[1]Effect of maize-legume intercropping on soil nitrate and ammonium accumulation. Huang, Jian-xiong,Sui, Peng,Nie, Sheng-wei,Wang, Bing-bing,Nie, Zi-jin,Gao, Wang-sheng,Chen, Yuan-quan,Nie, Sheng-wei.

[2]Soil Nitrous Oxide Emissions Under Maize-Legume Intercropping System in the North China Plain. Huang Jian-xiong,Chen Yuan-quan,Sui Peng,Nie Sheng-wei,Gao Wang-sheng,Nie Sheng-wei. 2014

[3]基因枪介导法获得转BtCrylAc基因抗虫玉米植株的研究. 铁双贵,柏松,岳润清,齐建双,王延召,孙静,陈小洁,田保明. 2012

[4]Effect of maize intercropped with alfalfa and sweet clover on soil carbon dioxide emissions during the growing season in North China Plain. Huang, Jian-xiong,Sui, Peng,Nie, Sheng-wei,Gao, Wang-sheng,Chen, Yuan-quan,Nie, Sheng-wei. 2013

[5]Impacts of maize intercropping with ryegrass and alfalfa on environment in fields with nitrogen fertilizer over-dose. Nie, Sheng-wei,Chen, Yuan-quan,Sui, Peng,Huang, Jian-xiong,Nie, Sheng-wei,Egrinya, Enejin A.. 2012

[6]Crop productivity and nutrient use efficiency as affected by long-term fertilisation in North China Plain. Wang, Yingchun,Wang, Enli,Smith, Chris J.,Wang, Yingchun,Huang, Shaomin,Wang, Daolong,Ma, Yibing,Wang, Ligang.

[7]Dissection of the genetic architecture for grain quality-related traits in three RIL populations of maize (Zea mays L.). Wang, Zhiyong,Liu, Na,Ku, Lixia,Tian, Zhiqiang,Shi, Yong,Guo, Shulei,Su, Huihui,Zhang, Liangkun,Ren, Zhenzhen,Li, Guohui,Wang, Xiaobo,Zhu, Yuguang,Chen, Yanhui,Wang, Zhiyong,Liu, Na,Ku, Lixia,Tian, Zhiqiang,Shi, Yong,Guo, Shulei,Su, Huihui,Zhang, Liangkun,Ren, Zhenzhen,Li, Guohui,Wang, Xiaobo,Zhu, Yuguang,Chen, Yanhui,Liu, Na,Qi, Jianshuang,Zhang, Xin.

[8]ZD958 is a low-nitrogen-efficient maize hybrid at the seedling stage among five maize and two teosinte lines. Han, Jienan,Wang, Lifeng,Zheng, Hongyan,Pan, Xiaoying,Chen, Fanjun,Li, Xuexian,Wang, Lifeng,Li, Huiyong.

[9]Transcriptomic analysis of maize mature embryos from an elite maize hybrid Zhengdan958 and its parental lines. Li, Huiyong,Cao, Yanyong,Wang, Lifeng,Zhang, Yan,Li, Jingjing,Wang, Hao,Tang, Baojun,Liu, Tingsong.

[10]Epistatic and QTLxenvironment interaction effects on leaf area-associated traits in maize. Wei, Xiaomin,Wang, Xiaobo,Zhou, Jinlong,Shi, Yong,Wang, Huitao,Dou, Dandan,Song, Xiaoheng,Li, Guohui,Ku, Lixia,Chen, Yanhui,Wei, Xiaomin,Wang, Xiaobo,Zhou, Jinlong,Shi, Yong,Wang, Huitao,Dou, Dandan,Song, Xiaoheng,Li, Guohui,Ku, Lixia,Chen, Yanhui,Wei, Xiaomin,Guo, Shulei.

[11]Detection of epistatic and environmental interaction QTLs for leaf orientation-related traits in maize. Shi, Yong,Wang, Xiaobo,Guo, Shulei,Ren, Zhenzhen,Ku, Lixia,Zhu, Yuguang,Li, Guohui,Ren, Zhaobin,Chen, Yanhui,Shi, Yong,Wang, Xiaobo,Guo, Shulei,Ren, Zhenzhen,Ku, Lixia,Zhu, Yuguang,Li, Guohui,Ren, Zhaobin,Chen, Yanhui,Qi, Jianshuang,Zhang, Xin.

