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Heterosis and combining ability of CIMMYT quality protein maize germplasm: I Lowland tropical

By: Vasal, S.K.
Contributor(s): Beck, D.L [coaut.] | Gonzalez Ceniceros, F [coaut.] | Pandey, S [coaut.] | Srinivasan, G [coaut.] | Crossa, J [coaut.].
Material type: materialTypeLabelArticlePublisher: 1993ISSN: 1435-0653 (Revista en electrónico).Subject(s): Combining ability | Genotype environment interaction AGROVOC | Germplasm | Hybrid vigour | Lowland | Protein quality AGROVOC | Tropical zones | Zea mays AGROVOC | Yields AGROVOC | Hybrids AGROVOC | Plant breeding AGROVOC In: Crop Science v. 33, no. 1, p. 46-51625299Summary: CIMMYT has developed a wide array of hard endosperm opaque-2 (o2) maize germplasm, through the combined use of two genetic systems involving the o2 gene for improving protein quality and the genetic modifiers of the o2 locus for improving grain phenotype and ameliorating other o2-associated defects. The objective of this study was to determine the heterotic patterns and combining ability of tropical quality protein maize (QPM) germplasm, and to identify superior germplasm suitable for hybrid development. Ten parents (four QPM pools, five QPM populations, and experimental variety PR7737) were used in a diallel study in eight environments. Data on grain yield, time to silk, plant height, and endosperm hardness were recorded. GCA effects were highly significant for all traits and SCA effects were significant for time to silk and plant height. Genotype x environment interactions and their partitions were significant for grain yield and endosperm hardness. Pool 24 QPM was the highest-yielding parent (6.48 t/ha) and Pod 24 QPM x Population 63 was the highest-yielding cross (6.56 t/ha) among hard endosperm parents. PR7737, a soft endosperm opaque-2, was low yielding as a parent, but performed better in crosses with other hard endosperm parents and showed high heterosis. High-parent heterosis for grain yield was generally low in all crosses except those involving PR7737 as a parent. Endosperm hardness ratings were intermediate relative to the parents, suggesting polygenic control. Crosses among white endosperm parents generally performed better than crosses among yellow endosperm parents. Crosses among dents and dent x flints yielded higher than flint crosses, but flint parents and their crosses had a superior endosperm modification compared with dents. Populations 62, 63, and PR7737 showed significant positive GCA effects for grain yield; Pool 23 QPM, Pool 25 QPM, and Populations 62, 64, and 65 had significant negative GCA effects for endosperm hardness. Populations 62 and 63 among white endosperm materials and Population 65 among yellow endosperm could be used for initiating hybrid development work. The broad genetic base provides opportunities for developing intrapopulation interline hybridsCollection: CIMMYT Staff Publications CollectionCollection: Serials Collection
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Article CIMMYT Knowledge Center: John Woolston Library

Lic. Jose Juan Caballero Flores

 

Look under journal title (Browse shelf) 1 Available 625299
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Peer-review: Yes - Open Access: Yes|http://science.thomsonreuters.com/cgi-bin/jrnlst/jlresults.cgi?PC=MASTER&ISSN=0011-183X

CIMMYT has developed a wide array of hard endosperm opaque-2 (o2) maize germplasm, through the combined use of two genetic systems involving the o2 gene for improving protein quality and the genetic modifiers of the o2 locus for improving grain phenotype and ameliorating other o2-associated defects. The objective of this study was to determine the heterotic patterns and combining ability of tropical quality protein maize (QPM) germplasm, and to identify superior germplasm suitable for hybrid development. Ten parents (four QPM pools, five QPM populations, and experimental variety PR7737) were used in a diallel study in eight environments. Data on grain yield, time to silk, plant height, and endosperm hardness were recorded. GCA effects were highly significant for all traits and SCA effects were significant for time to silk and plant height. Genotype x environment interactions and their partitions were significant for grain yield and endosperm hardness. Pool 24 QPM was the highest-yielding parent (6.48 t/ha) and Pod 24 QPM x Population 63 was the highest-yielding cross (6.56 t/ha) among hard endosperm parents. PR7737, a soft endosperm opaque-2, was low yielding as a parent, but performed better in crosses with other hard endosperm parents and showed high heterosis. High-parent heterosis for grain yield was generally low in all crosses except those involving PR7737 as a parent. Endosperm hardness ratings were intermediate relative to the parents, suggesting polygenic control. Crosses among white endosperm parents generally performed better than crosses among yellow endosperm parents. Crosses among dents and dent x flints yielded higher than flint crosses, but flint parents and their crosses had a superior endosperm modification compared with dents. Populations 62, 63, and PR7737 showed significant positive GCA effects for grain yield; Pool 23 QPM, Pool 25 QPM, and Populations 62, 64, and 65 had significant negative GCA effects for endosperm hardness. Populations 62 and 63 among white endosperm materials and Population 65 among yellow endosperm could be used for initiating hybrid development work. The broad genetic base provides opportunities for developing intrapopulation interline hybrids

Genetic Resources Program

English

MP|Crop Science Society of America (CSSA)|R93ANALY|1

CCJL01

CIMMYT Staff Publications Collection

Serials Collection

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