Refereed Articles

  1. Ju, Xiaotang, Gu, Baojing, Yiyun, Wu, and Galloway, James N. 2016. "Reducing China’s fertilizer use by increasing farm size". Global Environmental Change, 41, 26-32.
  2. Schipper, L. and Smith, P., 2017. Deforestation may increase soil carbon but it is unlikely to be continuous or unlimited. Global change biology. DOI: 10.1111/gcb.13999
  3. Smith, P., Lutfalla, S., Riley, W.J., Torn, M.S., Schmidt, M.W.I. and Soussana, J.F., 2017. The changing faces of soil organic matter research. European Journal of Soil Science.
  4. Wu, Yiyun, Gu, Baojing, Erisman, Jan W., Reis, Stefan, Fang, Yuanyuan, Lu, Xuehe, and Zhang, Xiuming. 2016. "PM2.5 pollution is substantially affected by ammonia emissions in China". Environmental Pollution, 218, 86-94.
  5. Yue Q, Cheng K, Ogle S, et al. 2019. Evaluation of four modelling approaches to estimate nitrous oxide emissions in China's cropland. Science of the Total Environment, 652, 1279–1289
  6. Huang, T.; Yang, H.; Huang, C.; Ju, X., Effects of nitrogen management and straw return on soil organic carbon sequestration and aggregate-associated carbon. European journal of soil science 2018, 69 (5), 913-923.
  7. Huang, T.; Hu, X. K.; Gao, B.; Yang, H.; Huang, C. C.; Ju, X. T., Improved Nitrogen Management as a Key Mitigation to Net Global Warming Potential and Greenhouse Gas Intensity on the North China Plain. Soil Science Society of America Journal 2018, 82 (1), 136-146.
  8. Yang, L. Q.; Zhang, X. J.; Ju, X. T., Linkage between N2O emission and functional gene abundance in an intensively managed calcareous fluvo-aquic soil. Scientific Reports 2017, 7.
  9. Huang, T.; Yang, H.; Huang, C. C.; Ju, X. T., Effect of fertilizer N rates and straw management on yield-scaled nitrous oxide emissions in a maize-wheat double cropping system. Field Crops Research 2017, 204, 1-11.
  10. Zhu, G.; Song, X.; Ju, X.; Zhang, J.; Muller, C.; Sylvester-Bradley, R.; Thorman, R. E.; Bingham, I.; Rees, R. M., Gross N transformation rates and related N2O emissions in Chinese and UK agricultural soils. Sci Total Environ 2019, 666, 176-186.
  11. Yang Lu, Bai Jinshun, Zeng Naohua, Zhou Xing, Liao Yulin, Lu Yanhong, Robert M Rees, Cao Weidong. Diazotroph abundance and community structure are reshaped by straw return and mineral fertilizer in rice-rice-green manure rotation. Applied Soil Ecology, 2019, 136, 11-20.
  12. Yang Lu, Zhou Xing, Liao Yulin, Lu Yanhong, Nie Jun, Cao Weidong. Co-incorporation of rice straw and green manure benefits rice yield and nutrient uptake. Crop Science, 2019, 59(2), 749-759.
  13. Zhou Guopeng, Cao Weidong, Bai Jinshun, Xu Changxu, Zeng Naohua, Gao Songjuan, Robert M Rees, Dou Fugen. Co-incorporation of rice straw and leguminous green manure can increase soil available N and reduce C and N losses: an incubation study. Pedosphere. (Accepted)
  14. Gao Songjuan, Cao Weidong, Zou Chunqin, Gao Jusheng, Huang Jing, Bai Jinshun, Zeng Naohua, Shimizu Katsuyoshi, Alan Wright, Dou Fugen. Ammonia-oxidizing archaea are more sensitive than ammonia-oxidizing bacteria to long-term application of green manure in red paddy soil. Applied Soil Ecology, 2018, 124: 185-193.
