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Acta Agron Sin ›› 2009, Vol. 35 ›› Issue (11): 2133-2138.doi: 10.3724/SP.J.1006.2009.02133

• RESEARCH ACTIVITIES • Previous Articles    

Genetics of Lodging in Tolerance to Maize Stem Puncture

FENG Guang1,2,LIU Zhi-Fang1,LI Yan-Yan2,XING Jin-Feng3,HUANG Chang-Ling1   

  1. 1Institute of Crop Sciences,Chinese Academy of Agricultural Sciences,Beijing 100081,China;2Dandong Academy of Agricultural Sciences,Liaoning Province,Fengcheng 118109,China;3Maize Research Center,Beijing Academy of Agricultural and Forestry Sciences,Beijing 100097,China
  • Received:2009-02-23 Revised:2009-06-25 Online:2009-11-12 Published:2009-09-10
  • Contact: HUANG Chang-Ling, E-mail: huangchl@mail.caas.net.cn; Tel: 010-82108738

Abstract:

Six generations of maize hybrids from Shendan 16 and Zhengdan 958 were used in the study, the third internode of maize stem above ground was punctured at the middle part along with the direction of elliptical and short diameter by self-designed maize stem puncture equipment. F1, F2, BC1, BC2, P1, and P2 were used to study the inheritance of maize stem lodging with joint analysis of multiple generations. The results were as follows: maize stem puncture tolerance trait presented a two peak distribution in the F2 population of two hybrids, and a multi-peak distribution in the BC1 and BC2 populations, indicating that the trait was quantitative in nature and controlled by polygene; the inheritance of maize stem puncture tolerance trait fitted the model of a pair of additive-dominance-epitasis major gene plus additive-dominance-epitasis polygene (D Model); the major gene heritability was between 34.5% and 45.7%; the polygene heritability was between 41.6% and 56.3%. The effects of major gene and polygene heritability were important on maize stem lodging inheritance, and should be paid more attention in maize breeding.

Key words: Maize, Stem, Puncture, Lodging resistance, Genetic

[1]Feng G(丰光), Huang C-L(黄长玲), Xing J-F(邢锦丰). The research progress in maize lodging. Crops (作物杂志), 2008, (4): 12-14 (in Chinese)
[2] Radu A, Paraschivu U. Use of genetic estimates in breeding maize for resistance to stem breakage. Lucrari stiintifice(Romania), 1994, 7: 70-80

[3] Stojsin R, Ivanovic M, Kojic L, Stojsin D. Inheritance of grain-yield and several stalk characteristics significant in resistance to stalk lodging in maize (Zea mays L.). Maydica, 1991, 36: 75-81

[4] Koinyma K. Heterotic effect for root lodging resistance in F1 hybrids among dent and flint inbred lines of maize. Maydica, 1998, 43: 13-17
[5] Gai J-Y(盖钧镒), Zhang Y-M(章元明), Wang J-K(王建康). Genetic System of Quantitative Traits in Plants (植物数量性状遗传体系), 2nd edn. Beijing: Science Press, 2003. pp 224-260 (in Chinese)
[6]Kong F-L(孔繁玲). Quantitative Genetics in Plants (植物数量遗传学), 6th edn. Beijing: Chinese Agricultural University Press, 2006. pp 158-186 (in Chinese)
[7] Mo H-D(莫惠栋). Genetic analysis for qualitative-quantitative traits: I. The genetic constitution of generation populations and the identification of major gene genotypes. Acta Agron Sin(作物学报), 1993, 19(1): 1-6 (in Chinese with English abstract)
[8] Mo H-D(莫惠栋). A genetic analysis of generation means: II. Estimates of genetic effects for additive-dominance-epistasis model. J Jiangsu Agric Coll (江苏农学院学报), 1985, 6(1): 53-59 (in Chinese with English abstract)
[9] Wang J-K(王建康), Gai J-Y(盖钧镒). Identification of major gene and polygene mixed inheritance model and estimation of genetic parameters of a quantitative trait from F2 progeny. Acta Genet Sin (遗传学报), 1997, 24(5): 432-440(in Chinese with English abstract)
[10] Wang J, Podlic D W, Cooper M, Delacy I H. Power of the joint segregation analysis method for testing mixed major-gene and polygene inheritance models of quantitative traits. Theor Appl Genet, 2001, 103: 804-816

