获奖及荣誉

2015年获湖北省科技进步二等奖

2017年入选中国科学院青年创新促进会

2020年获国家自然科学基金委优青

2020年获湖北省自然科学基金杰青

2021年度中国科学院青年创新促进会优秀会员

2022年获湖北省优秀科普作品奖

2023年度长江水利委员会科学技术奖二等奖

代表论著

Ding, B., Xu, D., Wang, S., Liu, W.*, & Zhang, Q. (2025). Additive effects of multiple global change drivers on terrestrial nitrogen cycling worldwide. Global Change Biology, 31(4), e70176.

He, G., Deng, D., Delgado‐Baquerizo, M.*, Liu, W.*, & Zhang, Q. (2025). Global Relative Importance of Denitrification and Anammox in Microbial Nitrogen Loss Across Terrestrial and Aquatic Ecosystems. Advanced Science, 2406857.

He, G., Lu, M., Delgado‐Baquerizo, M.*, Yang, Y.*, Ma, L., Li, S., & Liu, W*. (2024). The global‐scale impacts of metallic nanoparticles on soil carbon dioxide emissions. Global Change Biology, 30(2), e17164.

Deng, D., He, G., Ding, B., Liu, W*., Yang, Z*., & Ma, L*. (2024). Denitrification dominates dissimilatory nitrate reduction across global natural ecosystems. Global Change Biology, 30(3), e17256.

Deng, D., He, G., Yang, Z., Xiong, X.*, & Liu, W*. (2024). Activity and community structure of nitrifiers and denitrifiers in nitrogen-polluted rivers along a latitudinal gradient. Water Research, 254, 121317.

Deng, D., Yang, Z., Yang, Y., Wan, W., Liu, W.*, & Xiong, X*. (2024). Metagenomic insights into nitrogen-cycling microbial communities and their relationships with nitrogen removal potential in the Yangtze River. Water Research, 265, 122229.

Lu, M., He, G., Fan, L., Liu, G., Wu, J., Liu, W.*, & Ma, L*. (2024). Temperature sensitivity of aerobic and anaerobic organic carbon mineralization varies with climate and soil depth in riparian zones. Soil Biology and Biochemistry, 195, 109455.

Xiong, X., Feng, L., Huang, J., Wan, W., Yang, Y., & Liu, W*. (2024). Species pool and local assembly processes drive β diversity of ammonia‐oxidizing and denitrifying microbial communities in rivers along a latitudinal gradient. Molecular Ecology, 33(19), e17516.

Cai, M., Zhang, C., Ndungu, C. N., Liu, G., Liu, W*., & Zhang, Q. (2024). Linking ecosystem multifunctionality to microbial community features in rivers along a latitudinal gradient. Msystems, 9(4), e00147-24.

He G, Yang Y, Liu G, Zhang Q*, Liu W*. 2023. Global analysis of the perturbation effects of metal-based nanoparticles on soil nitrogen cycling. Global Change Biology, 29: 4001-4017.

Zhou Y, He G, Bhagwat G, Palanisami T, Yang Y*, Liu W*, Zhang Q. 2023. Nanoplastics alter ecosystem multifunctionality and may increase global warming potential. Global Change Biology, 29: 3895-3909.

Deng D, Ding B, He G, Ji M, Yang Y, Liu G, Zhang Q*, Liu W*. 2023. The contribution of anammox to nitrogen removal is greater in bulk soils than in rhizosphere soils in riparian wetlands along the Yangtze River. Global Biogeochemical Cycles, 37: e2022GB007576.

Wan W, Gadd GM, Yang Y*, Yuan W, Gu J, Ye L, Liu W*. 2021. Environmental adaptation is stronger for abundant rather than rare microorganisms in wetland soils from the Qinghai-Tibet Plateau. Molecular Ecology, 30:2390–2403.

Ma L, Jiang X, Liu G, Yao L, Liu W*, Pan Y, Zuo Y. 2020. Environmental factors and microbial diversity and abundance jointly regulate soil nitrogen and carbon biogeochemical processes in Tibetan wetlands. Environmental Science & Technology, 54: 3267–3277.

Zhou Y, Yang Y, Liu G, He G, Liu W*. 2020. Adsorption mechanism of cadmium on microplastics and their desorption behavior in sediment and gut environments: The roles of water pH, lead ions, natural organic matter and phenanthrene. Water Research, 184: 116209.

Liu W, Jiang X, Zhang Q, Li F, Liu G. 2018. Has submerged vegetation loss altered sediment denitrification, N2O production and denitrifying microbial communities in subtropical lakes? Global Biogeochemical Cycles, 32: 1195–1207.

Xiong Z, Guo L, Zhang Q, Liu G*, Liu W*. 2017. Edaphic conditions regulate denitrification directly and indirectly by altering denitrifier abundance in wetlands along the Han River, China. Environmental Science & Technology, 51: 5483–5491.

Liu W, Liu G, Liu H, Song Y, Zhang Q. 2013. Subtropical reservoir shorelines have reduced plant species and functional richness compared with adjacent riparian wetlands. Environmental Research Letters, 8: 044007.

刘文治, 卢蓓, 刘贵华. 2021. 西藏湿地植物. 华中科技大学出版社.

承担科研项目情况

国家自然科学基金委联合基金项目：汾河流域湿地生态系统碳固持关键过程及其机理（2025.01-2028.12）

国家自然科学基金委优青项目：湿地生态过程与功能（2021.01-2023.12）

科技部科技基础资源调查专项课题：西南高原沼泽湿地植物种质资源调查（2020.01-2024.12）

湖北省自然科学基金杰青项目：水生植物调控湿地脱氮效应的机制（2020.03-2023.03）