[1]Low frequency of transgene flow from Bt/CpTI rice to its nontransgenic counterparts planted at close spacing. Rong, J,Song, ZP,Su, J,Xia, H,Lu, BR,Wang, F. 2005

[2]Effects of insect-resistance transgenes on fecundity in rice (Oryza sativa, Poaceae): A test for underlying costs. Chen, LY,Snow, AA,Wang, F,Lu, BR. 2006

[3]A large-scale field study of transgene flow from cultivated rice (Oryza sativa) to common wild rice (O-rufipogon) and barnyard grass (Echinochloa crusgalli). Yuan, Qian-Hua,Shi, Lei,Qian, Qian,Liu, Wu-Ge,Kuang, Ba-Geng,Zeng, Da-Li,Liao, Yi-Long,Cao, Bin,Jia, Shi-Rong. 2006

[4]Uncertainties in assessing the effect of climate change on agriculture using model simulation and uncertainty processing methods. Zhang JiaHua,Yao FengMei,Qin PengCheng,Zhang JiaHua,Zhang JiaHua,Lin ErDa,Boken, Vijendra. 2011

[5]Gene Mapping of a Mutant Mungbean (Vigna radiata L.) Using New Molecular Markers Suggests a Gene Encoding a YUC4-like Protein Regulates the Chasmogamous Flower Trait. Chen, Jingbin,Chen, Xin,Cui, Xiaoyan,Yuan, Xingxing,Chen, Jingbin,Somta, Prakit,Srinives, Peerasak. 2016

[6]Genetic Variation and Geographic Differentiation Among Populations of the Nonmigratory Agricultural Pest Oedaleus infernalis (Orthoptera: Acridoidea) in China. Sun, Wei,Dong, Hui,Su, Qian-Fu,Qian, Hai-Tao,Cong, Bin,Sun, Wei,Gao, Yue-Bo,Su, Qian-Fu,Bai, Hong-Yan,Zhang, Zhu-Ting. 2015

[7]Genetic phylogeography and maternal lineages of 18 Chinese black goat breeds. Zhong, Tao,Wang, Lin Jie,Li, Li,Niu, Li Li,Wang, Jie,Jin, Peng Fei,Zhao, Wei,Zhang, Hong Ping,Zhao, Qian Jun,Ma, Yue Hui. 2013

[8]Characterization and comparison of transgenic Artemisia annua GYR and wild-type NON-GYR plants in an environmental release trial. Liu, H.,Wang, J. B.,Bai, L.,Jiang, L. X.,Tang, X. M.,Liu, H.,Wu, G. G.,Bai, L.,Pan, A. H.,Li, P.,Zhao, K.,Wu, X.,Jiang, W.,Lv, B. B.,Pan, A. H.,Jia, J. W.,Tang, X. M.. 2016

[9]Identification and utilization of cleistogamy gene cl7(t) in rice (Oryza sativa L.). Ni, Da-Hu,Duan, Yong-Bo,Yang, Ya-Chun,Wei, Peng-Cheng,Li, Hao,Song, Feng-Shun,Ni, Jin-Long,Yang, Jian-Bo,Li, Juan,Duan, Yong-Bo,Wei, Peng-Cheng,Li, Hao,Xu, Rong-Fang,Li, Chun-Rong,Liang, Dan-Dan. 2014

[10]Genetic diversity and population structure of Rhizoctonia solani AG-1 IA, the causal agent of rice sheath blight, in South China. Zou, Cheng-Jia,Chen, Jie-Ling,Tang, Fang,Zhou, Er-Xun,Zou, Cheng-Jia,Yi, Run-Hua. 2014

[11]Assessment of genetic variability in population of Ditylenchus destructor (Thorne 1945) (Tylenchida: Anguinidae) from China. Huang, Wen-Kun,Peng, De-Liang,Zhang, Dong-Sheng,Jiang, Hong-Yun,Peng, Huan,Long, Hai-Bo,Ding, Zhong.

[12]Pollen-mediated gene flow in Chinese commercial fields of glufosinate-resistant canola (Brassica napus). Cai Li,Zhou Biwen,Guo XueLan,Dong CaiHua,Hu XiaoJia,Liu ShengYi,Cai Li,Hou MingSheng.

[13]Genetic diversity and differentiation of Ankole cattle populations in Uganda inferred from microsatellite data. Kugonza, D. R.,Mpairwe, D.,Kiwuwa, G. H.,Kugonza, D. R.,Jianlin, H.,Okeyo, A. M.,Hanotte, O.,Jianlin, H.,Nabasirye, M..

[14]Gene flow among different teosinte taxa and into the domesticated maize gene pool. Warburton, Marilyn L.,Wilkes, Garrison,Taba, S.,Dreisigacker, Susanne,Bedoya, Claudia,Prasanna, B. M.,Charcosset, Alain,Mir, Celine,Dumas, Fabrice,Madur, Delphine,Xie, C. X.,Hearne, Sarah,Franco, Jorge.

[15]Analysis of genetic diversity among different geographic populations of Athetis lepigone using ISSR molecular markers. Ahmed, Tofael,Liu, Yu-juan,He, Kang-lai,Wang, Zhen-ying,Wang, Zhen-ying.

[16]Natural introgression from cultivated soybean (Glycine max) into wild soybean (Glycine soja) with the implications for origin of populations of semi-wild type and for biosafety of wild species in China. Wang, Ke-Jing,Li, Xiang-Hua,Zhang, Ji-Jun,Chen, Hong,Zhang, Zhi-Liang,Yu, Guo-Dong.

[17]Evidence of genetic recombination in wheat yellow rust populations of a Chinese oversummering area. Mboup, M.,Leconte, M.,Gautier, A.,de Vallavieille-Pope, C.,Enjalbert, J.,Wan, A. M.,Chen, W.,Wan, A. M..

[18]Comparative analyses of genetic/epigenetic diversities and structures in a wild barley species (Hordeum brevisubulatum) using MSAP, SSAP and AFLP. Liu, X. M.,Liu, B.,Li, Y. D.,Guo, W. L.,Shan, X. H.,Wu, Y.,Zhang, M. Z.,Yuan, Y. P.. 2012

[19]Genetic diversity and gene flow dynamics revealed in the rare mixed populations of wild soybean (Glycine soja) and semi-wild type (Glycine gracilis) in China. Wang, Ke-Jing,Li, Xiang-Hua. 2013

[20]High gene flows promote close genetic relationship among fine wool sheep populations (Ovis aries) in China. Han Ji-long,Guo Ting-ting,Liu Jian-bin,Niu Chun-e,Yuan Chao,Yue Yao-jing,Yang Bo-hui,Yang Min. 2016