  15. Gu B, Lam SK, Reis S, van Grinsven HJ, Ju X, Yan X, Zhou F, Liu H, Cai Z, Galloway JN, Howard C, Sutton MA, Chen D. Towards a generic analytical framework for sustainable nitrogen management: application for China. Environmental Science & Technology, 2019, 53, 1109-1118.
  16. Wu Y, Xi X, Tang X, Luo D, Gu B*, Lam SK, Vitousek PM, Chen D. Policy distortions, farm size, and the overuse of agricultural chemicals in China. PNAS, 2018, 115, 7010-7015.
  17. Gu B, Ju X, Wu Y, Erisman JW, Bleeker A, Reis S, Sutton MA, Lam SK, Smith P, Oenema O, Smith RI, Lu X, Ye X, Chen D. Cleaning up nitrogen pollution may reduce future carbon sinks. Global Environmental Change, 2018, 48, 56-66.
  18. Zhang X, Wu Y, Liu X, Reis S, Jin J, Dragosits U, Van Damme M, Clarisse L, Whitburn S, Coheur P, Gu B*. Ammonia emissions may be substantially underestimated in China. Environmental Science & Technology, 2017, 51, 12089-12096.
  19. Guo, S., Zhai, L., Liu, J., Liu, H., Chen, A., Wang, H., Wu, S., Lei, Q., 2019. Cross-ridge tillage decreases nitrogen and phosphorus losses from sloping farmlands in southern hilly regions of China. Soil and Tillage Research 191, 48-5
  20. Li, W., Guo, S., Liu, H., Zhai, L., Wang, H., Lei, Q., 2018. Comprehensive environmental impacts of fertilizer application vary among different crops: Implications for the adjustment of agricultural structure aimed to reduce fertilizer use. Agric. Water Manage. 210, 1-10.
  21. Li, W., Liu, H., Zhai, L., Yen, H., Hu, W., Lei, Q., Stewart, R.J., Guo, S., Ren, T., 2019. Evaluation of concentration-discharge dynamics and nitrogen export on anthropogenic inputs and stormflow across alternative time-scales. Ecol. Indicators 98, 879-887.
  22. Li, W., Lei, Q., Zhai, L., Liu, H., Hu, W., Liu, S., Ren, T., 2018. Seasonal changes of the pathways of nitrogen export from an agricultural watershed in China. Environmental Science. 39, 5375-5382. (in Chinese)
  23. Lian, H., Lei, Q., Zhang, X., Yen, H., Wang, H., Zhai, L., Liu, H., Huang, J.C., Ren, T., Zhou, J., Qiu, W., 2018. Effects of anthropogenic activities on long-term changes of nitrogen budget in a plain river network region: A case study in the Taihu Basin. Sci. Total Environ. 645, 1212-1220.
  24. Li, W., Zhai, L., Lei, Q., Wollheim, W.M., Liu, J., Liu, H., Hu, W., Ren, T., Wang, H., Liu, S., 2018. Influences of agricultural land use composition and distribution on nitrogen export from a subtropical watershed in China. Sci. Total Environ. 642, 21-32.
  25. Shuxia Wu, Hongbin Liu, Shen Liu, Yaosheng Wang, Baojing Gu, Shuqin Jin, Qiuliang Lei, Limei Zhai, Hongyuan Wang, 2018. Review of Current Situation of Agricultural Non-Point Source Pollution and Its Prevention and Control Technologies. Engineering Sciences. 20, 23-30. (in Chinese)
  26. Shuxia Wu, Hongbin Liu, Hongkun Huang, Qiuliang Lei, Hongyuan Wang, Limei Zhai, Shen Liu, Ying Zhang, Yu Hu, 2018.Analysis on the Amount and Utilization of Manure in Livestock and Poultry Breeding in China. Engineering Sciences. 20, 111-119. (in Chinese)
  27. Gai, X., Liu, H., Liu, J., Zhai, L., Wang, H., Yang, B., Ren, T., Wu, S., Lei, Q., 2019. Contrasting impacts of long-term application of manure and crop straw on residual nitrate-N along the soil profile in the North China Plain. Sci. Total Environ. 650, 2251-2259.
