王海军，博士，研究员，博士生导师，云南大学生态与环境学院副院长，高原湖泊生态与治理研究院副院长

云南省高层次引进人才，中国科学院青年创新促进会优秀会员人才项目、科技部与新西兰皇家科学院人才交流项目、中科院与丹麦高校联盟人才交流项目、湖北省黄石市突出贡献人才、湖北省省级优秀特派员、湖北省优秀博士学位论文获得者。主持国家自然科学基金，国家水污染治理专项、国家基础性专项、国家重点研发计划、中科院先导项目等课题或子课题及湖北省、云南省科技厅项目等。发表论文100余篇，包括The Innovation, Water Research，Environmental Science & Technology, Journal of Hazardous Materials 和 Freshwater Biology 等顶级或者权威期刊论文。两项咨询报告获国家领导人批示。

一、教育背景

Ø2002/09~2007/07，中国科学院水生生物研究所，水生生物学，博士

Ø1997/09~2001-07，南昌大学，生物学教育，学士

二、工作经历

Ø2023/12~至今，云南大学，生态与环境学院，副院长

Ø2020/12~至今，云南大学，高原湖泊生态与治理研究院，研究员

Ø2017/05~2017/06，新西兰怀卡托大学(University of Waikato)，高级访问学者

Ø2012/12~2013/08, 荷兰瓦赫宁根大学(Wageningen University), 高级访问学者

Ø2012/06~2012/09，丹麦奥尔胡斯大学(Aarhus University），高级访问学者

Ø2010/10~2020/11，中国科学院水生生物研究所，副研究员

Ø2007/10~2010/10，中国科学院水生生物研究所，助理研究员

三、社会任职

ØInland Waters，副主编（国际湖沼学会期刊），

ØFreshwater Biology，编委（水生生物领域权威期刊），

ØThe Innovation，编委（联合创始人，Cell Press期刊），2020.05-至今

ØThe Innovation Life，编委（联合创始人）, 2023.01-至今

ØThe Innovation Geoscience，编委（联合创始人），2023.01-至今

Ø《湖泊科学》， 编委，

Ø《生态环境学报》， 编委, 2022.01-2026.12

Ø长江上游珍稀特有鱼类国家级自然区云南段专家委员会, 副主任委员, 2023.08-2026.07

Ø中国环境科学学会水环境分会，副主任委员，2023.01-2026.12

Ø中国生态学学会第三届淡水生态专业委员会，委员, 2022.08-2025.07

Ø贵州草海国家级自然保护区专家委员会, 委员, 2022.08-2025.07

Ø云南省生态学会第八届理事会，理事，2023.04-2028.03

Ø中国海洋湖沼学会湖泊分会第一、二届理事会，理事, 2018.03-2028.02

Ø“一带一路”国际青年联盟第一届理事会，理事

Ø青年生命科学论坛第一届理事会，副理事长

Ø中科院青促会生命科学分会，第三届副会长（2017~2019）

Ø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、研究领域

湖泊生态修复与流域治理、湖泊富营养化与生态系统突变、沉积物营养物释放与控制、底栖动物生态学、水生植物生态学、蓝藻水华发生机理与控制、水利工程的生态效应、可持续渔业生态学

五、承担项目

1.云南省科技厅重点基金，滇中湖群水-陆耦合生态系统的弹性变迁与突变驱动，2024/03-2027/02，主持

2.云南省学位委员会，云南省研究生导师团队建设项目（高原湖泊生态与污染治理团队），2024/01-2025/12，主持

3.国家外专局，高端外国专家引进计划（丹麦奥胡斯大学Erik Jeppesen教授），2022/01-2023/12，主持

4.中国科学院战略性先导科技专项（B类）子课题，多重胁迫下长江水系鱼类群落退化机制与恢复，2022/01-2023/05，主持

5.云南省科技厅项目子项目，基于湖泊和流域精准治污及生态系统过程的理论研究，2021/12-2024/12，主持

6.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

7.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

8.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

9.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

10.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

11.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

12.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

13.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

14.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

15.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

16.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

17.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

18.地方委托，湖北保安湖国家湿地公园生物多样性，2015/06-2016/03，主持

19.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

六、所获奖励

《湖泊内源污染控制与生态修复关键技术与实践应用》，王海军（排名第4），生态环境部科学技术一等奖，KJ2022-1-06，2022年。

七、学生所获荣誉

孙彦峰，教育部博士生国家奖学金

于   清，教育部博士生国家奖学金

马硕楠，教育部博士生国家奖学金，中国科学院优秀博士学位论文奖

杨丽娟，教育部硕士生国家奖学金

八、代表性论文

2024

1.Su, H.J.^#, Li, Y.L^#., Zhong, M.S., Ma, R.J., Chen, J.F., Rao, Q.Y., Feng, Y.H., Ma, S.H., Chen, J., Wang, H.J.^*, Jeppesen, E., and Xie, P^*. No positive effects of biodiversity on ecological resilience of lake ecosystems. The Innovation Geoscience, 2024, 2(2): 100064.

