中国科学院水生生物研究所欢迎您的来访!

汪志聪 副研究员

博士研究生
职  称: 副研究员
学  历: 博士研究生
联系方式: 86-27-68780371
电子邮件: wangzc#ihb.ac.cn(请改#为@)
办  公  室: 1号实验楼413
个人网页:
教育经历

2003.9-2007.6 长江大学 水产养殖学专业 本科

2007.9-2012.6 中国科学院水生生物研究所 水生生物学专业 硕博连读

主要职历

2012.7-2020.11 中国科学院水生生物研究所 助理研究员

2020.12-至今 中国科学院水生生物研究所 副研究员

招生专业

水生生物学(硕士生)

研究方向

1.     研究蓝藻水华形成机理和控藻技术

针对典型富营养化湖泊中蓝藻水华现象,开展蓝藻水华形成机理及其环境适应性的研究,阐明环境因子、生物因子及人为干扰活动对蓝藻水华生消的影响,从分子调控机制、光合作用参数、种群增长曲线、水华演替格局和藻类有机质生态系统功能等多个研究角度和研究层次,解析蓝藻水华的形成过程、维持机理,研究水华过程中产毒蓝藻种群动态、竞争优势和毒性变化,构建蓝藻水华演替模型和水华综合毒性预测预警方法。依据上述蓝藻的生理生态学特征和水华形成机理,研发相应的实用型控藻技术。

2.     湖泊磷营养地球化学循环特征及富营养化治理

研究湖泊在富营养化过程中,其磷营养负荷的状态、演变规律和驱动因素,探索蓝藻有机质对沉积物-水界面磷营养迁移转化过程的影响。分析蓝藻有机质在沉积物中的含量、降解过程,阐明这些理化特性和生物学过程对沉积物磷形态组成、界面磷释放特征的改变,从而建立藻源有机质与水体磷浓度的关系,评估沉积物磷释放对蓝藻生物质有机磷聚集的贡献。最后,构建沉积物磷-水中磷-蓝藻有机磷的湖泊磷循环关系,从微生物学角度揭示湖泊磷循环的迁移转化机理,并据此提出有效的富营养化治理策略。

承担项目情况

1.      2020.1-2023.12,国家自然科学基金面上项目,41977285,基于沉积物磷释放特征的蓝藻有机质促进水华形成机理研究, 61万元,主持

2.      2020.1-2024.12,企业委托项目,汉阳区水环境本底调查及污染物总量控制专题报告,70万元,主持

3.      2019.11-2023.2,国家重点研发计划“蓝色粮仓科技创新”重点专项课题,水生生物生产力综合利用及渔业生态操控技术,645万元,参与,课题秘书

4.      2018.6-2019.6,科技部科技支撑项目专题任务,千岛湖浮游生物与滤食性鱼类间的关系,20,主持

5.      2018.1-2019.12,科研院所委托项目,于桥水库附着藻类防控蓝藻水华适应性及污染物去除效果研究,19.7万元,主持

6.      2016.1-2019.12,国家自然科学基金面上项目,41573110,巢湖藻类碎屑有机碳调节水华种类演替的机制研究,2016/01-2019/1273万,参与

7.      2014.1-2016.12,国家自然科学基金青年科学基金项目,31300391,微囊藻毒素通过调节光合作用促进其水华形成的机理研究,24万元,主持

8.      2014.1-2017.12,国家自然科学基金面上项目,31370472,丝状刚毛藻水华对沉水植被恢复的影响,80万元,参与

科研成果

科研工作主要围绕微囊藻水华形成机理、演变过程、衰退归趋,及微囊藻生活史与湖泊磷循环的关系展开,先后主持国家自然科学基金面上项目、青年科学基金、科技部支撑计划专题任务等多项研究课题,发表国内外论文30余篇,获授权发明专利3项,2020年作为主要参与人获得北京市科学技术进步一等奖。

 

代表性论文:

1.    Wang Z.C., Huang S., Li D.H. Decomposition of cyanobacterial bloom contributes to the formation and distribution of iron-bound phosphorus (Fe-P): insight for cycling mechanism of internal phosphorus loading. Science of the Total Environment. 2019, 652: 696-708.

2.    Wang Z.C., Zhang Y., Huang S., Peng C.R., Hao Z.X., Li D.H. Nitrogen limitation significantly reduces the competitive advantage of toxic Microcystis at high light conditions. Chemosphere. 2019, 237: 124508.

