玉米品种创制利用

团队简介

针对我国玉米主产区存在的耐密宜机收品种匮乏、育种效率偏低、育种与栽培脱节等突出问题,以早熟、耐密、抗倒、宜机收品种培育和高效栽培技术研究为核心方向,系统开展玉米育种技术研究、育种新材料创制、优良新品种培育及良种良法配套等关键工作。通过创新育种技术手段,挖掘优异基因资源,创制耐密、广适、高产的育种新材料,选育符合机械化收获需求的优良玉米新品种。同步集成密植高产、轻简高效、抗逆稳产的绿色栽培技术,推动育种目标与生产需求精准对接、品种特性与栽培措施深度融合,着力提升玉米产能与生产效率,破解产业发展瓶颈,为保障国家粮食安全、推动玉米生产全程机械化与高质量发展提供坚实的品种支撑与技术保障。


组长

黎亮

  • 成员

      王红武、胡小娇、李坤、李从锋、明博
  • 在读博士研究生

      7人
  • 在读硕士研究生

      30人

1.  代表性论文 

(1) Honghui Guan, Yaxuan Lu, Xinchun Li,Bei Liu, Yongxiang Yi, Dengfeng Zhang, Xuyang Liu, Guanhua He, Yu Li, Hongwu Wang, Tianyu Wang, Chunhui Li. Development of a MaizeGerm50K array and application to maize genetic studies and breeding. The Crop Journal (2024), 12(6): 1686-1696.DOI:10.1016/j.cj.2024.09.014.

(2) Fan Kaijian, Mohsin Ali, He Kunhui, Feng Yingwei, Yu Tingxi, Zhang Hao, An Tai, Zeng Weiwei, Fu Junjie, Zhou Ying, Heng Yanfang,  Gu Fei, Wang Jiankang, Huang Changling, Li Liang, Li Huihui. Genomic analysis of modern maize inbred lines reveals diversity and selective breeding effects. Science China Life Sciences (2025), 68(2):578-581. DOI:10.1007/s11427-024-2725-1.

(3) Ying Zhou, Yanfang Heng, Shoukun Chen, Jinglu Wang, Kunhui He, Jiahui Geng, Kaijian Fan, Yonggui Xiao, Changling Huang, Jiankang Wang, Enying Zhang, Liang Li, Huihui Li. . Dissecting the genetic basis of agronomic traits by multi-trait GWAS and genetic networks in maize (Zea mays L.). Abiotech (2025), DOI:10.1007/s42994-025-00241-4

(4) Zhenhua Yan, Yi Liu, Shang Gao, Hongye Yang, Dayun Feng, Kexin Gao, Bo Ming, Keru Wang, Peng Hou, Shaokun Li, Ruizhi Xie.Water management mitigates drought stress effects on maize leaf senescence and post-anthesis dry matter accumulation. Agricultural Water Management (2025), 318, 109709. DOI:10.1016/j.agwat.2025.109709.

(5) Dongping Shen, Linli Zhou, Keru Wang, Bo Ming, Ruizhi Xie, Jun Xue, Liang Fang, Tingting Zhang, Zhen Wang, Jinghui Yu, Xiaoxue Xu, Hui Jiang, Naijiao Ma, Guoqiang Zhang, Shaokun Li. Optimizing nitrogen application frequency to enhance the post-flowering matter accumulation, yield and water/nitrogen use efficiency of densely planted and drip-irrigated maize. Journal of the Science of Food and Agriculture (2025), DOI: 10.1002/jsfa.14411.

(6) Zhen Wang, Yanan Guo, Ruizhi Xie Keru Wang, Guoqiang Zhang, Peng Hou, Jun Xue, Shang Gao, Dongping Shen, Liang Fang, Linli Zhou, Lirong Sun, Shijun Bao, Zhigang Huo, Bo Ming, Shaokun Li. Optimizing maize Production: Balancing yield, quality, and economic benefits through planting density - Driven nutrient analysis. Journal of Agriculture and Food Research (2025), 21, 101943. DOI: 10.1016/j.jafr.2025.101943.

(7) Linli Zhou, Bo Ming, Keru Wang, Dongping Shen, Liang Fang, Hongye Yang, Jun Xue, Ruizhi Xie, Peng Hou, Jianquan Ye, Jinghui Yu, Ting Zhang, Guoqiang Zhang, Shaokun Li. Establishment of critical nitrogen-concentration dilution curves based on leaf area index and aboveground biomass for drip-irrigated spring maize in Northeast China. The Crop Journal (2025), 13(02): 556-564. DOI:10.1016/j.cj.2025.01.009.

(8) Zheng Liu, Wenli Zhou, Zhi Wang, Yao Zhao, Jiahui Cheng, Xinbing Wang, Baoyuan Zhou, Zaisong Ding, Guohua Mi, Congfeng Li. Quantifying contributions of efficiency-enhanced nitrogen fertilizers to maize production and environment: Evidence for sustainable agriculture policy framework.Agricultural Systems (2025), 230, 104488.DOI: 10.1016/j.agsy.2025.104488

(9) Zheng Liu, Wenli Zhou, Tuijin Wang, Hong Ren, Baoyuan Zhou, Zaisong Ding, Xinbing Wang, Congfeng Li. Basal-topdressing trade-offs in maize production: Lower current N losses versus elevated soil residual N and subsequent losses in the Northeast China. Field Crops Research (2025), 333, 110109. DOI:10.1016/j.fcr.2025.110109

(10)  Xue Gong, Yuan Li, Li Liu, Jindong Fu, Zhonghu He, Liang Li, Wenfei Tian.Ferulic acid concentration in 233 maize inbreds and its processing stability in selected high-ferulic-acid lines. Food Chemistry (2025),484, 144333. DOI: 10.1016/j.foodchem.2025.144333 

2. 代表性专利、软著与专著

(1) 一种玉米播种质量的评价方法及装置,张新龙、明博、李少昆、王克如、薛军、张国强、谢瑞芝、侯鹏,ZL202210379981.X;

(2) ZmD13蛋白在调控玉米株高中的应用,胡小娇、张伟、蒋成功、王红武、李坤、刘小刚、黄长玲,ZL20221 0248548.2;

(3)  一种高密度检测玉米分子标记的方法,引物组合及应用,王红武、李新春、胡小娇、李坤、刘小刚、付俊杰、张继东、黄长玲,2025109587546;

(4) 一种玉米中密度全基因组 SNP 芯片及其应用,黎亮、付俊杰、范开建、谢玉心,202510690552.8;

(5) 一种玉米株型调控基因的检测标记及应用,胡小娇、王红武、黎亮、李坤、刘小刚、田志敏、黄长玲、刁西州,202511960574.8.

3. 重要品种

(1) 中单3256,国审玉20243088,中国农业科学院作物科学研究所;

(2) 中单3217,国审玉20243012,中国农业科学院作物科学研究所;

(3) 中单3207,国审玉20252015,中国农业科学院作物科学研究所;

(4) 中单8921,国审玉20242132,中国农业科学院作物科学研究所;

(5) 中单8906,国审玉20252133,中国农业科学院作物科学研究所;