  28. Zhang, Y., Wang, H., Lei, Q., Luo, J., Lindsey, S., Zhang, J., Zhai, L., Wu, S., Zhang, J., Liu, X., Ren, T., Liu, H., 2018. Optimizing the nitrogen application rate for maize and wheat based on yield and environment on the Northern China Plain. Sci. Total Environ. 618, 1173-1183.
  29. Zhang, Y., Liu, J., Wang, H., lei, Q., Liu, H., Zhai, L., Ren, T., Zhang, J., 2018. Suitability of the DNDC model to simulate yield production and nitrogen uptake for maize and soybean intercropping in the North China Plain J. Integr. Agri. 17, 60345-60347.
  30. Zhang, T., Liu, H., Luo, J., Wang, H., Zhai, L., Geng, Y., Zhang, Y., Li, J., Lei, Q., Bashir, M.A., Wu, S., Lindsey, S., 2018. Long-term manure application increased greenhouse gas emissions but had no effect on ammonia volatilization in a Northern China upland field. Sci. Total Environ. 633, 230-239.
  31. Zhang, D., Wang, H., Pan, J., Luo, J., Liu, J., Gu, B., Liu, S., Zhai, L., Lindsey, S., Zhang, Y., Lei, Q., Wu, S., Smith, P., Liu, H., 2018. Nitrogen application rates need to be reduced for half of the rice paddy fields in China. Agric., Ecosyst. Environ. 265, 8-14.
  32. Wang, H., Zhang, D., Zhang, Y., Zhai, L., Yin, B., Zhou, F., Geng, Y., Pan, J., Luo, J., Gu, B., Liu, H., 2018. Ammonia emissions from paddy fields are underestimated in China. Environ. Pollut. 235, 482-488.
  33. Tan, G., Wang, H., Xu, N., Liu, H., Zhai, L., 2018. Biochar amendment with fertilizers increases peanut N uptake, alleviates soil N2O emissions without affecting NH3 volatilization in field experiments. Environ. Sci. Pollut. Res. Int. 25, 8817-8826.
  34. Li, J., Liu, H., Wang, H., Luo, J., Zhang, X., Liu, Z., Zhang, Y., Zhai, L., Lei, Q., Ren, T., Li, Y., Bashir, M.A., 2018. Managing irrigation and fertilization for the sustainable cultivation of greenhouse vegetables. Agric. Water Manage. 210, 354-363.
  35. Gai, X., Liu, H., Liu, J., Zhai, L., Yang, B., Wu, S., Ren, T., Lei, Q., Wang, H., 2018. Long-term benefits of combining chemical fertilizer and manure applications on crop yields and soil carbon and nitrogen stocks in North China Plain. Agric. Water Manage. 208, 384-392.
  36. Zhang, T., Chen, A., Liu, J., Liu, H., Lei, B., Zhai, L., Zhang, D., Wang, H., 2017. Cropping systems affect paddy soil organic carbon and total nitrogen stocks (in rice-garlic and rice-fava systems) in temperate region of southern China. Sci. Total Environ. 609, 1640-1649.
  37. Wang, H., Zhang, Y., Chen, A., Liu, H., Zhai, L., Lei, B., Ren, T., 2017. An optimal regional nitrogen application threshold for wheat in the North China Plain considering yield and environmental effects. Field Crops Res. 207, 52-61.
  38. Yingxin Zhu, Lei Chen*, Guoyuan Wei, Shuang Li, Zhenyao Shen. Uncertainty assessment in baseflow nonpoint source pollution prediction: the impacts of hydrographic separation methods, data sources and baseflow period assumptions. Journal of Hydrology. 2019, doi.org/10.1016/j.jhydrol.2019.05.010.
