玉米新品种浚单168的选育与创新思路

doi:10.16035/j.issn.1001-7283.2025.05.019

Abstract

Abstract:

Xundan 168 is a breakthrough new maize variety developed by the Hebi Academy of Agricultural Sciences using inbred lines Xun M6968 as female parent and Xun NQ33 as male parent, which satisfies the high yield and stable yield, disease resistance, wide adaptability, drought resistance and high temperature tolerance. In order to better promote the breeding of new maize varieties in the Huang-Huai-Hai region, based on the evaluation of the outstanding high yield, stable yield and adaptability of Xundan 168, this study summarized the breeding process of this variety, analyzed the improvement of maize germplasm and the breeding of new varieties in the Huang-Huai-Hai region, and deeply discussed the germplasm innovation, heterosis breeding mode innovation, and the utilization of foreign germplasms.

Key words: Maize, Xundan 168, Variety breeding, Germplasm innovation, Heterosis breeding mode, Utilization of foreign germplasms

Wang Changliang, Yan Lihui, Chang Jianzhi, Zhang Guohe, Wang Jing, Wang Fenxia, Huang Lihua. Breeding and Innovative Idea of Maize New Variety Xundan 168[J].Crops, 2025, 41(5): 142-146.

Figures/Tables 4

Fig.1

Table 1

Table 2

Table 3

References 29

[1]	孙海潮, 卢道文, 张莹莹, 等. 黄淮海夏播区联合体国审玉米新品种综合性状分析. 玉米科学, 2022, 30(2):21-28.
[2]	李少昆, 赵久然, 董树亭, 等. 中国玉米栽培研究进展与展望. 中国农业科学, 2017, 50(11):1941-1959. doi: 10.3864/j.issn.0578-1752.2017.11.001
[3]	王令涛, 刘海静, 刘桂珍. 2011-2020年河南省审定玉米品种产量及相关性状演变分析. 种子,2021, 40(6):83-89.
[4]	王振华, 刘文国, 高世斌, 等. 玉米种业的昨天、今天和明天. 中国畜牧业, 2021(19):26-32.
[5]	施艳, 袁虹霞, 李庆伦, 等. 2021年黄淮地区夏玉米南方锈病流行因素分析及防控对策. 植物保护, 2023, 49(4):309-311,356.
[6]	兰海, 向勇, 李芦江, 等. 玉米新品种川单99的选育与推广. 玉米科学, 2023, 31(2):25-29.
[7]	王良发, 张守林, 孙永霞, 等. 超高产玉米‘浚单29’选育的创新思路. 农学学报, 2019, 9(1):7-10. doi: 10.11923/j.issn.2095-4050.cjas18030026
