[1]Review grain yield and nitrogen use efficiency in rice production regions in China. Che Sheng-guo,Zhao Bing-qiang,Li Yan-ting,Yuan Liang,Li Wei,Lin Zhi-an,Hu Shu-Wen,Shen Bing. 2015

[2]Mapping QTLs for nitrogen uptake in relation to the early growth of wheat (Triticum aestivum L.). An, Diaoguo,Su, Junying,Liu, Quanyou,Zhu, Yongguan,Tong, Yiping,Li, Junming,Jing, Ruilian,Li, Bin,Li, Zhensheng. 2006

[3]Effect of nitrogen form and root-zone pH on growth and nitrogen uptake of tea (Camellia sinensis) plants. Ruan, Jianyun,Gerendas, Joska,Hardter, Rolf,Sattelmacher, Burkhard.

[4]Effects of the fungal endophyte Phomopsis liquidambari on nitrogen uptake and metabolism in rice. Yang, Bo,Wang, Xiao-Mi,Ma, Hai-Yan,Jia, Yong,Dai, Chuan-Chao,Li, Xia.

[5]Improving nitrogen fertilization in rice by site-specific N management. A review. Peng, Shaobing,Buresh, Roland J.,Dobermann, Achim,Huang, Jianliang,Cui, Kehui,Zhong, Xuhua,Zou, Yingbin,Tang, Qiyuan,Yang, Jianchang,Wang, Guanghuo,Liu, Yuanying,Hu, Ruifa,Zhang, Fusuo. 2010

[6]QTL Mapping by Whole Genome Re-sequencing and Analysis of Candidate Genes for Nitrogen Use Efficiency in Rice. Xia, Xiuzhong,Zhang, Zongqiong,Nong, Baoxuan,Zeng, Yu,Deng, Guofu,Li, Danting,Xiong, Faqian,Wu, Yanyan,Gao, Ju. 2017

[7]Identification and characterization of quantitative trait loci for grain yield and its components under different nitrogen fertilization levels in rice (Oryza sativa L.). Tong, Han-hua,Xing, Yong-zhong,Luo, Li-jun,Tong, Han-hua,Chen, Liang,Li, Wei-ping,Mei, Han-wei,Yu, Xing-qiao,Xu, Xiao-yan,Luo, Li-jun,Tong, Han-hua,Zhang, Shan-qing. 2011

[8]A Kelch Motif-Containing Serine/Threonine Protein Phosphatase Determines the Large Grain QTL Trait in Rice. Hu, Zejun,Sun, Fan,Xin, Xiaoyun,Qian, Xi,Yang, Jingshui,Luo, Xiaojin,Hu, Zejun,He, Haohua,Wang, Wenxiang,Zhang, Shiyong. 2012

[9]Fine Mapping of qTGW3-1, a QTL for 1 000-Grain Weight on Chromosome 3 in Rice. Zhang Qiang,Yao Guo-xin,Hu Guang-long,Chen Chao,Tang Bo,Zhang Hong-liang,Li Zi-chao,Zhang Qiang,Yao Guo-xin. 2012

[10]A novel functional gene associated with cold tolerance at the seedling stage in rice. Zhao, Junliang,Zhang, Shaohong,Dong, Jingfang,Yang, Tifeng,Mao, Xingxue,Liu, Qing,Wang, Xiaofei,Liu, Bin,Zhao, Junliang,Zhang, Shaohong,Dong, Jingfang,Yang, Tifeng,Mao, Xingxue,Liu, Qing,Wang, Xiaofei,Liu, Bin. 2017

[11]Integrating Small RNA Sequencing with QTL Mapping for Identification of miRNAs and Their Target Genes Associated with Heat Tolerance at the Flowering Stage in Rice. Liu, Qing,Yang, Tifeng,Zhang, Shaohong,Mao, Xingxue,Zhao, Junliang,Wang, Xiaofei,Dong, Jingfang,Liu, Bin,Liu, Qing,Yang, Tifeng,Zhang, Shaohong,Mao, Xingxue,Zhao, Junliang,Wang, Xiaofei,Dong, Jingfang,Liu, Bin,Yu, Ting. 2017

[12]QTL mapping of grain weight in rice and the validation of the QTL qTGW3.2. Shao-qing, Tang,Gao-neng, Shao,Xiang-jin, Wei,Ming-liang, Chen,Zhong-hua, Sheng,Ju, Luo,Gui-ai, Jiao,Li-hong, Xie,Pei-song, Hu.

