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作物学报 ›› 2014, Vol. 40 ›› Issue (05): 838-849.doi: 10.3724/SP.J.1006.2014.00838

• 作物遗传育种·种质资源·分子遗传学 • 上一篇    下一篇

18个玉米自交系氮效率性状的配合力分析

崔超,高聚林*,于晓芳*,苏治军,王志刚,孙继颖,胡树平,王海燕,高英波,高鑫   

  1. 内蒙古农业大学农学院,内蒙古呼和浩特010019
  • 收稿日期:2012-12-06 修回日期:2014-01-12 出版日期:2014-05-12 网络出版日期:2014-03-24
  • 通讯作者: 高聚林, E-mail: nmgaojulin@163.com; 于晓芳, E-mail: yuxiaofang815@126.com
  • 作者简介:高聚林, E-mail: nmgaojulin@163.com; 于晓芳, E-mail: yuxiaofang815@126.com
  • 基金资助:

    本研究由国家自然科学基金项目(31260300), 国家重点基础研究发展计划(973计划)项目(2009CB118601), 国家粮食丰产科技工程项目(2011BAD16B13, 2012BAD04B04, 2013BAD07B04, 2011BAD16B14)和国家现代农业产业技术体系建设专项(CARS-02-63)资助。

Combining Ability Analysis of Traits Related to Nitrogen Use Efficiency in Eighteen Maize Inbred Lines

CUI Chao,GAO Ju-Lin*,YU Xiao-Fang*,SU Zhi-Jun,WANG Zhi-Gang,SUN Ji-Ying,HU Shu-Ping,WANG Hai-Yan,GAO Ying-Bo,GAO Xin   

  1. College of Agriculture, Inner Mongolia Agricultural University, Hohhot 010019, China
  • Received:2012-12-06 Revised:2014-01-12 Published:2014-05-12 Published online:2014-03-24
  • About author:高聚林, E-mail: nmgaojulin@163.com; 于晓芳, E-mail: yuxiaofang815@126.com

摘要:

以不同类群的18个玉米自交系为母本,6个标准测验种为父本,利用NC-II设计,组配108个杂交组合,对亲本自交系氮效率相关性状进行统计分析,并对杂交组合的产量及氮效率相关性状进行配合力分析。结果表明,吐丝期叶绿素相对含量在2个施氮处理下均与氮效率呈极显著正相关(r = 0.553, 0.639),可作为评价亲本自交系氮效率高低的指标;从氮效率2个构成方面来看,不施氮处理下氮利用效率起主要作用,而施氮处理下氮吸收效率起主要作用。亲本氮效率配合力分析表明,在氮高效品种选育中,应保证亲本至少有一个是氮效率一般配合力(GCA)较高的自交系,并选择由其组配的氮效率特殊配合力(SCA)高的组合;双亲的配合力氮效率总体效应(TCA)决定着组合F1代的产量及氮效率,TCA可作为选育氮高效杂交组合的理论依据。母本自交系BL12BL48分别在施纯氮225 kg hm-2 (N225)450 kg hm-2 (N450)处理下,具有较高的GCA效应,是较好的氮高效育种材料,其杂交组合BL12×178BL48×478分别在N225N450处理下表现较优,是优良的氮高效杂交组合。

关键词: 玉米, NC-II, 氮效率, 配合力

Abstract:

