2025年6月10日 13:16 星期二
首页 > 过刊浏览>2023年第24卷第6期 >1568-1579. DOI:10.13430/j.cnki.jpgr.20230508005
PDF HTML阅读 XML下载 导出引用 引用提醒
玉米种质资源苞叶相关性状鉴定及综合评价
作者:
作者单位:

河北农业大学农学院/国家玉米改良中心河北分中心/河北省作物种质资源实验室,保定 071001

作者简介:

研究方向为玉米遗传育种,E-mail: mayibo97@163.com

通讯作者:

祝丽英,研究方向为玉米遗传育种,E-mail: zhuliying73@163.com

基金项目:

河北省重点研发计划项目(21326325D)


Identification and Comprehensive Evaluation of Bract Related Traits of Maize Germplasm Resources
Author:
Affiliation:

College of Agronomy, Hebei Agricultural University/Hebei Sub-center of National Maize Improvement Center/ Key Laboratory for Crop Germplasm Resources of Hebei, Baoding 071001

Fund Project:

Foundation project: The Key Research and Development Project of Hebei Province (21326325D)

  • 摘要
    • | |
  • 访问统计
    • |
  • 参考文献 [36]
    • | | | |
  • 文章评论
    摘要:

    以220份玉米自交系为材料,通过两年两点田间试验对6个苞叶相关性状进行鉴定,利用遗传多样性分析、主成分分析、聚类分析和逐步回归分析进行苞叶性状的综合评价与评价指标筛选。结果表明:供试自交系苞叶相关性状的变异系数为13.41%~51.79%,遗传多样性指数为1.71~2.08,遗传变异丰富。主成分分析将6个性状转化为3个主成分,其累积贡献率为86.674%,第1主成分主要和苞叶干重、苞叶长度有关;第2主成分和第3主成分主要与苞叶包裹度和苞叶层数有关。220份自交系综合评价D值范围为0.161~0.728,其中101314的D值最高,7026B的D值最低。聚类分析将220份自交系划分为3类,其中第I类有62份自交系,其苞叶层数少、苞叶短且窄、干重和包裹度低。逐步回归分析表明苞叶长度、宽度和包裹度3个性状可作为玉米种质苞叶性状综合评价的关键指标。以上结果为适宜籽粒机收玉米种质资源的精准鉴定提供了理论参考。

    Abstract:

    Based on 220 maize inbred lines, 6 bract related traits were evaluated in field experiments at two locations in two years. The genetic diversity analysis, principal component analysis, clustering analysis and stepwise regression analysis were applied for statistical analysis and identifying the evaluation indicators. The results showed that the genetic variations at bract related traits were abundant, with the coefficient of variation ranged from 13.41% to 51.79% as well as the genetic diversity index ranged from 1.71 to 2.08. Principal component analysis simplified the six traits into three principal components, showing the cumulative contribution rate of 86.674%. The first principal component was mainly related to the bract mass and the bract length. The second principal component and the third principal component were mainly related to the bract wrapping degree and the bract number, respectively. The comprehensive evaluation D value ranged from 0.161 to 0.728, of which 101314 and 7026B showed the highest and lowest D value, respectively. 220 inbred lines were divided into three groups by cluster analysis, among which 62 inbred lines were in group I, with few bract numbers, shorter and narrower bracts, lower bract mass and wrapping degree. Stepwise regression analysis showed that bract length, bract width and wrapping degree could be used as the important indicators for the comprehensive evaluation of bract traits in maize. Collectively, these results provided a theoretical reference for the accurate identification of bract traits in maize germplasm resources suitable for mechanical harvest.