[8]	王家保, 冀怀远, 梅家法, 等. 玉米新品种荃科玉900的选育与栽培制种技术. 作物杂志, 2022(4):267-270.
[9]	王国明, 余静, 赵朝文, 等. 玉米新品种‘金泉6028’的选育及配套栽培技术. 分子植物育种. (2023-06-20)[2024-05-23]. https://link.cnki.net/urlid/46.1068.s.20230619.1515.004.
[10]	国家农作物品种审定委员会.国家级玉米品种审定标准(2021年修订):国品审〔2021〕1号. (2021-09-28)[2024-05-23].https://www.gov.cn/zhengce/zhengceku/2021-10/08/5641299/files/40c8a0b447b743599d747133d28df7f6.pdf.
[11]	国家标准总局.玉米抗病虫性鉴定技术规范:NY/T 1248-2006. 北京: 中国农业出版社, 2006.
[12]	国家标准总局. 谷类、豆类作物种子粗蛋白测定法(半微量凯氏法):NY/T 3-1982. 北京: 中国农业出版社, 1982.
[13]	国家标准总局. 谷物、油料作物种子粗脂肪测定法:NY/T 4-1982. 北京: 中国农业出版社, 1982.
[14]	国家标准总局. 谷物籽粒粗淀粉测定法:NY/T 11-1985. 北京: 中国农业出版社, 1985.
[15]	国家标准总局. 谷物籽粒赖氨酸测定的前处理方法:NY/T 56-1987. 北京: 中国农业出版社, 1987.
[16]	王锡平, 李保国, 郭焱, 等. 玉米冠层内光合有效辐射三维空间分布的测定和分析. 作物学报, 2004(6):568-576.
[17]	王昌亮, 吴西利, 常建智, 等. 黄淮海不同类型玉米干物质积累、分配与转运特征. 江苏农业科学, 2023, 51(7):103-109.
[18]	张梓心, 曾慧, 吴军刚, 等. 基于轮回选择的玉米自交系J1644、杂交种选育及配合力分析. 分子植物育种. (2022-12-22)[2024-05-23]. https://link.cnki.net/urlid/46.1068.s.20221219.1327.006.
[19]	张世煌, 田清震, 李新海, 等. 玉米种质改良与相关理论研究进展. 玉米科学, 2006, 14(1):1-6.
[20]	李森林. 玉米P18-7近缘系的遗传多样性及其杂交后代性状分析. 贵阳:贵州大学, 2020.
[21]	赵亚丽. 玉米昌7-2近缘系的遗传多样性及其杂交后代性状比较分析. 郑州:河南农业大学, 2006.
[22]	李浩川, 汤继华, 谭晓军, 等. 优质高产新型玉米杂交种豫单112的选育. 中国种业, 2014(8):62-63.
[23]	毛熙岚. 新型玉米杂交种豫单112主要农艺性状的研究. 郑州:河南农业大学, 2019.
[24]	张志方, 张素娟, 张守林, 等. 高抗南方锈病玉米自交系浚M9的选育与应用. 玉米科学, 2023, 31(1):9-15.
[25]	洪德峰, 张学舜, 马毅, 等. 优良玉米自交系新01A3及其改良系选育与应用. 玉米科学, 2021, 29(1):15-19.
[26]	王延波, 王国宏, 邵帅, 等. 玉米优良自交系辽3258选育及应用. 辽宁农业科学, 2022(2):43-47.
[27]	刘欣芳, 姜敏, 张默, 等. 玉米优良自交系辽3258配合力及遗传重组研究. 分子植物育种. (2022-06-27)[2024-05-23]. https://link.cnki.net/urlid/46.1068.S.20220624.1615.008.
[28]	郭向阳, 王安贵, 吴迅, 等. 热带玉米Tuxpeno种质形成、改良及育种潜势分析. 玉米科学, 2019, 27(2):10-15.
[29]	郭向阳, 吴迅, 王安贵, 等. 玉米Suwan和Iodent改良系育种应用探索与分析. 植物遗传资源学报, 2021, 22(6):1676-1683.