2.Chen, Z.C., Luo, L., Wang, H.J., Li, L.X.^*, and Guo, H.D. Pathways for financing the Sustainable Development Goals. The Innovation Geoscience, 2024, 2(1): 100051.

3.Luo, L., Wang, H.J., Chen, Z.C., et al. Biodiversity co-benefits of World Heritage protection. The Innovation Life, 2024, 2(1): 100051.

4.Wang, F., Xiang, L., Sze-Yin Leung, K., et al. Emerging Contaminants: A One Health Perspective. The Innovation, 2024, 100612.

5.Chen, J., Wang, H.J., Zhang, L., Jeppesen, E., and Xie, P^*. A new window for conservation biogeography. The Innovation Geoscience, 2024, 2(1): 100052.

2023

6.Guo, H.D., Luo, L.^*, Wang, H.J., Jiang, Q.T., Zhang, J.Z., Xu, Z.C., Chen, M., and Huang, L. The STEP to facilitate achieving Sustainable Development Goals. The Innovation Geoscience, 2023, 1(3), 100037.

7.Chen, J., Liu, J.R., Han, S.P., Su, H.J., Xia, W.L., Wang, H.J., et al. Nontraditional biomanipulation: A powerful ecotechnology to combat cyanobacterial blooms in eutrophic freshwaters. The Innovation Life, 2023, 1(3): 100038.

8.He, H., Li, Y., Peng, K., Zhang, Y., Rutter, R. P., Wang, H.J., Jeppesen, E. (2023). Climate-associated variation in the drivers of benthic macroinvertebrate species-area relationships across shallow freshwater lakes. Journal of Animal Ecology, 00, 1-14. https://doi.org/10.1111/1365-2656.14028

9.Wang, H.J.^#, Zhao, X.^#, Xu, C., et al. The DNA Packing Hypothesis for the mysterious eukaryogenesis. The Innovation Life, 2023, 1(3), 100031.

10.Li, Y., He, Y.J., Liu, M., Kazi Belal Uddin, Zhao, Y.J., Wang, H.J., Cui, Y.D.^*, Wang, H.Z. Benthic macroinvertebrate assemblages in relation to high ammonia loading: A 5-year fertilization experiment in 5 subtropical ponds.  Environmental Pollution, 2023, 337(1-3): 122587.

11.Ma, S.N., Xu, Y.F., Wang, H.J.^*, Wang, H.Z.^*, Li, Y., Dong, X.M., Xu, J.L., et al. Mechanisms of high ammonium loading promoted phosphorus release from shallow lake sediments: a five-year large-scale experiment. Water Research, 2023, doi: 10.1016/j.watres.2023.120580.

12.Liu, K., Yang, S.S., Huang, B.B., Xian, C.F., Han, B.L., Xie, T., Shu, C.J., Chen, Z.W., Wang, H.Q., Wang, H.J.^*, Lu, F^*. Comparative study on the influencing factors of the greenhouse gas budgetin typical cities: Case studies of Beijing and Shenzhen. Atmosphere, 2023, 14: 1158.

13.Sun, Y.F., Guo, Y.M., Xu, C., Liu, Y., Zhao, X., Liu, Q., Jeppesen, E., Wang, H.J.^*, and Xie, P^*. Will “air eutrophication” increase the risk of ecological threat to public health? Environmental Science & Technology, 2023, 57, 10512-10520.

14.Wetzel, M.J., Wang,H.J., Cui, Y.D., Wang, H.Z. In Memoriam: Professor Dr. Yan-Ling Liang (1934-2021). Zoosymposia, 2023, 23. DOI:10.11646/zoosymposia. 23.1.4.

15.Wang, F., Harindintwali, J.-D., Wei, K., et al. Climate change: Strategies for mitigation and adaptation. The Innovation Geoscience, 2023, 1(1), 100015.

16.Li, L.H., Teng, S.Q., Zhang, Y., Li, Y.X., Wang,H.J., Santana, J., Reino, L., Abades, S.R., Svenning, J.C., Xu, C. Neighbourhood landscape context shapes local species richness patterns across continents. Global Ecology and Biogeography, 2023, 32(6) DOI:10.1111/geb.13668

17.Zhang, L., Wang,H.J., Gessner, J., Congiu, L., Haxton, T. J., Jeppesen, E., Svenning, J. C., Xie, P^*. To save sturgeons, we need river channels around hydropower dams. PNAS, 2023, 10.1073/pnas.2217386120

18.Zhao, X.^#, Liu, Y.^#, Guo, Y.M., Xu, C., Chen, L., Codd, G. A., Chen, J., Wang, Y., Wang, P.Z., Yang, L.W., Zhou, L., Li, Y., Xiao, S.M., Wang, H.J^*, Paerl, H.W., Jeppesen, E., Xie, P^*. Meta-analysis reveals cyanotoxins risk across African inland waters. Journal of Hazardous Materials, 2023, 451: 131160.