[12]Genetic analysis of leaf morphology underlying the plant density response by QTL mapping in maize (Zea mays L.). Ku, Lixia,Ren, Zhenzhen,Shi, Yong,Su, Huihui,Wang, Zhiyong,Li, Guohui,Wang, Xiaobo,Zhu, Yuguang,Zhou, Jinlong,Chen, Yanhui,Ku, Lixia,Ren, Zhenzhen,Shi, Yong,Su, Huihui,Wang, Zhiyong,Li, Guohui,Wang, Xiaobo,Zhu, Yuguang,Zhou, Jinlong,Chen, Yanhui,Chen, Xiao,Qi, Jianshuang,Zhang, Xin.

[13]Identification and Fine Mapping of rhm1 Locus for Resistance to Southern Corn Leaf Blight in Maize. Zhao, Yuanzeng,Lu, Xiaomin,Liu, Chaoxian,Guan, Haiying,Zhang, Mei,Li, Zhongfeng,Cai, Hongwei,Lai, Jinsheng,Zhao, Yuanzeng,Lu, Xiaomin,Liu, Chaoxian,Guan, Haiying,Zhang, Mei,Li, Zhongfeng,Cai, Hongwei,Lai, Jinsheng,Zhao, Yuanzeng,Lu, Xiaomin. 2012

[14]Isolation and Analysis of Drought-Induced Genes in Maize Roots. Li Hui-yong,Huang Shu-hua,Shi Yun-su,Song Yan-chun,Zhong Zhong-bao,Wang Guo-ying,Wang Tian-yu,Li Yu,Li Hui-yong. 2009

[15]Transcriptome Analysis of Cadmium-Treated Roots in Maize (Zea mays L.). Yue, Runqing,Lu, Caixia,Qi, Jianshuang,Han, Xiaohua,Yan, Shufeng,Guo, Shulei,Liu, Lu,Fu, Xiaolei,Chen, Nana,Yin, Haiyan,Chi, Haifeng,Tie, Shuanggui,Yue, Runqing,Lu, Caixia,Qi, Jianshuang,Han, Xiaohua,Yan, Shufeng,Guo, Shulei,Liu, Lu,Fu, Xiaolei,Chen, Nana,Yin, Haiyan,Chi, Haifeng,Tie, Shuanggui. 2016

[16]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

[17]Enhancing phosphorus uptake efficiency through QTL-based selection for root system architecture in maize. Gu, Riliang,Chen, Fanjun,Long, Lizhi,Cai, Hongguang,Liu, Zhigang,Yang, Jiabo,Wang, Lifeng,Mi, Guohua,Zhang, Fusuo,Yuan, Lixing,Gu, Riliang,Li, Huiyong,Li, Junhui,Cai, Hongguang,Wang, Lifeng,Li, Huiyong. 2016

[18]Genome-wide identification, expression analysis of auxin-responsive GH3 family genes in maize (Zea mays L.) under abiotic stresses. Feng, Shangguo,Yang, Yanjun,Xu, Mingfeng,Wang, Huizhong,Shen, Chenjia,Yue, Runqing,Zhang, Lei. 2015

[19]Identification and expression profiling analysis of calmodulin-binding transcription activator genes in maize (Zea mays L.) under abiotic and biotic stresses. Yue, Runqing,Lu, Caixia,Han, Xiaohua,Qi, Jianshuang,Yan, Shufeng,Tie, Shuanggui,Yue, Runqing,Lu, Caixia,Han, Xiaohua,Qi, Jianshuang,Yan, Shufeng,Tie, Shuanggui,Sun, Tao,Peng, Tingting. 2015

[20]Small auxin upregulated RNA (SAUR) gene family in maize: Identification, evolution, and its phylogenetic comparison with Arabidopsis, rice, and sorghum. Chen, Yuzhu,Cao, Jun,Hao, Xi. 2014