    参考文献
    [1] 王学军. 河南省玉米籽粒直收机械化的问题探讨. 现代农业科技, 2020(24):33-34Wang X J. Discussion on the mechanization of direct harvest of maize grains in Henan province. Modern Agricultural Science and Technology, 2020(24):33-34
    [2] 李璐璐,明博,谢瑞芝,王克如,侯鹏,李少昆. 玉米品种穗部性状差异及其对籽粒脱水的影响. 中国农业科学, 2018,51(10):1855-1867Li L L, Ming B, Xie R Z, Wang K R, Hou P, Li S K. Differences in ear traits of maize varieties and their effects on grain dehydration. Scientia Agricultura Sinica, 2018,51(10):1855-1867
    [3] 夏浩然,徐涛,贺伟,李建,张敖,阮燕晔,张立军,贺岩,崔震海,宋波.玉米自交系苞叶表型可塑性差异分析. 华中农业大学学报, 2021,40(5):23-30Xia H R, Xu T, He W, Li J, Zhang A, Ruan Y Y, Zhang L J, He Y, Cui Z H, Song B. Differential analysis of phenotypic plasticity of bracts of maize inbred lines. Journal of Huazhong Agricultural University, 2021,40(5):23-30
    [4] Cross H, Kabir K. Evaluation of field dry-down rates in early maize. Crop Science, 1989,29(1):54-58
    [5] Cross H, Kabir K. Divergent selection for ear moisture in early maize. Crop Science, 1987,27(5):914-918
    [6] 刘思奇,钟雪梅,史振声. 玉米果穗各部性状对籽粒含水量和脱水速率的影响. 江苏农业科学, 2016,44(8):130-132Liu S Q, Zhong X M, Shi Z S. Effects of ear traits on grain water content and dehydration rate of maize. Jiangsu Agricultural Sciences, 2016,44(8):130-132
    [7] Pidigam S, Thuraga V, Munnam S B, Amarapalli G, Kuraba G, Pandravada S R, Nimmarajula S, Sudini H K. Genetic diversity, population structure and validation of SSR markers linked to Sw-5 and I-2 genes in tomato germplasm. Physiology and Molecular Biology of Plants, 2021,27(8):1695-1710
    [8] 焦仁海,仲义,刘俊,蔡鑫茹,吴凤新,刘兴二,夏远峰. 玉米种质资源研究发展现状及创新途径. 农业与技术, 2022,42(11):87-90Jiao R H, Zhong Y, Liu J, Cai X R, Wu F X, Liu X E, Xia Y F. Research status and innovation approaches of maize germplasm resources. Agriculture and Technology, 2022,42(11):87-90
    [9] 马智艳,董永彬,乔大河,胡春辉,邓飞,李玉玲. 不同种质玉米杂交种苞叶性状特征分析. 河南农业科学, 2015, 44(2): 15-18Ma Z Y, Dong Y B, Qiao D H, Hu C H, Deng F, Li Y L. Analysis of bract characters of maize hybrids with different germplasm. Henan Agricultural Sciences, 2015, 44(2):15-18
    [10] 贺文姝,张海波,孙宏蕾,阮燕晔,崔震海,张立军. 不同类群玉米自交系苞叶性状的差异分析. 华中农业大学学报, 2018, 37(4): 30-35He W S, Zhang H B, Sun H L, Ruan Y Y, Cui Z H, Zhang L J. Difference analysis of bract characters in maize inbred lines of different groups. Journal of Huazhong Agricultural University, 2018, 37(4):30-35
    [11] Zhang X L, Lu M, Xia A A, Xu T, Cui Z H, Zhang R Y, Liu W G, He Y. Genetic analysis of three maize husk traits by QTL mapping in a maize-teosinte population. BMC Genomics, 2021,22(1):386-394
