Abating ammonia is more cost-effective than nitrogen oxides for mitigating PM2.5 air pollution B Gu, L Zhang, R Van Dingenen, M Vieno, HJM Van Grinsven, X Zhang, ... Science 374 (6568), 758-762, 2021 | 245 | 2021 |
PM2. 5 pollution is substantially affected by ammonia emissions in China Y Wu, B Gu, JW Erisman, S Reis, Y Fang, X Lu, X Zhang Environmental pollution 218, 86-94, 2016 | 234 | 2016 |
Ammonia emissions may be substantially underestimated in China X Zhang, Y Wu, X Liu, S Reis, J Jin, U Dragosits, M Van Damme, ... Environmental Science & Technology 51 (21), 12089-12096, 2017 | 182 | 2017 |
Societal benefits of halving agricultural ammonia emissions in China far exceed the abatement costs X Zhang, B Gu, H van Grinsven, SK Lam, X Liang, M Bai, D Chen Nature communications 11 (1), 4357, 2020 | 153 | 2020 |
Cost-effective mitigation of nitrogen pollution from global croplands B Gu, X Zhang, SK Lam, Y Yu, HJM Van Grinsven, S Zhang, X Wang, ... Nature 613 (7942), 77-84, 2023 | 148 | 2023 |
Consolidation of agricultural land can contribute to agricultural sustainability in China J Duan, C Ren, S Wang, X Zhang, S Reis, J Xu, B Gu Nature Food 2 (12), 1014-1022, 2021 | 125 | 2021 |
Spatial–temporal patterns of inorganic nitrogen air concentrations and deposition in eastern China W Xu, L Liu, M Cheng, Y Zhao, L Zhang, Y Pan, X Zhang, B Gu, Y Li, ... Atmospheric Chemistry and Physics 18 (15), 10931-10954, 2018 | 67 | 2018 |
Integrated livestock sector nitrogen pollution abatement measures could generate net benefits for human and ecosystem health in China Z Zhu, X Zhang, H Dong, S Wang, S Reis, Y Li, B Gu Nature Food 3 (2), 161-168, 2022 | 54 | 2022 |
Increasing importance of ammonia emission abatement in PM2. 5 pollution control W Xu, Y Zhao, Z Wen, Y Chang, Y Pan, Y Sun, X Ma, Z Sha, Z Li, J Kang, ... Science Bulletin 67 (17), 1745, 2022 | 34 | 2022 |
Socioeconomic barriers of nitrogen management for agricultural and environmental sustainability C Ren, X Zhang, S Reis, B Gu Agriculture, Ecosystems & Environment 333, 107950, 2022 | 27 | 2022 |
A 12% switch from monogastric to ruminant livestock production can reduce emissions and boost crop production for 525 million people L Cheng, X Zhang, S Reis, C Ren, J Xu, B Gu Nature Food 3 (12), 1040-1051, 2022 | 21 | 2022 |
Climate change unequally affects nitrogen use and losses in global croplands C Ren, X Zhang, S Reis, S Wang, J Jin, J Xu, B Gu Nature Food 4 (4), 294-304, 2023 | 19 | 2023 |
Ammonia mitigation campaign with smallholder farmers improves air quality while ensuring high cereal production J Kang, J Wang, MR Heal, K Goulding, W de Vries, Y Zhao, S Feng, ... Nature Food 4 (9), 751-761, 2023 | 18 | 2023 |
Uncertainty of nitrogen budget in China X Zhang, C Ren, B Gu, D Chen Environmental Pollution 286, 117216, 2021 | 18 | 2021 |
Characterization of haze episodes and factors contributing to their formation using a panel model X Zhang, Y Wu, B Gu Chemosphere 149, 320-327, 2016 | 17 | 2016 |
A high-resolution map of reactive nitrogen inputs to China S Wang, X Zhang, C Wang, X Zhang, S Reis, J Xu, B Gu Scientific Data 7 (1), 379, 2020 | 15 | 2020 |
Nitrogen cycles in global croplands altered by elevated CO2 J Cui, X Zhang, S Reis, C Wang, S Wang, P He, H Chen, ... Nature Sustainability 6 (10), 1166-1176, 2023 | 12 | 2023 |
Pollution controls in Lake Tai with the reduction of the watershed nitrogen footprint M Wu, X Zhang, S Reis, S Ge, B Gu Journal of Cleaner Production 332, 130132, 2022 | 7 | 2022 |
Managing urban development could halve nitrogen pollution in China O Deng, S Wang, J Ran, S Huang, X Zhang, J Duan, L Zhang, Y Xia, ... Nature Communications 15 (1), 401, 2024 | 4 | 2024 |
Reactive nitrogen budgets in China B Gu, X Zhang Atmospheric Reactive Nitrogen in China: Emission, Deposition and …, 2020 | 3 | 2020 |