Traits related to maize yield and nitrogen efficiency were analyzed in 108 hybrids (18 female inbred lines and six male standard testers). Nitrogen efficiency related traits in maize inbred lines were statistically analyzed in NC-II design experiments, and yield and nitrogen efficiency characters of the hybridized combination were evaluated in combining ability analysis. The results showed that relative chlorophyll content, which was significantly correlated to nitrogen use efficiency at silking stage in two treatments, could be used to evaluate maize inbred lines. Nitrogen use efficiency played the main role in control treatment; however absorption efficiency was more important when nitrogen was applied. Combining ability analysis indicated that at least one inbred with higher general combining ability (GCA) were necessary to make a combination with high specific combining ability (SCA)   in nitrogen efficiency breeding. Total combining ability (TCA) of the parents determined the yield and nitrogen efficiency in F1, certifying TCA could be used as theoretical basis in nitrogen efficiency breeding. Inbred lines, BL12 in N225 treatment and BL48 in N450 treatment, presented higher GCA, performing as potential good breeding materials; BL12×178 in N225 treatment and BL48×Ye 478 in N450 treatment were outstanding nitrogen efficiency combinations.

Key words: Maize, NC-II, Nitrogen efficiency, Combining ability

[1]李秧秧, 邵明安. 小麦根系对水分和氮肥的生理生态反应. 植物营养与肥料学报, 2000, 6: 383–388



Li Y Y, Shao M A. Physio-ecological response of spring wheat root to water and nitrogen. Plant Nutr Fert Sci, 2000, 6: 383–388 (in Chinese with English abstract)



[2]陈范骏, 米国华, 张福锁. 玉米氮高效组合杂种优势分析. 玉米科学, 2006, 14(4): 125–128



Chen F J, Mi G H, Zhang F S. Analysis of heterosis for nitrogen use efficiency in maize. J Maize Sci, 2006, 14(4): 125–128 (in Chinese with English abstract)



[3]甄新爱, 黄亚群, 陈景堂, 刘志增. 不同氮效率玉米基因型苗期对光和氮响应的研究. 中国农学通报, 2009, 25(10): 89–95



Zhen X A, Huang Y Q, Chen J T, Liu Z Z. The response of three maize inbred seedling with the different nitrogen use efficiency to light and nitrogen. Chin Agric Sci Bull, 2009, 25(10): 89–95 (in Chinese with English abstract)



[4]彭云峰, 张吴平, 李春俭. 不同氮吸收效率玉米品种的根系构型差异比较: 模拟与应用. 中国农业科学, 2009, 42: 843–853



Peng Y F, Zhang W P, Li C J. Relationship between nitrogen efficiency and root architecture of maize plants: simulation and application. Sci Agric Sin, 2009, 42: 843–853(in Chinese with English abstract)



[5]米国华, 陈范骏, 春亮, 郭亚芬, 田秋英, 张福锁. 玉米氮高效品种的生物学特征. 植物营养与肥料学报, 2007, 13: 155–159



Mi G H, Chen F J, Chun L, Guo Y F, Tian Q Y, Zhang F S. Biological characteristics of nitrogen efficient maize genotypes. Plant Nutr Fert Sci, 2007, 13: 155–159 (in Chinese with English abstract)



[6]张瑞珍, 张恩和, 孙长占. 不同基因型玉米品种氮素营养效率差异的研究. 吉林农业大学学报, 2003, 25: 183–186



Zhang R Z, Zhang E H, Sun C Z. Study different genotype maize variety on diversity of nitrogen nutrition efficiency. Jilin Agric Univ, 2003, 25: 183–186 (in Chinese with English abstract)



[7]陈范骏, 米国华, 春亮. 玉米氮效率的杂种优势分析. 作物学报, 2004, 30: 1014–1018



Chen F J , Mi G H, Chun L. Analysis of heterosis for nitrogen use efficiency in maize. Acta Agron Sin, 2004, 30: 1014–1018 (in Chinese with English abstract)



[8]Lafitte H R, Edmeades G O. Improvement for tolerance to soil nitrogen in tropical maize: III. Variation in yield across environments. Field Crops Res, 1994, 39: 27–38



[9]Presterl T, Seitz G, Landbeck M. Nitrogen efficiency and varietal health. New Tasks for Maize Breeding, Mais, 1994, (2): 51–53