    [12] Zhou G F, Hao D R, Chen G Q, Lu H H, Shi M L, Mao Y X, Zhang Z L, Huang X L, Xue L. Genome-wide association study of the husk number and weight in maize. Euphytica, 2016, 210:195-205
    [13] 王自力,张北举,李魁印,陈松树,徐如宏,李鲁华,吴传喜,任明见. 高粱种质资源表型性状多样性分析及综合评价. 江苏农业科学, 2022,50(18):115-121Wang Z L, Zhang B J, Li K Y, Chen S S, Xu R H, Li L H, Wu C X, Ren M J. Diversity analysis and comprehensive evaluation of phenotypic traits of sorghum germplasm resources. Jiangsu Agricultural Sciences, 2022,50(18):115-121
    [14] Shannon C E. A mathematical theory of communication. ACM SIGMOBILE Mobile Computing and Communications Review, 2001,5(1):3-55
    [15] 徐泽俊,齐玉军,邢兴华,童飞,王幸. 黄淮海大豆种质农艺与品质性状分析及综合评价. 植物遗传资源学报, 2022,23(2):468-480Xu Z J, Qi Y J, Xing X H, Tong F, Wang X. Analysis and comprehensive evaluation of agronomy and quality traits in soybean germplasm of Huang-Huai-Hai. Journal of Plant Genetic Resources, 2022,23(2):468-480
    [16] 胡标林,万勇,李霞,雷建国,罗向东,严文贵,谢建坤. 水稻核心种质表型性状遗传多样性分析及综合评价. 作物学报, 2012,38(5):829-839Hu B L, Wan Y, Li X, Lei J G, Luo X D, Yan W G, Xie J K. Genetic diversity analysis and comprehensive evaluation of phenotypic traits in rice (Oryza sativa) core germplasm. Acta Agronomica Sinica, 2012,38(5):829-839
    [17] 苏群,杨亚涵,田敏,张进忠,毛立彦,唐毓玮,卜朝阳,卢家仕. 49 份睡莲资源表型多样性分析及综合评价. 西南农业学报, 2019,32(11):2670-2681Su Q, Yang Y H, Tian M, Zhang J Z, Mao L Y, Tang Y W, Bu C Y, Lu J S. Phenotypic diversity analysis and comprehensive evaluation of 49 water lily resources. Southwest China Journal of Agricultural Sciences, 2019,32(11):2670-2681
    [18] 吴根松, 孙丽丹, 郝瑞杰, 石文芳, 张杰, 陈晶鑫. 梅花种质资源表型多样性研究. 安徽农业科学, 2011,39(20):12008-12009Wu G S, Sun L D, Hao R J, Shi W F, Zhang J, Chen J X. Phenotypic diversity of germplasm resources of plum blossom. Journal of Anhui Agricultural Sciences, 2011,39(20):12008-12009
    [19] 万映伶,朱梦婷,刘爱青,金亦佳,刘燕. 中国观赏芍药表型多样性解析与资源评价. 中国农业科学,2022,55(18):3629-3639Wan Y L, Zhu M T, Liu A Q, Jin Y J, Liu Y. Phenotypic diversity analysis and resource evaluation of ornamental peony in China. Scientia Agricultura Sinica, 2022,55(18):3629-3639
    [20] 黎松松,许文静,张威,张红梅,刘晓庆,崔晓艳,朱月林,陈新,陈华涛. 大豆种质资源主要农艺性状的评价与分析. 江苏农业科学,2021,49(19):35-38Li S S, Xu W J, Zhang W, Zhang H M, Liu X Q, Cui X Y, Zhu Y L, Chen X, Chen H T. Evaluation and analysis of main agronomic traits of soybean germplasm resources. Jiangsu Agricultural Sciences, 2021,49(19):35-38
    [21] 董胜君,孙永强,陈建华,卢彩云,刘权钢,刘立新. 野杏无性系表型性状多样性分析及综合评价. 植物遗传资源学报, 2020,21(5):1156-1166Dong S J, Sun Y Q, Chen J H, Lu C Y, Liu Q G, Liu L X. Analysis and comprehensive evaluation of phenotypic character diversity of clonal wild apricot. Journal of Plant Genetic Resources, 2020,21(5):1156-1166