Related Articles 15

[1]	Zhou Tingfang, Li Ran, Liu Qianqian, Zhang Ze, Wang Zhenhua, Ma Baoxin, Lu Ming, Zhang Lin, Han Yehui, Yang Bo, Li Mingshun, Zhang Degui, Weng Jianfeng, Yong Hongjun, Xu Jingyu, Han Jienan, Li Xinhai. Analysis of Salt Tolerance at Germination Stage of 118 Maize Hybrids in Northeast China [J]. Crops, 2025, 41(5): 1-10.
[2]	Yang Ke, Lai Shangkun, Jin Qian, Wang Weijun, Ding Yidong, Liu Xiaofei. Study on the Mining and Transcriptional Regulation Mechanism of Genes Related to Linoleic Acid Synthesis in Maize [J]. Crops, 2025, 41(5): 102-112.
[3]	Li Zhehao, Ji Miyuan, Lü Meng, Ming Bo, Li Shaokun, Zhang Haiyan, Xie Ruizhi. Effects of Different Nitrogen Fertilizer Management Strategies on the Root and Shoot Development of Spring Maize under Long-Term Positioning Conditions [J]. Crops, 2025, 41(4): 135-141.
[4]	Wang Xingya, Chen Yuhan, Zhang Mengwen, Sun Linlin, Chen Lirong, Guo Yuqiu, Gong Kuijie. The Effects of ABA Application at Different Stages on Maize Grain Filling and Dehydration [J]. Crops, 2025, 41(4): 173-180.
[5]	He Xinchun, Du Hewei, Huang Min. Cloning and Expression Analysis of Maize ZmCaM1 Gene [J]. Crops, 2025, 41(4): 19-28.
[6]	Shi Yaxing, Liu Junling, Zhu Guichuan, He Zhongyou, Liu Hui, Fan Yanli, Xu Li, Lu Baishan, Zhao Jiuran, Luo Meijie. Cloning of the du1 Novel Allelic Variant and the Development of Its Molecular Markers [J]. Crops, 2025, 41(4): 41-48.
[7]	Hou Yue, Wang Hongliang, Li Jie, Li Chunjie, Chen Fanjun. Research Advances on the Effects of Cereal/Legume Forage Intercropping on Forage Quality and Nitrogen Uptake [J]. Crops, 2025, 41(3): 1-10.
[8]	Jin Zihao, Zhao Wenqing, Wang Fang, Wang Wei, Peng Yunling, Chang Fangguo. Effects of Three Exogenous Plant Growth Regulators on the Cold Tolerance of Maize Seedlings [J]. Crops, 2025, 41(3): 125-132.
[9]	Wang Yi, Ren Yongfu, Zhang Zhengpeng, Ding Defang, Zhang Jing, Liu Yihong, Sun Duoxin, Chen Guangrong. The Effects of Different Covering Materials on Soil Environment and Maize Yield in Hexi Irrigation Area [J]. Crops, 2025, 41(3): 149-155.
[10]	Hou Nan, Wu Fengjie, Qi Xiangkun, Wang Yufeng, Yang Kejun, Fu Jian. Effects of Different Nitrogen Application Levels on Carbon Metabolism of Waxy Maize during Filling Period in Black Soil Area [J]. Crops, 2025, 41(3): 178-184.
[11]	Zhang Zhengjie, Yang Guohua, Guo Ruihong, Cheng Kaihua, Mi Xingwang, Liu Fei. Comprehensive Evaluation of Regional Trials for the Spring Maize in Northwest China Based on DTOPSIS Method and Membership Function Method [J]. Crops, 2025, 41(3): 78-84.
[12]	Ren Yongfu, Li Jiayi, Chen Guopeng, Pu Tian, Chen Hong, Wang Xiaochun. Effects of Different Planting Patterns on the Yield and Efficiency of Maize in Strip Intercropping System [J]. Crops, 2025, 41(2): 101-108.
[13]	Chang Hongbing, Wang Chen, He Meijing, Cao Ximin, Yu Fengfang, Cao Xiaoliang, Song Wei, Lü Aizhi. Genetic Diversity Analysis of 69 Maize Germplasm Resources Based on SSR Markers [J]. Crops, 2025, 41(2): 47-53.
[14]	Li Wenyue, Yu Tao, Cao Shiliang, Ma Xuena, Tang Gui, Gao Li, Yang Gengbin. Genetic Diversity Analysis of 96 Waxy Maize Inbred Lines Based on SNP Chip [J]. Crops, 2025, 41(2): 74-78.
[15]	Sun Yanjie, Wei Guocai, Wu Yuheng, Shi Yunqiang, Shao Yong, Liu Yingrui, Nan Yuantao, Zhang Weiyao. Genetic Diversity Analysis of 100 Maize Germplasm Resources by SNP Markers [J]. Crops, 2025, 41(2): 14-19.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

年份 Year	试验组别 Test group	平均产量 Average yield (kg/hm²)	比对照 Compare with CK (%)	位次 Rank	总试验点次 Total test sites	增产点率 Percentage of yield increase sites (%)
2019	黄淮海区域联合比较试验	10 734.0	10.8	2	22	95.4
2020	黄淮海区域联合比较试验	11 944.5	13.4	1	22	95.4
2021	黄淮海夏玉米区域试验（河南农科联合体）	9447.0	17.6	1	41	100.0
2022	黄淮海夏玉米区域试验（河南农科联合体）	10 045.5	7.9	2	41	92.7
2022	黄淮海夏玉米生产试验（河南农科联合体）	9789.0	7.4	2	41	97.6

年份 Year	鉴定机构 Appraisal department	茎腐病 Stem rot	小斑病 Southern corn leaf blight	弯孢霉叶斑病 Curvularia leaf spot	瘤黑粉病 Common smut	穗腐病 Ear rot	南方锈病 Southern rust
2021	河南农业大学植物保护学院	HR	R	S	S	S	MR
	山东农业大学植物保护学院	MR	R	S	S	S	MR
2022	河南农业大学植物保护学院	HR	R	MR	HR	R	R
	山东农业大学植物保护学院	HR	R	S	HR	MR	MR

品种 Variety	容重 Bulk density (g/L)	粗蛋白含量 Crude protein content (%)	粗脂肪含量 Crude fat content (%)	粗淀粉含量 Crude starch content (%)	赖氨酸含量 Lysine content (%)
浚单168 Xundan 168	776.0	10.26	3.80	74.66	0.29
郑单958 Zhengdan 958	759.6	9.33	3.98	73.02	0.25

Breeding and Innovative Idea of Maize New Variety Xundan 168

RichHTML

PDF (PC)