[10]王进军, 黄瑞冬. 玉米氮效率及其研究进展. 玉米科学, 2005, 13(1): 89–92



Wang J J, Huang R D. Nitrogen use efficiency and its research advances in maize. J Maize Sci, 2005, 13(1): 89–92 (in Chinese with English abstract)



[11]米国华, 刘建安, 张福锁. 玉米杂交种氮效率的构成因素分析. 中国农业大学学报, 1998, 3(增刊): 97–104



Mi G H, Liu J A, Zhang F S. Analysis on agronomic efficiency and its components of maize. J China Agric Univ, 1998, 3(suppl): 97–104 (in Chinese with English abstract)



[12]王艳, 米国华, 陈范骏, 张福锁. 玉米自交系氮效率基因型差异的比较研究. 应用与环境生物学报, 2002, 8: 361–365



Wang Y, Mi G H, Chen F J, Zhang F S. Genotypic difference in nitrogen efficiency of five maize inbred lines as affected by nitrate levels. China J Appl Environ Biol, 2002, 8: 361–365 (in Chinese with English abstract)



[13]陈新平, 周金池, 王兴仁, 张福锁. 小麦、夏玉米不同品种(系)之间的氮营养效率的差异. 中国农业大学学报, 2000, 5(1): 80–83



Chen X P, Zhou J C, Wang X R, Zhang F S. Difference in nitrogen efficiency among different winter wheat and summer corn varieties. China Agric Univ, 2000, 5(1): 80–83 (in Chinese with English abstract)



[14]邱登林, 邢燕菊, 张青, 周柱华, 徐立华, 阴卫军, 张风云, 韩金龙. 6个玉米自交系数量性状配合力的分析. 山东农业科学, 2005, (4): 18–20



Qiu D L, Xing Y J, Zhang Q, Zhou Z H, Xu L H, Yin W J, Zhang F Y, Han J L. Analysis of combining ability for quantitative characters of 6 maize inbred lines. Shandong Agric Sci, 2005, (4): 18–20 (in Chinese)



[15]向春阳, 田秀平, 董炳友, 杨克军. 氮高效玉米主要性状的遗传分析. 遗传, 2005, 27: 387–390



Xiang C Y, Tian X P, Dong B Y, Yang K J. Heredity analysis of main characters of nitrogen use efficiency in maize. Hereditas, 2005, 27: 387–390 (in Chinese with English abstract)



[16]陈范骏, 米国华, 刘向生, 刘建安, 王艳, 张福锁. 玉米氮效率性状的配合力分析. 中国农业科学, 2003, 36: 134–139



Chen F J, Mi G H, Liu X S, Liu J A, Wang Y, Zhang F S. Combination ability analysis of traits related to nitrogen use efficiency in maize. Sci Agric Sin, 2003, 36: 134–139 (in Chinese with English abstract)



[17]陈国平, 高聚林, 赵明, 董树亭, 李少昆, 杨祁峰, 刘永红, 王立春, 薛吉全, 柳京国, 李潮海, 王永宏, 王友德, 宋慧欣, 赵久然. 近年我国玉米超高产田的分布、产量构成及关键技术, 作物学报, 2012, 38: 80−85



Chen G P, Gao J L, Zhao M, Dong S T, Li S K, Yang Q F, Liu Y H, Wang L C, Xue J Q, Liu J G, Li C H, Wang Y H, Wang Y D, Song H X, Zhao J R. Distribution, yield structure, and key cultural techniques of maize super-high yield plots in recent years. Acta Agron Sin, 2012, 38: 80−85 (in Chinese with English abstract)



[18]Moll R H , Kamprath E J, Jackson W A. Analysis and interpretation of factors which contribute to efficiency of nitrogen utilization. Agron J, 1982, 74: 562–568



[19]Edmeades G O, Banziger M, Mickelson H R, Pena-Valdivia C B. Developing Drought and Low N Tolerant Maize. New York: CIMMYT, 1997. pp 222–234