[11] Wang J, Gai J. Identification of major-polygene mixed inheritance model of quantitative traits from F2 population. Chin J Genet, 1997, 24(3): 181-190
[12] Wang J, Gai J. The inheritance of resistance of soybeans to Agromyzid beanfly (Melanagromyza sojae Zehntner)—Mixed major gene and polygenes genetic analysis. Euphytica, 2001, 122: 9-18
[13] Zhang Y-M(章元明), Gai J-Y(盖钧镒), Wang J-K(王建康). Identification of major gene and polygene mixed inheritance model and estimation of genetic parameters of quantitative trait from B1 and B2 or F2 progeny. J Biomath (生物数学学报), 2000, 15(3): 358-366 (in Chinese with English abstract)
[14] Zhan Q-W(詹秋文), Gai J-Y(盖钧镒), Zhang Y-M(章元明), Yu D-Y(喻德跃). Inheritance of resistance of soybeans to leaf-eating insects. Sci Agric Sin (中国农业科学), 2002, 35(8): 1016-1020 (in Chinese with English abstract)
[15] Liu H(刘华), Wang H(王慧), Li Q(李群), Xu P(徐鹏), Gai J-Y(盖钧镒), Yu D-Y(喻德跃). Inheritance analysis and mapping QTLs related to cotton worm resistance in soybeans. Sci Agric Sin (中国农业科学), 2005, 38(7): 1369-1372 (in Chinese with English abstract)
[16] Li J-S(李纪锁), Shen H-L(沈火林), Shi Z-Q(石正强). Analysis on the major gene and polygene mixed inheritance of glycogen content in fresh consumptive tomato fruit. Heredities (遗传), 2006, 28(4): 458-462 (in Chinese with English abstract)
[17]Yan H-L(严慧玲), Fang Z-Y(方智远), Liu Y-M(刘玉梅), Wang Y-J(王永健), Yang L-M(杨丽梅), Zhuang M(庄木), Zhang Y-Y (张扬勇), Sun P-T(孙培田). Genetic effect of sterility of the dominant genic male sterile materile (DGM S79-399-3) in cabbage (Brassica oleraceavar capitata L.). Acta Hortic Sin (园艺学报), 2007, 34(1): 93-98 (in Chinese with English abstract)
[18] Wang J-S(王建设), Wang J-K(王建康), Zhu L-H(朱立宏), Gai J-Y(盖钧镒). Major-polygene effect analysis of resistance to bacterial blight (Xanthomonascampestris pv. oryzae) in rice. Acta Genet Sin (遗传学报), 2000, 27(1): 34-38 (in Chinese with English abstract)
[19] Zhang P-T(张培通), Zhu X-F(朱协飞), Guo W-Z(郭旺珍), Yu J-Z(俞敬忠), Zhang T-Z(张天真). Genetic analysis of yield and its components for high yield cultivar Simian 3 in G. hirsutum L. Acta Agron Sin (作物学报), 2006, 32(7): 1011-1017 (in Chinese with English abstract)
[20] Wei X(魏昕), Li L-H(李丽华), Wang J(王娟), Fan Q-Q(樊庆琦), Lan H(兰海), Wu Y-Q(吴元奇), Rong T-Z(荣廷昭), Pan G-T(潘光堂). Quantitative genetic analysis of silk cut in maize (Zea mays L.). Sci Agric Sin (中国农业科学), 2008, 41(8): 2235-2240 (in Chinese with English abstract)
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