds with contrasting nitrogen levels. Frontiers in Plant Science, 2018, 9: 1845.
13) Wang, H. J., Y. Li, W. S. Feng, Q. Yu, X. C. Xiao, X. M. Liang, J. C. Shao, S. N. Ma, H. Z. Wang*. Can short-term, small experiments reflect nutrient limitation on phytoplankton in natural lakes? Chinese Journal of Oceanology and Limnology, 2017, 35(3): 546-556.
14) Wang, H.J., X. M. Liang, H. Z. Wang*. Sustainable fisheries in shallow lakes: an independent empirical test of the Chinese mitten crab yield model. Chinese Journal of Oceanology and Limnology. 2017, 35(4): 894-901.
15) Wang, H. J.*, C. Xu, H. Z. Wang, S. Kosten. Long-term density dependent effects of the Chinese mitten crab (Eriocheir sinensis (H. Milne Edwards, 1854)) on submersed macrophytes. Aquatic Botany, 2017, 140: 84-91.
16) Wang, H. J.*, H. Z. Wang, X. M. Liang, B. Z. Pan, S. Kosten. Macrophyte species strongly affects changes in C, N and P stocks in shallow lakes after a regime shift from macrophyte to phytoplankton dominance. Inland Waters, 2016, 6(3): 449-460.
17) Wang, H. J., H. Z. Wang*. Mitigation of lake eutrophication: loosen nitrogen control and focus on phosphorus abatement. Progress in Natural Science, 2009, 19 (10): 1145-1451.
18) Wang, H. J., H. Z. Wang*. No need to reduce nitrogen for eutrophication mitigation: findings of a long-term limnological study in China. SIL News, 2008, 53: 10-11.
19) Wang, H. J., B. Z. Pan, X. M. Liang, H. Z. Wang*. Gastropods on submerged macrophytes in Yangtze Lakes: community characteristics and empirical modelling. International Review of Hydrobiology, 2006, 91(6): 521-538.
20) Xu, C., H. J. Wang*, Q. Yu, H. Z. Wang*, X. M. Liang, M. Liu, Erik Jeppesen. Effects of artificial LED light on the growth of three submerged macrophyte species during the low-growth winter season: implications for macrophyte restoration in small eutrophic lakes. Water, 2019, 11, 1512; doi:10.3390/w**.
21) Li, Y., H. Z. Wang*, X. M. Liang, Q. Yu, X. C. Xiao, J. C. Shao, H. J. Wang*. Total phytoplankton abundance is determined by phosphorus input: evidence from an 18-month fertilization experiment in 4 subtropical ponds. Canadian Journal of Fisheries and Aquatic Sciences, 2017, 74(9): 1454-1461.
22) Pan, B. Z., H. Z. Wang, M. T. Pusch, H. J. Wang*. Macroinvertebrate responses to regime shifts caused by eutrophication in subtropical shallow lakes. Freshwater Science, 2015, 34(3): 942-952.
23) Pan, B. Z., H. Z. Wang, H. J. Wang*. A floodplain-scale lake classification based on characteristics of macroinvertebrate assemblages and corresponding environmental properties. Limnologica, 2014, 49: 10-17.


九、学生培养
指导的学生中，2名获得教育部博士生国家奖学金，1名获得中国科学院优秀博士学位论文奖。