[1]Differences in rice yield and CH4 and N2O emissions among mechanical planting methods with straw incorporation in Jianghuai area, China. Hang, Xiaoning,Jiang, Yu,He, Ruiyin,Zhang, Weijian,Song, Chunlian,Zhang, Xin,Deng, Aixing,Lu, Ming,Zhang, Weijian.

[2]The fate of N-15-labelled urea in an alkaline calcareous soil under different N application rates and N splits. Wang, Xiubin,Zhou, Wei,Liang, Guoqing,Pei, Xuexia,Li, Kejiang.

[3]Recovery efficiency and loss of N-15-labelled urea in a rice-soil system in the upper reaches of the Yellow River basin. Zhang, Qingwen,Yang, Zhengli,Zhang, Hui,Yi, Jun,Zhang, Hui. 2012

[4]Nitrogen losses and greenhouse gas emissions under different N and water management in a subtropical double-season rice cropping system. Liang, Kaiming,Zhong, Xuhua,Huang, Nongrong,Liu, Yanzhuo,Pan, Junfeng,Peng, Bilin,Hu, Xiangyu,Fu, Youqiang,Lampayan, Rubenito M.,Lampayan, Rubenito M..

[5]Effects of planting system, plant density and flower removal on yield and quality of hybrid seed in cotton. Dong, HZ,Zhang, DM,Tang, W,Li, WJ,Li, ZH. 2005

[6]Reduction in nitrogen fertilizer use results in increased rice yields and improved environmental protection. Wang, Huaiyu,Hu, Ruifa,Chen, Xiaoxue,Zheng, Zuting,Zhong, Xuhua,Huang, Nongrong,Xue, Chunling. 2017

[7]Effect of rice panicle size on paddy field CH4 emissions. Sun, Yanni,Zhang, Yi,Hang, Xiaoning,Zhang, Weijian,Tian, Yunlu,Hang, Xiaoning,Deng, Aixi,Zhang, Jun,Zhang, Weijian.

[8]EFFECT OF ENHANCED PANICLE FERTILIZATION ON NITROGEN USE EFFICIENCY TRAITS OF RICE (ORYZA SATIVA) WITH DIFFERENT PLANTING PATTERNS. Chen, Song,Wang, Dangying,Xu, Chunmei,Zhang, Xiufu,Zheng, Xi. 2014

[9]Effects of Dense Planting with Less Basal N Fertilization on Rice Yield, N Use Efficiency and Greenhouse Gas Emissions. Zhu, Xiangcheng,Li, Zhijie,Deng, Aixing,Zhang, Jun,Zhang, Weijian,Wang, Xiaofei,Zhang, Zhenping. 2015

[10]Response of transplanted oilseed rape to zinc placement and root pruning. Bell, RW,Lu, ZG,Li, J,Hu, DJ,Xie, ZC. 2004

[11]Dense planting with less basal nitrogen fertilization might benefit rice cropping for high yield with less environmental impacts. Zhu, Xiangcheng,Zhu, Xiangcheng,Zhang, Jun,Deng, Aixing,Zhang, Weijian,Zhang, Zhenping.

[12]Evaluation of WARM for different establishment techniques in Jiangsu (China). Pagani, Valentina,Francone, Caterina,Bregaglio, Simone,Acutis, Marco,Confalonieri, Roberto,Wang, ZhiMing,Qiu, Lin.

[13]Comparison of the rise of water level in the typical catchments, Three Gorges Reservoir area. Liao Xiao-yong,Xia Zhong-mei,He Jing. 2016

[14]Preliminary study of phosphorus runoff and drainage from a paddy field in the Taihu Basin. Zuo, QA,Lu, CA,Zhang, WL. 2003

[15]Water isotope technology application for sustainable eco-environmental construction: Effects of landscape characteristics on water yield in the alpine headwater catchments of Tibetan Plateau for sustainable eco-environmental construction. Liu, Yuhong,Yu, Junbao,Shao, Hongbo,Liu, Fude,Dorland, Edu,Zhang, Jianping,Liu, Yuhong,Liu, Fude,An, Shuqing,Shao, Hongbo.

[16]Grass hedges for the protection of sloping lands from runoff and soil loss: An example from Northern China. Huang, D.,Han, J. G.,Wang, K.,Wu, W. L.,Huang, D.,Wu, J. Y.,Teng, W. J.,Sardo, V.. 2010

[17]Assessing impacts of alternative fertilizer management practices on both nitrogen loading and greenhouse gas emissions in rice cultivation. Zhao, Zheng,Yue, Yubo,Sha, Zhimin,Cao, Linkui,Li, Changsheng,Deng, Jia,Zhang, Hanlin,Gao, Maofang. 2015

[18]Validating the runoff from the PRECIS model using a large-scale routing model. Cao, Lijuan,Dong, Wenjie,Xu, Yinlong,Zhang, Yong,Sparrow, Michael. 2007

[19]Applicability evaluation of the SWIM at river basins of the black soil region in Northeast China: A case study of the upper and middle Wuyuer River basin. Yang, Zhiyuan,Zang, Shuying,Gao, Chao,Yang, Xiuchun. 2017

[20]Simulation of Hydrological Functions of Typical Vegetations in Poyang Lake Basin. Cai Yulin,Yangli,Cai Yulin,Xu Juan. 2013