3.    Wang Z.C., Li D.H., Cao X.Y., Song C.L., Zhou Y.Y. Photosynthetic characteristics and inferred changes in thylakoid membrane fluidity determine bloom succession between Anabaena and Microcystis in eutrophic lakes. Journal of Applied Phycology, 2016, 28: 2353-2365.

4.    Wang Z.C., Zhou Y.Y., Li D.H. The effect of gradient cooling on bloom decline in Microcystis (Cyanophyceae, Chroococcales). Phycologia, 2015, 55(2): 109-117.

5.    Wang Z.C., Li D.H., Cao X.Y., Song C.L., Zhou Y.Y. Photosynthetic adaptation mechanism of Microcystis (Cyanophyceae) related to changes of colony size in a eutrophic lake. 2014, Phycologia, 53(6): 552-560.

6.    Wang Z.C., Li D.H., Cao X.Y., Song C.L, Zhou Y.Y. Photosynthesis regulates succession of toxic and nontoxic strains in blooms of Microcystis (Cyanobacteria). Phycologia. 2015, 54(6): 640-648.

7.    Wang Z.C., Li Z.J., Zhou Y.Y., Li D.H. Photosynthetic activity of Microcystis in fish guts and its implication for feasibility of bloom control by filter-feeding fishes. Fresenius Environmental Bulletin. 2015, 24(7): 2384-2393.

8.    Wang ZC, Li DH*, Li GW, Liu YD. Mechanism of photosynthetic response in Microcystis aeruginosa PCC7806 to low inorganic phosphorus. Harmful Algae 2010, 9: 613-619.

9.    Wang ZC, Li DH*, Qin HJ, Li YX. An integrated method for removal of harmful cyanobacterial blooms in eutrophic lakes. Environmental Pollution 2012, 160: 34-41.

10. Wang ZC, Zuo M, Wang YC, Liu YD, Li DH*. Dynamics of chlorophyll fluorescence and eco-morphological properties of Microcystis bloom in Meiliang Bay of Lake Taihu, China. Fresenius Environmental Bulletin 2011, 20(9): 2295-2305.

11. Wang ZC, Li GW, Li GB, Li DH*. The decline process and major pathways of Microcystis bloom in Lake Taihu, China. Chinese Journal of Oceanology and Limnology 2012, 30(1): 37-46.

12. Wang ZC, Li DH*, Li ZJ. Rainfalls accelerate the decline of Microcystis (Cyanophyceae) blooms. Fresenius Environmental Bulletin 2012, 21(8A): 2145-2152.

13. Wang ZC, Li ZJ, Li DH*. A niche model to predict Microcystis bloom decline in Chaohu Lake, China. Chinese Journal of Oceanology and Limnology 2012, 30(4): 587-594.

14. Wang ZC, Dong J, Li DH*. Conformational changes in photosynthetic pigment proteins on thylakoid membranes can lead to fast non-photochemical quenching in cyanobacteria. Science China-Life Sciences, 2012, 55(8): 726-734.

15. Peng C.R., Zhang Y., Huang S., Li X.Y., Wang Z.C., Li D.H*. Sediment phosphorus release in response to flood event across different land covers in a restored wetland, Environmental Science and Pollution Research, 2019, 26: 9113-9122.

16. Zhang Y., Peng C.R., Wang Z.C., Zhang J.L., Li L.J., Huang S., Li D.H*. The Species-Specific Responses of Freshwater Diatoms to Elevated Temperatures Are Affected by Interspecific Interactions. Microorganisms. 2018, 6(3), 82; https://doi.org/10.3390/microorganisms6030082.

17. Wang S.Y., Xiao J., Wan L.L., Zhou Z.J., Wang Z.C., Song C.L., Zhou Y.Y., Cao X.Y*. Mutual dependence of nitrogen and phosphorus as key nutrient elements: one facilitates Dolichospermum flos-aquae to overcome limitation by the other. Environmental Science & Technology, 2018, 52 (10): 5653–5661.

18. Wang J.Y., Ye S.W., Wang Z.C., Liu J.S., Zhang T.L., Lek S., Li Z.J*. Temporal and spatial variation of phytoplankton functional groups and main driving factors in the Three Gorges Reservoir, China. Fresenius Environmental Bulletin, 2018, 27: 947-959.

