Gang He Wuhan Botanical Garden The Chinese Academy of Sciences</< /

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Name： Gang He
Title： Associate Professor
Education： PhD
TEL：
Email： hegang@wbgcas.cn
Address： Wuhan Botanical Garden, Chinese Academy of Sciences No. 201 Jiufeng 1 Road, East Lake High-Tech Development Zone, Wuhan, Hubei, P. R. China
Research Center：
Research Center for Aquatic Plant

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Major publications：

1. He G^#, Deng DL^#, Delgado-Baquerizo M*, Liu WZ*, Zhang QF. 2025. Global Relative Importance of Denitrification and Anammox in Microbial Nitrogen Loss Across Terrestrial and Aquatic Ecosystems. Advanced Science, 12(8): 2406857.
2. He G^#, Lu MZ^#, Delgado-Baquerizo M*, Yang YY*, Ma L, Li SY, Liu WZ*. 2024. The global-scale impacts of metallic nanoparticles on soil carbon dioxide emissions. Global Change Biology, 30(2): e17164.
3. He G, Yang YY, Liu GH, Zhang QF*, Liu WZ*. 2023. Global analysis of the perturbation effects of metal-based nanoparticles on soil nitrogen cycling. Global Change Biology, 29(14): 4001-4017.
4. He G, Shu S, Liu GH, Zhang QF, Liu Y, Jiang Y and Liu WZ*. 2022. Aquatic macrophytes mitigate the short-term negative effects of silver nanoparticles on denitrification and greenhouse gas emissions in riparian soils. Environmental Pollution, 293: 118611.
5. He G^#, Jiang XL^#, Yao LG, Liu GH, Yang YY*, Jiang Y, Liu WZ*. 2021. Effects of tetracycline on nitrogen and carbon cycling rates and microbial abundance in sediments with and without biochar amendment. Chemosphere, 270: 129509.
6. Deng DL^#, He G^#, Ding BJ, Liu WZ*, Yang ZJ*, Ma L*. 2024. Denitrification dominates dissimilatory nitrate reduction across global natural ecosystems. Global Change Biology, 30(3): e17256.
7. Zhou YF^#, He G^#, Bhagwat G, Palanisami T, Yang YY*, Liu WZ*, Zhang QF. 2023. Nanoplastics alter ecosystem multifunctionality and may increase global warming potential. Global Change Biology, 29(14): 3895-3909.
8. Zhou YF^#, He G^#, Jiang XL, Yao LG, Ouyang L, Liu XY, Liu WZ*, Liu Y*. 2021. Microplastic contamination is ubiquitous in riparian soils and strongly related to elevation, precipitation and population density. Journal of Hazardous Materials, 411: 125178.
9. Ma L^# *, Yu DS^#, Wang XK, Liu GH, Liu WZ*, He G*. 2025. Combined stressors of copper and antibiotics alter nitrogen transformation and multifunctionality of constructed wetlands: Responses of microbes and macrophytes. Journal of Environmental Management, 395: 127957.

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