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Policy distortions, farm size, and the overuse of agricultural chemicals in China Y Wu, X Xi, X Tang, D Luo, B Gu, SK Lam, PM Vitousek, D Chen Proceedings of the National Academy of Sciences 115 (27), 7010-7015, 2018 | 555 | 2018 |
Nitrate in groundwater of China: Sources and driving forces B Gu, Y Ge, SX Chang, W Luo, J Chang Global Environmental Change 23 (5), 1112-1121, 2013 | 349 | 2013 |
Reducing China’s fertilizer use by increasing farm size X Ju, B Gu, Y Wu, JN Galloway Global environmental change 41, 26-32, 2016 | 320 | 2016 |
The impact of farm size on agricultural sustainability C Ren, S Liu, H Van Grinsven, S Reis, S Jin, H Liu, B Gu Journal of Cleaner Production 220, 357-367, 2019 | 283 | 2019 |
Significant accumulation of nitrate in Chinese semi-humid croplands J Zhou, B Gu, WH Schlesinger, X Ju Scientific reports 6 (1), 25088, 2016 | 281 | 2016 |
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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 | 232 | 2016 |
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 | 230 | 2021 |
Atmospheric reactive nitrogen in China: sources, recent trends, and damage costs B Gu, Y Ge, Y Ren, B Xu, W Luo, H Jiang, B Gu, J Chang Environmental science & technology 46 (17), 9420-9427, 2012 | 228 | 2012 |
Plastic pollution in croplands threatens long‐term food security D Zhang, EL Ng, W Hu, H Wang, P Galaviz, H Yang, W Sun, C Li, X Ma, ... Global Change Biology 26 (6), 3356-3367, 2020 | 220 | 2020 |
Status-quo, problem and trend of nitrogen fertilization in China X JU, B GU Journal of Plant Nutrition and Fertilizers 20 (4), 783-795, 2014 | 197 | 2014 |
Urbanization can benefit agricultural production with large-scale farming in China S Wang, X Bai, X Zhang, S Reis, D Chen, J Xu, B Gu Nature Food 2 (3), 183-191, 2021 | 189 | 2021 |
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 | 181 | 2017 |
Decoupling livestock and crop production at the household level in China S Jin, B Zhang, B Wu, D Han, Y Hu, C Ren, C Zhang, X Wei, Y Wu, ... Nature sustainability 4 (1), 48-55, 2021 | 156 | 2021 |
Rebuilding the linkage between livestock and cropland to mitigate agricultural pollution in China C Zhang, S Liu, S Wu, S Jin, S Reis, H Liu, B Gu Resources, Conservation and Recycling 144, 65-73, 2019 | 154 | 2019 |
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 | 148 | 2020 |
Nitrogen footprint in China: food, energy and non-food goods B Gu, A Leach, L Ma, JN Galloway, SX Chang, Y Ge, J Chang Environmental science & technology, 2013 | 145 | 2013 |
A world of cobenefits: solving the global nitrogen challenge BZ Houlton, M Almaraz, V Aneja, AT Austin, E Bai, KG Cassman, ... Earth's future 7 (8), 865-872, 2019 | 142 | 2019 |
Nitrogen footprints: Regional realities and options to reduce nitrogen loss to the environment H Shibata, JN Galloway, AM Leach, LR Cattaneo, L Cattell Noll, ... Ambio 46, 129-142, 2017 | 142 | 2017 |