  39. Cheng Sun, Lei Chen*, Limei Zhai, Hongbin Liu, Yue Jiang, Kai Wang, Cong Jiao, Zhenyao Shen. National assessment of spatiotemporal loss in agricultural pesticides and related potential exposure risks to water quality in China. Science of the Total Environment. 2019, 667: 98-107.
  40. Lei Chen, Jiajia Xu, Guobo Wang, Zhenyao Shen*. Comparison of the multiple imputation approaches for imputing rainfall data series and their applications to watershed models. Journal of Hydrology. 2019, 572:449-460.
  41. Lei Chen, Shibo Chen, Shuang Li, Zhenyao Shen*. Temporal and spatial scaling effects of parameter sensitivity in relation to non-point source pollution simulation. Journal of Hydrology. 2019, 571: 36-49.
  42. Cheng Sun, Lei Chen*, Limei Zhai, Hongbin Liu, Huazhen Zhou, Qingrui Wang, Kai Wang, Zhenyao Shen*. National-scale evaluation of phosphorus emissions and the related water-quality risk hotspots accompanied by increased agricultural production. Agriculture, Ecosystems & Environment. 2018, 267: 33-41.
  43. Lei Chen, Shuang Li, Yucen Zhong, Zhenyao Shen*. Improvement of model evaluation by incorporaing prediction and measurement uncertainty. Hydrology and Earth System Sciences. 2018, 22: 4145-4154.
  44. Lei Chen, Jiajia Xu, Guobo Wang, Hongbin Liu, Limei Zhai, Shuang Li, Cheng Sun, Zhenyao Shen*. Influence of rainfall data scarcity on non-point source pollution prediction: Implications for physically based models. Journal of Hydrology. 2018, 562: 1-16.
  45. Cheng Sun, Huazhen Zhou, Lei Chen, Zhenyao Shen et al. The pollution risk assessment of nitrogen and phosphorus loss in surface runoff from farmland fertilizer. Journal of Agro-Environment Science, 2017, 36: 1266-1273. (in Chinese)
  46. 28. Yi Du, Xiaoyan Wang*, Daniele Brombal, Angela Moriggi, Andrew Sharpley, Shujiang Pang. 2018. Changes in Environmental Awareness and its Connection to Local Environmental Management in water conservation zone: the case of Beijing, China. Sustainability, 10, 2087: 1-24 doi:10.3390/su10062087
  47. Xiaoyan Wang*, Li Zeqi, Li Mingtao. 2018. Impacts of Climate Change on stream flow and water quality in a drinking water source area, Northern China. Environmental Earth Science, 77: 410: 1-14 DOI: 10.1007/s12665-018-7581-5
  48. WANG Huan-xiao, PANG Shu-jiang, WANG Xiao-yan*, FAN Yan-bo. 2018. Atmospheric Nitrogen Dry and Wet Deposition in Small Catchment. Environmental Science, 39(12): 5365-5374 (in Chinese)
  49. PANG Shu-jiang, WANG Xiao-yan*, MA Wen-jing. 2018. Research of Parameter Uncertainty for the HSPF Model Under Different Temporal Scales. Environmental Science, 39(5): 2030-2038(in Chinese)
  50. Liu Jie, Pang Shujiang, He Yangyang, Wang Xiaoyan*. 2017. Critical area identification of phosphorus loss based on runoff characteristics in small watershed. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 33(20): 241-249 (in Chinese)
  51. Yue Q, Cheng K, Ogle S, Hillier J, Smith P, Abdalla M..... Pan G, (2019). Evaluation of four modelling approaches to estimate nitrous oxide emissions in China's cropland.. The Science of the total environment, pp. 1279-1289
  52. Yue Q, Ledo A, Cheng K, Albanito F, Lebender U, Sapkota T..... Hillier J, (2018). Re-assessing nitrous oxide emissions from croplands across Mainland China. Agriculture, Ecosystems & Environment,
  53. Xu C, Han X, Ru S, Cardenas L, Rees R, Wu D..... Meng F, (2019). Crop straw incorporation interacts with N fertilizer on N2O emissions in an intensively cropped farmland. Geoderma,