    [22] 康泽然,王晓磊,魏云山,刘迎春,周学超,胡海波,李峰,崔智慧. 绿豆种质资源主要农艺性状、经济性状遗传多样性分析及综合评价. 江苏农业科学, 2022,50(21):36-41Kang Z R, Wang X L, Wei Y S, Liu Y C, Zhou X C, Hu H B, Li F, Cui Z H. Genetic diversity analysis and comprehensive evaluation of main agronomic and economic traits of germplasm resources of mung bean. Jiangsu Agricultural Sciences, 2022,50(21):36-41
    [23] 万述伟,宋凤景,郝俊杰,张晓艳,李红卫,邵阳,赵爱鸿. 271份豌豆种质资源农艺性状遗传多样性分析. 植物遗传资源学报, 2017,18(1):10-18Wan S W, Song F J, Hao J J, Zhang X Y, Li H W, Shao Y, Zhao A H. Genetic diversity analysis of agronomic traits of 271 pea germplasm resources. Journal of Plant Genetic Resources, 2017,18(1):10-18
    [24] Mishra S P, Sarkar U, Taraphder S, Datta S, Swain D P, Saikhom R, Panda S, Laishram M. Multivariate statistical data analysis-principal component analysis. International Journal of Livestock Research, 2017,7(5): 60-78
    [25] 李艳红,聂俊,郑锦荣,谭德龙,张长远,史亮亮,谢玉明. 华南地区樱桃番茄表型性状遗传多样性分析及综合评价. 园艺学报, 2021,48(9):1717-1730Li Y H, Nie J, Zheng J R, Tan D L, Zhang C Y, Shi L L, Xie Y M. Genetic diversity analysis and comprehensive evaluation of cherry tomato phenotypic traits in South China. Journal of Horticultural Science, 2021,48(9):1717-1730
    [26] 孙东雷,卞能飞,陈志德,邢兴华,徐泽俊,齐玉军,王幸,王晓军,王伟. 花生种质资源表型性状的综合评价及指标筛选. 植物遗传资源学报, 2018, 19(5):865-874Sun D L, Bian N F, Chen Z D, Xing X H, Xu Z J, Qi Y J, Wang X, Wang X J, Wang W. Comprehensive evaluation and index screening of phenotypic traits in peanut germplasm resources. Journal of Plant Genetic Resources, 2018,19(5):865-874
    [27] 黎松松,赖建军,张红梅,崔晓艳,刘晓庆,陈新,朱月林,陈华涛. 江苏鲜食春大豆种质资源表型鉴定及综合评价. 大豆科学, 2022,41(4):385-396Li S S, Lai J J, Zhang H M, Cui X Y, Liu X Q, Chen X, Zhu Y L, Chen H T. Phenotypic identification and comprehensive evaluation of fresh spring soybean germplasm resources in Jiangsu. Soybean Science, 2022,41(4):385-396
    [28] 赵欣蕊,任根增,韩永亮,杨溥原,徐晓,白玉哲,赵栋婷,任玉双,张玲玉,王志博,吴盟,陈东明,常金华,崔江慧. 高粱株型表型性状精准鉴定及综合评价. 植物遗传资源学报, 2022,23(6):1644-1659Zhao X R, Ren G Z, Han Y L, Yang P Y, Xu X, Bai Y Z, Zhao D T, Ren Y S, Zhang L Y, Wang Z B, Wu M, Chen D M, Chang J H, Cui J H. Accurate identification and comprehensive evaluation of plant phenotypic traits in sorghum. Journal of Plant Genetic Resources, 2022,23(6):1644-1659
    [29] 游书梅,曹应江,郑家奎,蒋开锋,张涛,杨莉,杨乾华,万先齐,罗婧,李昭祥,高磊. 73份亚洲水稻恢复系农艺性状的主成分与聚类分析. 植物遗传资源学报, 2015,16(2):250-256You S M, Cao Y J, Zheng J K, Jiang K F, Zhang T, Yang L, Yang Q H, Wan X Q, Luo J, Li Z X, Gao L. Principal components and cluster analysis of agronomic traits of 73 Asian rice (Oryza sativa) restorer lines. Journal of Plant Genetic Resources, 2015,16(2):250-256