19. Cao X.Y., Wan L.L., Xiao J., Chen X.Y., Zhou Y.Y., Wang Z.C., Song C.L.* Environmental effects by introducing Potamogeton crispus to recover a eutrophic Lake. Science of The Total Environment, 2017, 621:360-367.

20. Liu Y.Q., Cao X.Y., Li H., Zhou Z.J., Wang S.Y., Wang Z.C., Song C.L., Zhou Y.Y*. Distribution of phosphorus-solubilizing bacteria in relation to fractionation and sorption behaviors of phosphorus in sediment of the Three Gorges Reservoir. Environmental Science and Pollution Research, 2017, 24:17679–17687.

21. Cao X.Y., Zhou Y.Y., Wang Z.C., Song C.L*. The contribution of attached bacteria to Microcystis bloom: evidence from field investigation and microcosm experiment. Geomicrobiology Journal, 2015, DOI: 10.1080/01490451.2015.1074319.

22. Wu P.P., Rao B.Q., Wang Z.C., Hu C.X., Shen Y.W, Liu Y.D.*, Li D.H. Succession and contributions to ecosystem function of manmade biotic crusts. Fresenius Environmental Bulletin, 2013, 22: 252-260.

23. Qin H.J., Lu J.J., Wang Z.C., Li D.H*. The influence of soil and water physicochemical properties on the distribution of Nostoc sphaeroides (Cyanophyceae) in paddy fields and biochemical comparison with indoor cultured biomass. Journal of Applied Phycology, 2013, 25(6): 1737-1745.

24. Hao Z.J., Li D.H., Li Y.H., Wang Z.C., Xiao Y., Wang G.H., Liu Y.D.*, Hu C.X., Liu Q.F. Nostoc sphaeroides Kutzing, an excellent candidate producer for CELSS. Advances in Space Research, 2011, 48(10): 1565-1571.

25. Wang Y.C., Wang Z.C., Wu P.P., Hu M.M., Wang Z., Xu A.H., Li G.B., Liu Y.D*. Succession and contributions to ecosystem function of manmade biotic crusts. Fresenius Environmental Bulletin, 2013, 22: 252-260.

26. 汪志聪,连玉喜,王静雅,王宝强.生态环境条件. 人与生物圈,2016(3)22-27.

27. 王静雅, 汪志聪, 李翀, 叶少文, 连玉喜, 刘家寿, 张堂林, 李钟杰. 三峡水库坝前水域浮游植物群落时空动态研究. 水生生物学报, 201539(5): 877-884.

28. 汪志聪、董静、李敦海. 藻类囊体膜色素蛋白的构象变化可引起快速的非光化学淬灭. 中国科学-生命科学,2012, 42(08): 668-676

29. 汪志聪, 吴卫菊, 左明, 李敦海*. 巢湖浮游植物群落生态位的研究. 长江流域资源与环境,2010, 19(6): 685-691.

30. 汪志聪, 饶本强, 李印霞, 李敦海*. 湖北枝江石子岭水库水华研究初报. 中国环境科学,2012, (10): 1975-1881

31. 李敦海,汪志聪,秦红杰,李印霞,张浪. 蓝藻水华的拦截和陷阱捕获综合控藻技术研究. 长江流域资源与环境,2012, (S2): 45-50

32. 吴卫菊,杨凯,汪志聪,李根保,刘永定. 云贵高原鱼洞水库浮游植物群落结构及季节演替. 水生态学杂志,2012, (02): 69-75

33. 李印霞,饶本强,汪志聪,秦红杰,张浪,李敦海. 巢湖水华堆积区蓝藻时空分布的研究. 长江流域资源与环境志,2012, (S2): 25-31

 

专利:

1.      李敦海,汪志聪,秦红杰,李印霞,沈银武,李根保。一种复合生态环保控藻剂控藻改善水质的方法,201010222906.X

2.      李敦海,汪志聪,彭成荣。一种车载式着生藻类自动收集和藻水分离装置(201810644187.7

3.      彭成荣,黄顺,张云,李小燕,汪志聪,李敦海。一种便携式着生藻类采样器, CN201810898374.8

获奖及荣誉

2020年作为主要参与人获得北京市科学技术进步一等奖

备注

欢迎有生物学或环境科学背景的考生报考。