  54. Zhang C, Liu S, Wu S, Jin S, Reis S, Liu H, Gu B. (2019). Rebuilding the linkage between livestock and cropland to mitigate agricultural pollution in China. Resources, Conservation and Recycling , pp. 65-73
  55. Gu B, Zhang X, Bai X, Fu B, Chen D, (2019). Four steps to food security for swelling cities.. Nature, 566 (7742), pp. 31-33 •Balmford A, Amano T, Bartlett H, Chadwick D, Collins A, Edwards D..... Eisner R, (2018). The environmental costs and benefits of high-yield farming. Nature Sustainability,
  56. Zhang D, Wang H, Pan J, Luo J, Liu J, Gu B..... Liu H, (2018). Nitrogen application rates need to be reduced for half of the rice paddy fields in China. Agriculture, Ecosystems & Environment,
  57. Gao S, Chang D, Zou C, Cao W, Gao J, Huang J..... Thorup-Kristensen K, (2018). Archaea are the predominant and responsive ammonia oxidizing prokaryotes in a red paddy soil receiving green manures. European Journal of Soil Biology,
  58. Zhang C, Liu S, Wu S, Jin S, Reis S, Liu H, Gu B. (2019). Rebuilding the linkage between livestock and cropland to mitigate agricultural pollution in China. Resources, Conservation and Recycling , pp. 65-73
  59. Gu B, Zhang X, Bai X, Fu B, Chen D, (2019). Four steps to food security for swelling cities.. Nature, 566 (7742), pp. 31-33 •Balmford A, Amano T, Bartlett H, Chadwick D, Collins A, Edwards D..... Eisner R, (2018). The environmental costs and benefits of high-yield farming. Nature Sustainability,
  60. Zhang D, Wang H, Pan J, Luo J, Liu J, Gu B..... Liu H, (2018). Nitrogen application rates need to be reduced for half of the rice paddy fields in China. Agriculture, Ecosystems & Environment,
  61. Gao S, Chang D, Zou C, Cao W, Gao J, Huang J..... Thorup-Kristensen K, (2018). Archaea are the predominant and responsive ammonia oxidizing prokaryotes in a red paddy soil receiving green manures. European Journal of Soil Biology,
  62. Huang T, Hu X, Gao B, Changchun Huang H, Ju X, (2018). Improved Nitrogen Management as a Key Mitigation to Net Global Warming Potential and Greenhouse Gas Intensity on the North China Plain. Soil Science Society of America Journal,
  63. Zhu G, Song X, Ju X, Zhang J, Müller C, Sylvester-Bradley R..... Rees R, (2019). Gross N transformation rates and related N2O emissions in Chinese and UK agricultural soils. Science of The Total Environment,
  64. Fan L, Yuan Y, Ying Z, Lam SK, Liu L, Zhang X, Liu H... Gu B. (2019). Decreasing farm number benefits the mitigation of agricultural non-point source pollution in China. Environ Sci Pollut R, pp. 464-472
  65. Gu B, Lam SK, Reis S, van Grinsven H, Ju X, Yan X, Zhou F... Chen D. (2019). Toward a generic analytical framework for sustainable nitrogen management: application for China.. Environ Sci Technol , pp. 1109-1118
  66. Ren C, Liu S, Van Grinsven H, Reis S, Jin S, Liu H, Gu B. (2019). The impact of farm size on agricultural sustainability. J Clean Prod,
  67. Gao B, Huang T, Ju X, Gu B, Huang W, Xu L..... Cui S, (2018). Chinese cropping systems are a net source of greenhouse gases despite soil carbon sequestration.. Global change biology, 24 (12), pp. 5590-5606
  68. Zhang C, Liu S, Wu S, Jin S, Reis S, Liu H, Gu B, (2019). Rebuilding the linkage between livestock and cropland to mitigate agricultural pollution in China. Resources, Conservation and Recycling,