19.Yang, L.J.^#, Tao, Y.^#, Jiang, X., Wang, Y., Li, Y.H., Zhou, L., Wang, P.Z., Li, Y.Y., Zhao, X., Wang,H.J.^*, Jeppesen, E., and Xie, P. Interactive effects of nutrients and salinity on zooplankton in subtropical plateau lakes with contrasting water depth. Frontiers in Environmental Science, 2023,11:1110746.  

20.Wang, Y., Jiang X., Li Y.L., Yang L.J., Li Y.H., Liu Y., Zhou L., Wang P.Z., Zhao X., Wang,H.J.^*, Jeppesen E., and Xie P. (2023) Interactive effects of nutrients and salinity on phytoplankton in subtropical plateau lakes of contrasting water depths. Water, 15, 69. https://doi.org/10.3390/w15010069   

2022

21.Liu, M., Li, Y., Wang, H.Z.^*, Wang, H.J.^*, Qiao, R.T., Jeppesen, E. Ecosystem complexity explains the scale-dependence of ammonia toxicity on macroinvertebrates. Water Research, 2022, 226(1): 119266. https://doi.org/10.1016/j.watres.2022.119266

22.Yu, Q., Wang H.J.^*, Liu, M., Xu, C., Ma, Y., Guo, W.H.^*, and Jeppesen, E. Interactive effects of benthivorous fish disturbance and ammonium loading on two submersed macrophytes of contrasting growth forms based on a mesocosm study. Front. Environ. Sci., 2022, 10: 1024524. doi: 10.3389/fenvs.2022.1024524.

23.Yu, Q., Wang, H.J.^*, Wang, H.Z.^*, Xu, C., Liu, M., Ma, Y., Li, Y., Ma, S.N., Hamilton, D.P., and Jeppesen, E. Effects of High Ammonium Loading on Two Submersed Macrophytes of Different Growth Form Based on an 18-Month Pond Experiment. Front. Plant Sci., 2022, 13:939589. doi: 10.3389/fpls.2022.939589.

24.Li, Y., Yu, Y.X., Ma, S.N., Qiao, R.T., Cui, Y.D., Wang, H.J.^*, Wang, H.Z^*. Pelagic cyanobacterial nitrogen fixation in lakes and ponds of different latitudinal zones. Aquat. Sci., 2022, 84, 42. https://doi.org/10.1007/s00027-022-00871-6

25.Wang, H.J., Wang, P.Z., Xu, C., Sun, Y.F., Shi, L., Zhou, L., Jeppesen, E., Chen, J., Xie, P. Can the “Ten-Year Fishing Ban” Rescue Biodiversity of the Yangtze River? The Innovation, 2022, 3(3): 100235.

26.Ma, S.N., Dong, X.M., Jeppesen, E., Søndergaard, M., Cao, J.Y., Li, Y.Y., Wang, H. J.^*, Xu, J.L ^*. Responses of coastal sediment phosphorus release to elevated urea loading. Marine Pollution Bulletin, 2022,174: 113203.

27.Zhou, J., Kong, Y., Wu, M.M., Shu, F.Y., Wang, H. J. *,Ma, S.N., Li, Y., Jeppesen, E. Effects of nitrogen input on community structure of the denitrifying bacteria with nitrous oxide reductase gene (nosZ I): a long-term pond experiment. Microbial Ecology, 2022.doi.org/10.1007/s00248-022-01971-4

28.Zhang, M.^#, Li, Y.^#, Wang, H. J. *, Yu, Y.X., Liu, J.H., Qiao, R.T., Liu, M., Ma, S.N., Wang, H.Z. *. Decreased internal phosphorus loading from eutrophic sediment after artificial light supplement. Frontiers in Environment Science, doi.org/10.3389/fenvs.2022.801469

29.Li, Y.^#, Ma, Y. ^#, Wang, H. J.*, Wang, H.Z., Cui, Y.D., Bian, S.J., Zhang, M., Liu, M.M., Yu, Y.X., Schallenberg, M. Do alternative stable states exist in large shallow Taihu Lake, China? Journal of Oceanology and Limnology, 2022, doi.org/10.1007/s00343-022-1286-z

30.Xu, C., Wang, H. J.^*, Li, Y., Xu, C., Yu, Q., Liu, M., Zhang, M., Wang, H. Z., Hamilton, D.P., Jeppesen, E. Can artificial light promote submerged macrophyte growth in summer? Aquatic Ecology, 2022, 56(2): 1-10.