[20]吴良欢, 陶勤南. 水稻叶绿素计诊断追氮法研究. 浙江农业大学学报, 1999, 25: 135–138



Wu L H, Tao Q N. Nitrogen fertilizer application based on the diagnosis of nitrogen nutrition of rice plants. J Zhejiang Agric Univ, 1999, 25: 135-138 (in Chinese with English abstract)



[21]李刚华, 丁艳峰, 薛利红, 王绍华. 利用叶绿素计SPAD 502诊断水稻氮素营养和推荐追肥的研究进展. 植物营养与肥料学报, 2005, 11: 412–416



Li G H, Ding Y F, Xue L H, Wang S H. Research progress on diagnosis of nitrogen nutrition and fertilization recommendation for rice by use chlorophyll. Plant Nutr Fert Sci, 2005, 11: 412–416 (in Chinese with English abstract)



[22]冯学民, 向春阳, 田秀萍, 杨克军, 董炳友. 黑龙江省几个玉米杂交种氮效率差异的分析. 黑龙江八一农垦大学学报, 2004, 16(1): 1–6



Feng X M, Xiang C Y, Tian X P, Yang K J, Dong B Y. Analysis of nitrogen use efficiency differences among several maize hybrids of Heilongjiang Province. J Heilongjiang August First Land Reclamation Univ, 2004, 16(1): 1–6 (in Chinese)



[23]Sattelmacher B, Horst W J, Becker H C. Factors that contribute to genetic variation for nutrient efficiency of crop plants. Plant Nutr Soil Sci, 1994, 157: 215–224



[24]闫飞燕, 范继征, 周锦国, 程伟东, 石达金, 钟昌松, 覃兰秋, 孔祥林. 12个不同玉米热带种质比例群体的产量配合力效应及杂种优势分析. 西南农业学报, 2011, 24: 471–477



Yan F Y, Fan J Z, Zhou J G, Cheng W D, Shi D J, Zhong C S, Tan L Q, Kong X L. Combining ability and heterosis of 12 different kinds of tropic maize populations. Southwest China J Agric Sci, 2011, 24: 471–477 (in Chinese with English abstract)



[25]金明华, 李继竹, 于铁, 杨巍, 杨伟光. 不同密度条件玉米株系间的杂种优势及配合力研究. 华南农业大学学报, 2009, 30(2): 1–5



Jin M H, Li J Z, Yu T, Yang W, Yang W G. Research on heterosis and combining ability of maize lines under different density. J South China Agric Univ, 2009, 30(2): 1–5 (in Chinese with English abstract)



[26]王铁固, 赵新亮, 张怀胜, 马娟, 佘宁安, 陈士林. 玉米产量及相关性状的配合力分析和遗传参数估算. 广东农业科学, 2012, (10): 15–17



Wang T G, Zhao X L, Zhang H S, Ma J, She N A, Chen S L. Analysis of combining ability and estimation of genetic parameters of yield and related traits in maize. Guangdong Agric Sci, 2012, (10): 15–17 (in Chinese with English abstract)



[27]余世权, 苟才明, 黄宁, 张吉海, 徐克成. 17个玉米地方种质选系的育种潜势分析. 中国农学通报, 2010, 26(22): 81–86



Yu S Q, Gou C M, Huang N, Zhang J H, Xu K C. Analysis on breeding potential of 17 maize inbred lines from landraces. Chin Agric Sci Bull, 2010, 26(22): 81–86 (in Chinese with English abstract)



[28]韩登旭, 邵红雨, 阿布来提•阿布拉, 梁晓玲, 李铭东, 杨杰. 几个早熟玉米自交系配合力和遗传参数分析. 新疆农业科学, 2010, 47: 1541–1545



Han D X, Shao H Y, Abulaiti•Abul, Liang X L, Li M D, Yang J. Analysis of combining ability and genetic parameters of early maturing maize inbred strain. Xinjiang Agric Sci, 2010, 47: 1541–154 (in Chinese with English abstract)

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