  69. Song X, Liu M, Ju X, Gao B, Su F, Chen X, Rees RM. (2018). Nitrous Oxide Emissions Increase Exponentially When Optimum Nitrogen Fertilizer Rates Are Exceeded in the North China Plain.. Environmental science & technology, 52 (21), pp. 12504-12513
  70. Wu Y, Xi X, Tang X, Luo D, Gu B, Lam SK, Vitousek PM... Chen D. (2018). Policy distortions, farm size, and the overuse of agricultural chemicals in China.. Proceedings of the National Academy of Sciences of the United States of America, 115 (27), pp. 7010-7015
  71. Smith P, (2018). Managing the global land resource.. Proceedings. Biological sciences, 285 (1874),
  72. Huang T, Yang H, Huang C, Ju X, (2018). Effects of nitrogen management and straw return on soil organic carbon sequestration and aggregate-associated carbon. European Journal of Soil Science,
  73. Pang Shuijiang, Wang Xiaoyan*. 2017. Application of modified diffuse total nitrogen export coefficient model at watershed scale. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 33(18):213-223 (in Chinese)
  74. Zhang T, Chen A, Liu J, Liu H, Lei B, Zhai L..... Wang H, (2017). Cropping systems affect paddy soil organic carbon and total nitrogen stocks (in rice-garlic and rice-fava systems) in temperate region of southern China.. The Science of the total environment, pp. 1640-1649
  75. Wang H, Zhang Y, Chen A, Liu H, Zhai L, Lei B, Ren T, (2017). An optimal regional nitrogen application threshold for wheat in the North China Plain considering yield and environmental effects. Field Crops Research,
  76. Wang H, Zhang D, Zhang Y, Zhai L, Yin B, Zhou F..... Liu H, (2018). Ammonia emissions from paddy fields are underestimated in China.. Environmental pollution (Barking, Essex : 1987), pp. 482-488 Abdalla et al. (2019). A critical review of the impacts of cover crops on nitrogen leaching, net greenhouse gas balance and crop productivity. Global Change Biology, 00:1-14.
  77. Abdalla et al. (2019). Calibration and validation of the DNDC model to estimate nitrous oxide emissions and crop productivity for a summer maize-winter wheat double cropping system in Hebei, China. Biology and Fertility of Soils (under review).
  78. Shang et al. (2019). Difference in cropland N2O emission factors measured over the whole year or just the growing season: a meta-analysis. Environmental Science & Technology (under review).
  79. Yang,L., Bai,J., Zeng,N., Zhou,X., Liao,Y., Lu,Y., Rees,R.M., Nie,J. & Cao,W. 2019. Diazotroph abundance and community structure are reshaped by straw return and mineral fertilizer in rice-rice-green manure rotation. Applied Soil Ecology, 136, 11-20.
  80. Zhou,G., Cao,W., Bai,J., Xu,C., Zeng,N., Gao,S. & Rees,R.M. 2019. Non-additive responses of soil C and N to rice straw and hairy vetch (Vicia villosa Roth L.) mixtures in a paddy soil. Plant and Soil. doi.org/10.1007/s11104-018-03926-6
  81. Coskun, D., Britto, D.T., Shi, W. and Kronzucker, H.J., 2017. Nitrogen transformations in modern agriculture and the role of biological nitrification inhibition. Nature Plants, 3, 17074.
  82. Fitton, N., Datta, A., Cloy, J.M., Rees, R.M., Topp, C.F.E., Bell, M.J., Cardenas, L.M., Williams, J., Smith, K., Thorman, R., Watson, C.J., McGeough, K.I., Kuhnert, M., Hastings, A., Anthony, S., Chadwick, D. & Smith, P. 2017. Modelling Spatial and inter-annual variations of nitrous oxide emissions from UK cropland and grasslands using DailyDayCent. Agriculture, Ecosystems and Environment, 250, 1-11.
