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2. Wangshou Zhang*, Hengpeng Li*, Shuyi Xie, et al., 2026. Roles of riverine wetlands in diffusive greenhouse gas emissions: Comparing before and after wetland destruction, Ecological Applications 34: e70233.
3. Wangshou Zhang, Hengpeng Li*, Dawei Xu, et al., 2024. Wetland destruction in a headwater river leads to disturbing decline of in-stream nitrogen removal, Environmental Science & Technology 58: 2774-2785
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5. Wangshou Zhang, Hengpeng Li*, Heng Cao, et al., 2023. Small ponds have stronger potential for net nitrogen removal: Insight from direct dissolved N2 measurement, Science of The Total Environment 900: 165765
6. Wangshou Zhang, Hengpeng Li*, Bing Li, 2022. Whole-system estimation of hourly denitrification in a flow-through riverine wetland. Journal of Hydrology. 618:129132
7. Wangshou Zhang, Hengpeng Li, Tianyu Xia, et al., 2022. Net N2 fluxes from different lowland ponds draining contrasting land uses in a hilly catchment: Implications for nitrogen removal and its environmental controls. Agriculture, Ecosystems & Environment 108121.
8. Wangshou Zhang, Hengpeng Li*, Steven G. Pueppke, 2022. Direct measurements of dissolved N2 and N2O highlight the strong nitrogen (N) removal potential of riverine wetlands in a headwater stream. Science of The Total Environment 848, 157538.
9. Wangshou Zhang, Hengpeng Li*, Heng Cao, 2022. Strong variability in nitrogen (N) removal rates in typical agricultural pond from hilly catchment: Evidence from diel and monthly dissolved N2 measurement. Environmental Pollution 314, 120196.
10. Tianyu Xia, Wangshou Zhang*, Hengpeng Li, et al., 2022. Rivers draining contrasting landscapes exhibit distinct potentials to emit diffusive methane (CH4). Science of The Total Environment 807, 150898.
11. Wangshou Zhang, Hengpeng Li*, Steven G. Pueppke, et al., 2021. Restored riverine wetlands in a headwater stream can simultaneously behave as sinks of N2O and hotspots of CH4 production. Environmental Pollution 284, 117114.
12. Wangshou Zhang, Hengpeng Li*, Qitao Xiao, et al., 2021. Urban rivers are hotspots of riverine greenhouse gas (N2O, CH4, CO2) emissions in the mixed-landscape lake basin. Water Research 189: 116624.
13. Wangshou Zhang, Hengpeng Li*, Steven Pueppke, et al., 2020. Nutrient loss is sensitive to land cover changes and slope gradients of agricultural hillsides: Evidence from four contrasting pond systems in a hilly catchment. Agricultural Water Management 237: 106165
14. Wangshou Zhang, Hengpeng Li*, David Hyndman, et al., 2020. Water quality trends under rapid agricultural expansion and enhanced in-stream interception in a hilly watershed of Eastern China. Environmental Research Letters 15: 044027
15. Wangshou Zhang, Hengpeng Li*, Qitao Xiao, et al., 2020. Surface nitrous oxide (N2O) concentrations and fluxes from different rivers draining contrasting landscapes: Spatio-temporal variability, controls, and implications based on IPCC emission factor. Environmental Pollution 263: 114457
16. Wangshou Zhang, Hengpeng Li*, Anthony Kendall, et al., 2019. Nitrogen transport and retention in a headwater catchment with dense distributions of lowland ponds. Science of The Total Environment 683: 37-48
17. Wangshou Zhang, Steven Pueppke, Hengpeng Li*, et al., 2019. Modeling phosphorus sources and transport in a headwater catchment with rapid agricultural expansion. Environmental Pollution 255: 113273
18. Wangshou Zhang, Hengpeng Li*, Yunliang Li, 2019. Spatio-temporal dynamics of nitrogen and phosphorus input budgets in a global hotspot of anthropogenic inputs. Science of the Total Environment 656: 1108:1120
19. Wangshou Zhang*, Dennis Swaney, Bongghi Hong, et al., 2017. Anthropogenic phosphorus inputs to a river basin and their impacts on phosphorus fluxes along its upstream-downstream continuum. Journal of Geophysical Research: Biogeosciences 122: 3273-3287.
20. Wangshou Zhang, Xuyong Li*, Dennis Swaney, et al., 2016. Does food demand and rapid urbanization growth accelerate regional nitrogen inputs? Journal of Cleaner Production 112: 1401-1409