2021

31.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.

32.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.

33.Ma, S. N., Wang, H. J.^*, Wang, H. Z.^*, Zhang, M., Li, Y., Bian, S. J., Liang, X. M., Søndergaard, M., Jeppesen, E. Effects of nitrate on phosphorus release from lake sediments. Water Research, 2021, 194:116894.

34.Liu, M., Wang, H. J.^*, Wang, H. Z.^*, Ma, S. N., Yu, Q., Uddin, K.B., Li, Y., Holland, J., Jeppesen, E. Decreasing toxicity of un-ionized ammonia on the gastropod Bellamya aeruginosa when moving from laboratory to field scale. Ecotoxicology and Environmental Safety, 2021, 227(5): 112933.

35.Yu, Y.X. ^#, Li, Y.^#, Wang, H.J.^*, Wu, X.D., Zhang, M., Wang, H.Z., Hamilton, D.P., Jeppesen, E. Submersed macrophyte restoration with artificial light-emitting diodes: a mesocosm experiment. Ecotoxicology and Environmental Safety, 2021, 228(B): 113044.

36.张苗，李明梦，刘律，李忠超，苗滕，余业鑫，赵永晶，李艳^*，王海军^*，王洪铸。超富营养城市湖泊原位生态修复效果分析——以武汉南湖为例。海洋与湖沼，2021，52（6）：1-9.

2021之前

37.Xu, C., Wang, H. J.^*, Yu, Q., Wang, H. Z., Liang, X. M., Liu, M., Jeppesen, E. 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/w11071512.

38.Ma, S. N., Wang, H. J.^*, Wang, H. Z., Li, Y., Liu, M., Liang, X. M., Yu, Q., Jeppesen, E., Søndergaard, M. High ammonium loading can increase alkaline phosphatase activity and promote sediment phosphorus release: a two-month mesocosm experiment. Water Research, 2018, 145: 388-397.

39.Yu, Q., Wang, H. Z., Xu, C., Jeppesen, E., Wang, H. J.^*. 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.

40.Yu, Q., Wang, H. Z., Xu, C., Li, Y., Ma, S. N., Liang, X. M., Jeppesen, E., Wang, H. J.^*. 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.

41.Wang, H.J., Xiao, X.C., Wang, H.Z., Li, Y., Yu, Q., Liang, X.M., Feng, W.S., Shao, J.C., Rybicki, M., Jungmann, D., Jeppesen, E. Effects of high ammonia concentrations on three cyprinid fish: acute and whole-ecosystem chronic tests. Science of the Total Environment, 2017, 598: 900-909.

42.Wang, H.J., Li,Y., Feng, W.S., Yu, Q., Xiao, X.C., Liang, X.M., Shao, J.C., Ma, S.N., Wang, H.Z. Can short-term, small experiments reflect nutrient limitation on phytoplankton in natural lakes? Chinese Journal of Oceanology and Limnology, 2017, 35(3): 546-556.

43.Wang, H.J., Liang, X.M., Wang, H.Z. 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.

44.Wang, H.J., Xu, C., Wang, H.Z., Kosten, S. 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.

45.Yu, Q., Wang, H.J.^*, Wang, H.Z., Li, Y., Liang, X.M., Xu, C., Jeppesen, E. 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.

46.Li, Y., Wang, H.Z., Liang, X.M., Yu, Q., Xiao, X.C., Shao, J.C., Wang, H.J.^*. 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.

47.Wang, H.J., Wang, H.Z., Liang, X.M., Pan, B.Z., Kosten, S. 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.

48.Yu, Q., Wang, H.Z., Li, Y., Shao, J.C., Liang, X.M., Jeppesen, E., Wang, H.J.^*. Effects of high nitrogen concentrations on the growth of submersed macrophytes at moderate phosphorus concentrations. Water Research, 2015, 83: 385-395.

49.Pan, B.Z., Wang, H.Z., Pusch, M.T., Wang, H.J. *. Macroinvertebrate responses to regime shifts caused by eutrophication in subtropical shallow lakes. Freshwater Science, 2015, 34(3): 942-952.

50.Wang, H.J., Wang, H.Z. Macrophyte effects on algal turbidity in subtropical versus temperate lakes: a reply to Dolman (2014). Freshwater Biology, 2014, 59(12): 2659-2660.

51.Wang, H.J., Wang, H.Z., Liang, X.M., Wu, S.K. 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.

52.Pan, B.Z., Wang, H.Z., Wang, H.J.^*. A floodplain-scale lake classification based on characteristics of macroinvertebrate assemblages and corresponding environmental properties. Limnologica, 2014, 49: 10-17.

九、招生方向

生态学专业博士与硕士，资源与环境专业博士与硕士

Email: wanghaijun@ynu.edu.cn