[1]Genetic overlap of QTL associated with low-temperature tolerance at germination and seedling stage using BILs in soybean. Zhang, Wen-Bo,Jiang, Hong-wei,Liu, Chun-Yan,Hu, Guo-Hua,Zhang, Wen-Bo,Jiang, Hong-wei,Xin, Da-Wei,Chen, Qing-Shan,Hu, Guo-Hua,Li, Can-Dong,Zhang, Wen-Bo,Qiu, Peng-Cheng,Chen, Fei-Long. 2012

[2]Characterization of Genetic Basis on Synergistic Interactions between Root Architecture and Biological Nitrogen Fixation in Soybean. Yang, Yongqing,Yang, Yongqing,Li, Xinxin,Ai, Wenqin,Liu, Dong,Qi, Wandong,Liao, Hong,Zhao, Qingsong,Zhang, Mengchen,Yang, Chunyan,Ai, Wenqin,Liu, Dong,Qi, Wandong. 2017

[3]Identification of QTLs for seed and pod traits in soybean and analysis for additive effects and epistatic effects of QTLs among multiple environments. Yang, Zhe,Xin, Dawei,Sun, Yanan,Qi, Zhaoming,Chen, Qingshan,Yang, Zhe,Jiang, Hongwei,Han, Xue,Yang, Zhe,Liu, Chunyan,Hu, Guohua.

[4]Dissection of genetic overlap of salt tolerance QTLs at the seedling and tillering stages using backcross introgression lines in rice. Zang JinPing,Sun Yong,Wang Yun,Yang Jing,Li Fang,Zhou YongLi,Zhu LingHua,Xu JianLong,Jessica, Reys,Mohammadhosein, Fotokian,Li ZhiKang.

[5]Novel loci for field resistance to black-streaked dwarf and stripe viruses identified in a set of reciprocal introgression lines of rice (Oryza sativa L.). Zhai, Huqu,Zhu, Linghua,Uzokwe, Veronica N. E.,Xu, Jianlong,Li, Zhikang,Yang, Jie,Zhong, Weigong,Fan, Fangjun,Yang, Jinhuan,Wang, Jun,Zhu, Jinyan,Ali, A. Jauhar,Li, Zhikang. 2012

[6]Dynamic QTL and epistasis analysis on seedling root traits in upland cotton. Liang, Qingzhi,Li, Pengbo,Hu, Cheng,Hua, Hua,Li, Zhaohu,Hua, Jinping,Rong, Yihua,Wang, Kunbo.

[7]Identification of stable QTLs controlling fiber traits properties in multi-environment using recombinant inbred lines in Upland cotton (Gossypium hirsutum L.). Shang, Lianguang,Liang, Qingzhi,Wang, Xiaocui,Abduweli, Abdugheni,Ma, Lingling,Cai, Shihu,Hua, Jinping,Wang, Yumei,Wang, Kunbo.

[8]Association mapping analysis of fiber yield and quality traits in Upland cotton (Gossypium hirsutum L.). Mulugeta Seyoum Ademe,Du, Xiongming,Jia, Yinhua,Shoupu He,Zhaoe Pan,Junling Sun,Qinglian Wang,Hongde Qin,Jinhai Liu,Hui Liu,Jun Yang,Dongyong Xu,Jinlong Yang,Zhiying Ma,Jinbiao Zhang,Zhikun Li,Zhongmin Cai,Xuelin Zhang,Xin Zhang,Aifen Huang,Xianda Yi,Guanyin Zhou,Lin Li,Haiyong Zhu,Baoyin Pang,Liru Wang,Yinhua Jia,Xiongming Du.