[13]Identification of QTLs associated with tissue culture response through sequencing-based genotyping of RILs derived from 93-11 x Nipponbare in rice (Oryza sativa). Li, Sujuan,Yan, Song,Zou, Guihua,Tao, Yuezhi,Li, Sujuan,Qian, Qian,Wang, A-hong,Huang, Xuehui,Han, Bin,Qian, Qian.

[14]Genetic Analysis of Cold Tolerance at Seedling Stage and Heat Tolerance at Anthesis in Rice (Oryza sativa L.). Cheng Li-rui,Uzokwe, Veronica,Meng Li-jun,Wang Yun,Sun Yong,Zhu Ling-hua,Xu Jian-long,Li Zhi-kang,Wang Jun-min,Li Zhi-kang. 2012

[15]Dissecting the genetic basis for the effect of rice chalkiness, amylose content, protein content, and rapid viscosity analyzer profile characteristics on the eating quality of cooked rice using the chromosome segment substitution line population across eight environments. Liu, Xiaolu,Wan, Jianmin,Liu, Xiaolu,Wan, Jianmin,Wan, Xiangyuan,Ma, Xiaodong,Wan, Jianmin,Wan, Xiangyuan.

[16]QTL mapping for rice grain quality: a strategy to detect more QTLs within sub-populations. Xu, Feifei,Huang, Yan,Chen, Yaling,Tong, Chuan,Bao, Jinsong,Xu, Feifei,Huang, Yan,Chen, Yaling,Tong, Chuan,Bao, Jinsong,Sun, Chengxiao.

[17]Identification and pyramiding of QTLs for cold tolerance at the bud bursting and the seedling stages by use of single segment substitution lines in rice (Oryza sativa L.). Yang, Tifeng,Zhang, Shaohong,Zhao, Junliang,Liu, Qing,Huang, Zhanghui,Mao, Xingxue,Dong, Jingfang,Wang, Xiaofei,Liu, Bin,Yang, Tifeng,Zhang, Guiquan,Yang, Tifeng,Zhang, Shaohong,Zhao, Junliang,Liu, Qing,Huang, Zhanghui,Mao, Xingxue,Dong, Jingfang,Wang, Xiaofei,Liu, Bin.

[18]Transmission of important chromosomal regions under selection revealed in rice pedigree breeding programs. Zhou, Jiangbo,Zhu, Lili,He, Guangcun,Zhang, Yuan-Ming,Lu, Haiyan,You, Aiqing.

[19]Identification of quantitative trait loci for cadmium accumulation and distribution in rice (Oryza sativa). Yan, Yong-Feng,Lestari, Puji,Lee, Kyu-Jong,Kim, Moon Young,Lee, Suk-Ha,Lee, Byun-Woo,Yan, Yong-Feng,Lee, Kyu-Jong,Kim, Moon Young,Lee, Suk-Ha,Lee, Byun-Woo,Yan, Yong-Feng,Lestari, Puji.

[20]Mapping quantitative trait loci for heat tolerance at anthesis in rice using chromosomal segment substitution lines. Zhao, Lei,Lei, Jianguo,Zhu, Shan,Chen, Hongping,Huang, Renliang,Peng, Zhiqin,Tu, Qinghua,Shen, Xianhua,Yan, Song,Zhao, Lei,Lei, Jianguo,Huang, Yingjin,Zhu, Shan,Peng, Zhiqin,Zhao, Lei,Huang, Yingjin,Lei, Jianguo,Huang, Yingjin,Zhu, Shan,Peng, Zhiqin,Tu, Qinghua.