1.     科技部重点研发计划项目子课题，河口湿地碳减排技术，项目负责人。

2.     中国林科院重点支持局中心工作项目，全国湿地碳储量与碳汇估算，项目负责人。

3.     国家自然科学基金面上项目，水位变化和外源性氮增加的耦合作用对若尔盖高寒湿地CH4和N2O通量的影响机理研究，项目负责人。

4.     国家自然科学基金青年基金项目，蓝藻衰亡过程中电子受体对沉积物-水界面磷交换的影响机理研究，项目负责人。

5.     中国林科院院基金面上项目，水位变化和氮沉降对高寒湿地温室气体排放的影响机理研究，项目负责人。

6.     衡水湖保护区浮游生物与底栖动物多样性专项调查，横向课题，项目负责人。

7.     农田面源污染防治措施效果评估，环保部支撑项目，项目负责人。

8.     科技部重大专项水专项，太湖新城湖滨流域水质改善与生态修复综合示范课题，参与。

代表性文章：

1.    Wang J.Z, Zhengyi Hu, Lijuan Cui, Yang, W., Li, W., Lei, Y., et. al. Characteristics of water dissolved organic matter in Zoige alpine wetlands, China[J]. Chemical and Biological Technologies in Agriculture, 2024. 11(1): 127.

2.     Zhang W, Tao X, Hu Z, Kang E, Yan Z, Zhang X. Wang J.Z*. The driving effects of nitrogen deposition on nitrous oxide and associated gene abundances at two water table levels in an alpine peatland[J]. Science of The Total Environment, 2023, 898(10): 165525.

3.     Zhang, W.T., Hu, Z.Y., Joachim Audet, Thomas A. Davidson, Wang J.Z.* Effects of water table level and nitrogen deposition on methane and nitrous oxide emissions in an alpine peatland, Biogeosciences, 2022, 19:5187–519.

4.     Zhang, W.T., Kang X.M., Kang E.Z., Joachim Audet, Thomas A. Davidson, Wang J.Z., Hu Z.Y. Soil water content, carbon, and nitrogen determine the abundances of methanogens, methanotrophs, and methane emission in the Zoige alpine wetland，Journal of Soils and Sediments，2022, 22, 470–481.

5.     Zhang, W.T.; Wang, J.Z.*; Hu, Z.Y.; Li, Y.; Yan, Z.Q.; Zhang, X.D.; Wu, H.D.; Yan, L.; Zhang, K.R.; Kang, X.M.. The primary drivers of greenhouse gas emissions along the water table gradient in the Zoige alpine peatland. Water, Air, & Soil Pollution,2020, 231:224.

6.     Wang J.Z., Zheng B.H., Kang X.M., Yu H., Li Da, Jiang X. Diel variation of water inorganic nitrogen and phosphorus during algal blooms. Polish Journal of Environmental Studies. 2019, 28(2):1-9.

7.     Kang X.M., Yan L., Cui L.J., Zhang X.D., Hao Y.B., Wu H.D., Zhang Y., Li W., Zhang K.R., Yan Z.Q., Li Y., Wang J.Z.* Reduced carbon dioxide sink and methane source under extreme drought condition in an Alpine peatland. Sustainability. 2018, 10: 4285.

8.     Kang X.M., Yan L., Zhang X.D., Li Y, Tian D.S., Peng C.H., Wu H.D., Wang J.Z.*. Modeling gross primary production of a typical coastal wetland in China using MODIS time series and CO2 eddy flux tower data. Remote Sensing. 2018, 10:708. (通讯作者)

9.     Wang J.Z., Jiang X., Zheng B.H., Chen C.X., Kang X.M., Zhang C.Y., Song Z.Q., Wang K., Wang W.W., Wang S.H. Effect of algal bloom on phosphorus exchange at the sediment-water interface in Meiliang Bay of Taihu Lake, China. Environmental Earth Sciences. 2016, 75:1-9. IF2022=3.199

10.   Wang J.Z., Jiang X., Zheng B.H., Niu Y., Wang K., Wang W.W., Kardol P. Effects of electron acceptors on soluble reactive phosphorus in the overlying water during algal decomposition. Environmental Science and Pollution Research. 2015, 22(24): 19507-19517. IF2022=5.190

11.   Wang J.Z., Hu Z.Y., Xu X.K., Jiang X., Zheng B.H., Liu X.N., Pan X.B., Kardol P. Emissions of ammonia and greenhouse gases during combined pre-composting and vermicomposting of duck manure. Waste Management. 2014, 34(8): 1546-1552.  IF2022=8.816

12.   Wang, J.Z., Hu, Z.Y., Zhou, X.Q., et al.. Effects of reed straw, zeolite, and superphosphate amendment on NH3 and greenhouse gas emissions from stored duck manure. Journal of Environmental Quality. 2012, 41(4):1221-1227. IF2022=3.866

13.   王奇, 王金枝*, 姜丽丽, 周阳, 李博文, 崔树娟, 孟凡栋, 汪诗平. 氮和磷添加对草原群落特征及有关生态过程的影响. 草地学报. 2017, 25: 914 -920.

14.   王金枝, 颜亮, 吴海东, 康晓明. 基于层次分析法研究藏北高寒草地退化的影响因素[J]. 应用与环境生物学报, 2020, 26 (1):17-24

获奖：

1.     北京林学会林业科技进步奖一等奖，北京自然河湖湿地生态系统稳定技术，第三完成人。

2.     梁希林业科学技术奖三等奖，极端干旱事件对草原生态系统碳收支的影响机制及模拟预测技术，第三完成人。

3.     中国林科院重大科技成果奖，人工湿地净化功能强化和稳定技术的研究与示范，第七完成人。

4.     中国林科院重大科技成果奖, 受损滩涂湿地生态系统恢复及功能定向提升关键技术与应用，第八完成人。

5.     北京园林学会科学技术奖科技进步一等奖，生物多样性保育小区建设研究与应用项目，第十四完成人。