[9]Molecular dissection of the primary sink size and its related traits in rice. Xu, JL,Yu, SB,Luo, LJ,Zhong, DB,Mei, HW,Li, ZK. 2004

[10]Fine mapping and identification of candidate genes for a QTL affecting Meloidogyne incognita reproduction in Upland cotton. Kumar, Pawan,He, Yajun,Singh, Rippy,Shen, Xinlian,Chee, Peng W.,Davis, Richard F.,Guo, Hui,Paterson, Andrew H.,Peterson, Daniel G.,Nichols, Robert L.,Shen, Xinlian,He, Yajun. 2016

[11]Quantitative trait loci for leaf chlorophyll fluorescence traits in wheat. Zhang, Zheng-Bin,Xu, Ping,Jia, Ji-Zeng,Zhou, Rong-Hua. 2010

[12]Joint-linkage mapping and GWAS reveal extensive genetic loci that regulate male inflorescence size in maize. Wu, Xun,Li, Yongxiang,Shi, Yunsu,Song, Yanchun,Zhang, Dengfeng,Li, Chunhui,Li, Yu,Wang, Tianyu,Buckler, Edward S.,Buckler, Edward S.,Zhang, Zhiwu,Wu, Xun,Zhang, Zhiwu.

[13]Genome-wide introgression lines and their use in genetic and molecular dissection of complex phenotypes in rice (Oryza sativa L.). Li, ZK,Fu, BY,Gao, YM,Xu, JL,Ali, J,Lafitte, HR,Jiang, YZ,Rey, JD,Vijayakumar, CHM,Maghirang, R,Zheng, TQ,Zhu, LH.

[14]Identification of quantitative trait loci associated with soybean seed protein content using two populations derived from crosses between Glycine max and Glycine soja. Yan, Long,Xing, Li-Li,Chang, Ru-Zhen,Qiu, Li-Juan,Yan, Long,Yang, Chun-Yan,Zhang, Meng-Chen.

[15]Genome-wide assessment of population structure, linkage disequilibrium and resistant QTLs in Chinese wild grapevine. Zhang, Ying,Fan, Xiucai,Jiang, Jianfu,Sun, Haisheng,Liu, Chonghuai,Feng, Li,Zheng, Xian-bo.

[16]Quantitative trait loci for the number of vertebrae on Sus scrofa chromosomes 1 and 7 independently influence the numbers of thoracic and lumbar vertebrae in pigs. Zhang Long-chao,Liu Xin,Liang Jing,Yan Hua,Zhao Ke-bin,Li Na,Pu Lei,Shi Hui-bi,Zhang Yue-bo,Wang Li-gang,Wang Li-xian. 2015

[17]High-density genetic map construction and QTLs analysis of grain yield-related traits in Sesame (Sesamum indicum L.) based on RAD-Seq techonology. Wu, Kun,Liu, Hongyan,Yang, Minmin,Wu, Wenxiong,Zuo, Yang,Zhao, Yingzhong,Tao, Ye,Ma, Huihui. 2014

[18]Fine Mapping Identifies a New QTL for Brown Rice Rate in Rice (Oryza Sativa L.). Ren, Deyong,Rao, Yuchun,Huang, Lichao,Leng, Yujia,Hu, Jiang,Zhang, Guangheng,Zhu, Li,Gao, Zhenyu,Dong, Guojun,Guo, Longbiao,Qian, Qian,Zeng, Dali,Rao, Yuchun,Lu, Mei. 2016

[19]Molecular mapping of quantitative trait loci for zinc toxicity tolerance in rice seedling (Oryza sativa L.). Dong, YJ,Ogawa, T,Lin, DZ,Koh, HJ,Kamiunten, H,Matsuo, M,Cheng, SH. 2006

[20]Detection of QTLs controlling fast kernel dehydration in maize (Zea mays L.). Qian, Y. L.,Guo, J.,Wang, J.,Qi, Y. C.,Li, T. C.,Zhang, W.,Ruan, L.,Zuo, X. L.,Zhang, X. Q.,Wang, L. F.,Chen, J.,Chen, B. R.,Lv, G. H.,Wu, Z. C.. 2016