    [30] 李帅,刘长华,曹士亮,褚力嘉,仲昭暄,刘宝民,于滔. 30个玉米杂交组合主要农艺性状鉴定与综合评价研究. 黑龙江大学自然科学学报, 2019,36(6):703-712Li S, Liu C H, Cao S L, Chu L J, Zhong Z X, Liu B M, Yu T. Identification and comprehensive evaluation of main agronomic characters in 30 maize hybrid combinations. Journal of Natural Science of Heilongjiang University, 2019, 36(6): 703-712
    [31] 王平,徐加利,闫保罗,李平海,宗燕,李芳,刘翔攀. 基于主成分-聚类-逐步回归分析的夏玉米品种光温利用能力综合评价. 山东农业科学, 2020,52(10):71-77Wang P, Xu J L, Yan B L, Li P H, Zong Y, Li F, Liu X P. Comprehensive evaluation of light and temperature utilization capacity of summer maize varieties based on principal components-clustering-stepwise regression analysis. Shandong Agricultural Sciences, 2019,52(10):71-77
    [32] Aktar S, Hossain N, Azam M G, Billah M, Biswas P L, Latif M A, Rohman M, Bagum S A, Uddin M S. Phenotyping of hybrid maize at seedling stage under drought condition. American Journal of Plant Sciences, 2018(11):2154-2169
    [33] 滕元旭,支梦婷,李铭东,摆晶,张丽,张智林,杨新军,韩登旭,梁晓玲,李召锋. 玉米自交系苗期耐热性综合评价. 玉米科学, 2020,28(1):65-71Teng Y X, Zhi M T, Li M D, Bai J, Zhang L, Zhang Z L, Yang X J, Han D X, Liang X L, Li Z F. Comprehensive evaluation of heat resistance of maize inbred lines at seedling stage. Maize Science, 2020,28(1):65-71
    [34] 杨硕,郑云霄,黄亚群,祝丽英,赵永锋,贾晓艳,陈景堂,郭晋杰. 不同玉米自交系茎秆上部维管束数目的差异分析. 植物遗传资源学报, 2021,22(2):466-475Yang S, Zheng Y X, Huang Y Q, Zhu L Y, Zhao Y F, Jia X Y, Chen J T, Guo J J. Analysis on the number of vascular bundle in upper stem of different maize inbred lines. Journal of Plant Genetic Resources, 2021,22(2):466-475
    [35] 刘洋. 玉米自交系抗倒伏性状的关联分析. 保定:河北农业大学, 2014Liu Y. Association analysis of lodging resistance traits of maize inbred lines. Baoding: Hebei Agricultural University, 2014
    [36] 刘志斋,吴迅,刘海利,李永祥,李清超,王凤格,石云素,宋燕春,宋伟彬,赵久然,赖锦盛,黎裕,王天宇. 基于40个核心SSR标记揭示的820份中国玉米重要自交系的遗传多样性与群体结构. 中国农业科学, 2012,45(11):2107-2138Liu Z Z, Wu X, Liu H L, Li Y X, Li Q C, Wang F G, Shi Y S, Song Y C, Song W B, Zhao J R, Lai J S, Li Y, Wang T Y. Genetic diversity and population structure of important Chinese maize inbred lines revealed by 40 core simple sequence repeats(SSRs). Scientia Agricultura Sinica, 2012,45(11):2107-2138
    相似文献
    引证文献
    网友评论
    网友评论
    分享到微博
    发 布
引用本文

麻一博,贾晓艳,刘亚捷,等.玉米种质资源苞叶相关性状鉴定及综合评价[J].植物遗传资源学报,2023,24(6):1568-1579.

复制
分享
文章指标
  • 点击次数:277
  • 下载次数: 1398
  • HTML阅读次数: 283
  • 引用次数: 0
历史
  • 收稿日期:2023-05-08
  • 最后修改日期:2023-06-09
  • 在线发布日期: 2023-10-31
  • 出版日期: 2023-10-31
文章二维码
您是第5910920位访问者
ICP:京ICP备09069690号-23
京ICP备09069690号-23
植物遗传资源学报 ® 2025 版权所有
技术支持:北京勤云科技发展有限公司
请使用 Firefox、Chrome、IE10、IE11、360极速模式、搜狗极速模式、QQ极速模式等浏览器,其他浏览器不建议使用!