  83. Ju, X. & Gu, B. 2017. Indexes of Nitrogen Management. Acta Pedologica SInica, 54(2)
  84. Zhang, D., Wang, H.Y., Pan, J.T., Luo, J.F., Liu, J., Shen, L., Zhai, L.M., Lindsey, S., Zhang, Y.T., Lei, Q.L., Wu, S.X., Smith, P. & Liu, H.B. 2017. Nitrogen use rates need to be reduced for half of the rice paddy fields in China. Proceedings of the National Academy of Sciences, USA (in review).
  85. Abdalla, M., Hastings, A., Chadwick, D.R., Jones, D.L., Evans, C.D., Jones, M.B., Rees, R.M. & Smith, P. 2017. Critical review of the impacts of grazing intensity on soil organic carbon storage and other soil quality indicators in extensively managed grasslands. Agriculture, Ecosystems & Environment (in press).
  86. Coskun, D., Britto, D.T., Shi, W. & Kronzucker, H.J., 2017. How Plant Root Exudates Shape the Nitrogen Cycle. Trends in Plant Science (in press).
  87. Gu, B., Ju, X., Chang, S.X., Ge, Y. & Chang, J., 2017. Nitrogen use efficiencies in Chinese agricultural systems and implications for food security and environmental protection. Regional Environmental Change, 17(4), pp.1217-1227.
  88. Ju, X., Gu, B., Wu, Y.Y. & Galloway, J.N. 2016. "Reducing China’s fertilizer use by increasing farm size". Global Environmental Change, 41, 26-32.
  89. Ju, X. and Zhang, C. 2017. Nitrogen cycling and environmental impacts in upland agricultural soils in North China: A review. Journal of Integrative Agriculture, 16(0), 60345-7.
  90. Houdijk, J.G.M. and Roehe, R. 2019. Sensitivity of growth performance and crude protein conversion ratio of finisher pigs to dietary protein and essential amino acids. Advances in Animal Biosciences 10, 39.
  91. Swarbreck, S.M., Wang, M., Wang, Y., Kindred, D., Sylvester-Bradley, R., Shi, W., Bentley, A.R. and Griffiths, H., 2019. A Roadmap for Lowering Crop Nitrogen Requirement. Trends in plant science.
  92. Yue, Q., Wu, H., Sun, J., Cheng, K., Smith, P., Hillier, J., Xu, X. and Pan, G., 2019. Deriving emission factors and estimating direct nitrous oxide emissions for crop cultivation in China. Environmental science & technology.

Conference Papers/Posters

  1. Sagoo, Lizzie, Sylvester-Bradley, Roger, Ju, Xiaotang, Liu, Hongbin, Smith, Pete, et al. Developing 'N-Circle': a priorotised agenda towards 'closed-loop' agricultural nitrogen cycling?. Poster Presented at 19th Nitrogen Workshop, Skara, Sweden
  2. Kairsty Topp: “Modelling nitrous oxide emission peak” at the International Symposium Non-CO2 Greenhouse Gases (NCGG8), June 12-14, 2019 Amsterdam

Media

  1. Aberdeen Staff Visit Beijing
  2. "SRUC Crop and Soils Group Activities" in The Auger, Autumn 2016
  3. The UK China Virtual Joint Centre of Nitrogen in Agriculture kicked off in Beijing
  4. N-Circle Flyer: N-Circle: UK China Virtual Joint Centre for Closed-Loop Cycling of Nitrogen in Agriculture
  5. China, UK start three-year agricultural collaboration project
  6. New partnerships support nitrogen research and network building (CINTRIN Newsletter)
  7. "Zero Growth Policy and fertilizer innovations in China" in Fertilizer Focus, March/April 2017
  8. “China's green agricultural transition and fertilizer use" in Fertilizer Focus, March/April 2018
  9. “China: Fertilizer strategies and policies" in Fertilizer Focus, March/April 2019