[1]Germination, growth, photosynthesis and ionic balance in Setaria viridis seedlings subjected to saline and alkaline stress. Guo, Rui,Zhou, Ji,Hao, WeiPing,Gong, DaoZhi,Zhong, XiuLi,Gu, FengXue,Liu, Qi,Xia, Xu,Tian, JiaNi,Li, HaoRu. 2011

[2]Germination, Growth, Chlorophyll Fluorescence and Ionic Balance in Linseed Seedlings Subjected to Saline and Alkaline Stresses. Guo, Rui,Hao, WeiPing,Gu, FengXuex,Liu, Qi,Li, HaoRu,Xia, Xu,Mao, LiLi,Zhou, Ji.

[3]Response of transgenic rice at germination traits under salt and alkali stress. Deng, Xiang-Xiong,Zhang, Xiao-Qin,Song, Xiu-Juan,Lai, Kai-Kai,Xin, Yue-Yong,Wang, Hui-Zhong,Xue, Da-Wei,Deng, Xiang-Xiong,Song, Xiu-Juan,Lai, Kai-Kai,Guo, Long-Biao. 2011

[4]Influence of Rhizoglomus irregulare on nutraceutical quality and regeneration of Lycium barbarum leaves under salt stress. Liu, Hongguang,Liu, Hongguang,Wang, Yajun,Chen, Hui,Tang, Ming.

[5]Analysis of differentially expressed genes and adaptive mechanisms of Prunus triloba Lindl. under alkaline stress. Wang, Yongqing,Liu, Jia,Liu, Jia,Li, Qingtian. 2017

[6]Identification of QTLs associated with salt or alkaline tolerance at the seedling stage in rice under salt or alkaline stress. Liang, Jing-long,Zhao, Zheng-wu,Zhang, Tao,Liang, Jing-long,Qu, Ying-ping,Ma, Xiao-ding,Cao, Gui-lan,Han, Long-zhi,Yang, Chun-gang,Zhang, San-yuan.

[7]Identification of quantitative trait loci for the dead leaf rate and the seedling dead rate under alkaline stress in rice. Qi, Dongling,Cao, Guilan,Han, Longzhi,Qi, Dongling,Guo, Guizhen,Zhang, Junguo,Zhang, Sanyuan,Han, Longzhi,Lee, Myung-Chul,Suh, Seok-Cheol,Zhou, Qingyang. 2008

[8]Genetic diversity and aggressiveness of Fusarium species isolated from soybean in Alberta, Canada. Zhou, Qixing,Chang, Kan-Fa,Hwang, Sheau-Fang,Fu, Heting,Turnbull, George D.,Li, Nana,Strelkov, Stephen E.,Conner, Robert L.,McLaren, Debra L.,Harding, Michael W.. 2018

[9]High-Density Genetic Mapping Identifies New Major Loci for Tolerance to Low-Phosphorus Stress in Soybean. Zhang, Dan,Li, Hongyan,Chu, Shanshan,Lv, Haiyan,Wang, Jinshe,Zhang, Hengyou,Hu, Zhenbin,Yu, Deyue. 2016

[10]Geographical distribution of GmTfl1 alleles in Chinese soybean varieties. Liu, Guifeng,Zhao, Lin,Qiu, Lijuan,Liu, Ying,Chang, Ruzhen,Guan, Rongxia,Qiu, Lijuan,Averitt, Benjamin J.,Zhang, Bo,Ma, Yansong,Luan, Xiaoyan. 2015

[11]Genome-wide analysis of the Hsf family in soybean and functional identification of GmHsf-34 involvement in drought and heat stresses. Li, Pan-Song,Chai, Shou-Cheng,Li, Pan-Song,Yu, Tai-Fei,He, Guan-Hua,Chen, Ming,Zhou, Yong-Bin,Xu, Zhao-Shi,Ma, You-Zhi. 2014

[12]Screening Chinese soybean genotypes for Agrobacterium-mediated genetic transformation suitability. Song, Zhang-yue,Tian, Jing-luan,Fu, Wei-zhe,Li, Lin,Lu, Ling-hong,Zhou, Lian,Shou, Hui-xia,Shan, Zhi-hui,Tang, Gui-xiang. 2013

[13]A CIB1-LIKE transcription factor GmCIL10 from soybean positively regulates plant flowering. Yang DeGuang,Zhao Wang,Meng YingYing,Li HongYu,Liu Bin. 2015

[14]Stability of growth periods traits for soybean cultivars across multiple locations. Liu Zhang-xiong,Chang Ru-zhen,Qiu Li-juan,Wang Xiao-bo,Yang Chun-yan,Xu Ran,Zhang Li-feng,Lu Wei-guo,Wang Qian,Wei Su-hong,Yang Chun-ming,Wang Hui-cai,Wang Rui-zhen,Zhou Rong,Chen Huai-zhu. 2016

[15]Purification and characterization of beta-glucosidase from newly isolated Aspergillus sp MT-0204. Qi, Bin,Liu, Xianjin,Qi, Bin,Wang, Limei. 2009

[16]The Soybean Basic Helix-Loop-Helix Transcription Factor ORG3-Like Enhances Cadmium Tolerance via Increased Iron and Reduced Cadmium Uptake and Transport from Roots to Shoots. Xu, Zhaolong,Liu, Xiaoqing,He, Xiaolan,Xu, Ling,Huang, Yihong,Shao, Hongbo,Zhang, Dayong,Shao, Hongbo,Tang, Boping,Ma, Hongxiang. 2017

[17]Aspects of soybean insect resistance breeding in China. Wang, S. 2004

[18]QTL Mapping of Isoflavone, Oil and Protein Contents in Soybean (Glycine max L. Merr.). Liang Hui-zhen,Yu Yong-liang,Wang Shu-feng,Lian Yun,Wang Ting-feng,Wei Yan-li,Gong Peng-tao,Fang Xuan-jun,Liu Xue-yi,Zhang Meng-chen. 2010

[19]RNAi-mediated SMV P3 cistron silencing confers significantly enhanced resistance to multiple Potyvirus strains and isolates in transgenic soybean. Yang, Xiangdong,Niu, Lu,Zhang, Wei,Yang, Jing,Xing, Guojie,He, Hongli,Guo, Dongquan,Du, Qian,Qian, Xueyan,Yao, Yao,Li, Qiyun,Dong, Yingshan. 2018

[20]Genome-wide identification and expression analysis of the CPP-like gene family in soybean. Zhang, L.,Wang, Y. M.,Yuan, C. P.,Zhang, Y. Y.,Li, H. Y.,Dong, Y. S.,Zhao, H. K.,Yan, X. F.,Li, Q. Y.. 2015