2015

DOI: 10.1007/s10681-015-1506-0

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Heterotic responses among crosses of IITA and CIMMYT early white maize inbred lines under multiple stress environments

B. Badu‐Apraku¹,

M. A. B. Fakorede

²

,

et al.

Abstract: Two major constraints militating against the achievement of food security in West Africa (WA) are recurrent drought and poor soil fertility. Seventeen early maturing maize inbreds from IITA and CIMMYT were used as parents to produce 136 diallel crosses which were evaluated along with four checks in contrasting environments at four locations for 2 year in Nigeria. The objectives of the study were to (i) examine the combining ability of the lines under drought, low soil nitrogen (low N), optimal and across envir… Show more

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Methods2

Comparison Of the Efficiency Of The Heterotic Grouping Methods1

Gene Action and Combining Abilities For Fsr1

Comparación De Medias1

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Cited by 31 publications

(45 citation statements)

References 42 publications

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“…For details on the observations made on traits and the appropriate scoring scales used in this research, refer to Badu‐Apraku et al. ().…”

Section: Methodsmentioning

confidence: 99%

“…The statistical model employed for the combined analysis in the present study has been previously described by Badu‐Apraku et al. (). Broad‐sense heritability (H 2 ) of the traits was estimated as the proportion of the phenotypic variance contributed by the genetic variance based on the hybrid means, following the method of Hallauer, Carena, and Filho ().…”

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Genetic studies of extra‐early provitamin‐A maize inbred lines and their hybrids in multiple environments

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²

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³

et al. 2020

Self Cite

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Vitamin A deficiency, drought, low soil nitrogen (low-N), and Striga hermonthica parasitism of maize (Zea mays L.) cause malnutrition and food insecurity in sub-Saharan Africa. The objectives of this study were to determine combining abilities of extra-early provitamin A (PVA) lines, classify them into heterotic groups (HGs), identify testers, and determine yield stability of hybrids under contrasting environments in two trials. In Trial 1, 190 F 1 hybrids plus six checks were tested under Strigainfested, drought, and stress-free environments in Nigeria from 2015-2017. In Trial 2, 35 extra-early yellow hybrids were evaluated under low-N, Striga-infested, and stress-free environments in 2018. TZEEIOR 202 and TZEEIOR 205 had PVA concentrations of 23.98 and 22.56 μg g −1 . TZEEIOR 197 × TZEEIOR 205 (20.1 μg g −1 ) and TZEEIOR 202 × TZEEIOR 205 (22.7 μg g −1 ) contained about double the PVA level of the commercial check, TZEEI 58 × TZEE-Y Pop STR C5 (11.4 μg g −1 ). Both general (GCA) and specific (SCA) combining ability variances were significant for most agronomic traits, although GCA was larger than SCA effects, indicating GCA effects primarily controlled the inheritance of those traits. TZEEIOR 97 and TZEEIOR 197

“…For details on the observations made on traits and the appropriate scoring scales used in this research, refer to Badu‐Apraku et al. ().…”

Section: Methodsmentioning

confidence: 99%

“…The statistical model employed for the combined analysis in the present study has been previously described by Badu‐Apraku et al. (). Broad‐sense heritability (H 2 ) of the traits was estimated as the proportion of the phenotypic variance contributed by the genetic variance based on the hybrid means, following the method of Hallauer, Carena, and Filho ().…”

Section: Methodsmentioning

confidence: 99%

Genetic studies of extra‐early provitamin‐A maize inbred lines and their hybrids in multiple environments

¹

,

²

,

³

et al. 2020

Self Cite

View full text Add to dashboard Cite

Vitamin A deficiency, drought, low soil nitrogen (low-N), and Striga hermonthica parasitism of maize (Zea mays L.) cause malnutrition and food insecurity in sub-Saharan Africa. The objectives of this study were to determine combining abilities of extra-early provitamin A (PVA) lines, classify them into heterotic groups (HGs), identify testers, and determine yield stability of hybrids under contrasting environments in two trials. In Trial 1, 190 F 1 hybrids plus six checks were tested under Strigainfested, drought, and stress-free environments in Nigeria from 2015-2017. In Trial 2, 35 extra-early yellow hybrids were evaluated under low-N, Striga-infested, and stress-free environments in 2018. TZEEIOR 202 and TZEEIOR 205 had PVA concentrations of 23.98 and 22.56 μg g −1 . TZEEIOR 197 × TZEEIOR 205 (20.1 μg g −1 ) and TZEEIOR 202 × TZEEIOR 205 (22.7 μg g −1 ) contained about double the PVA level of the commercial check, TZEEI 58 × TZEE-Y Pop STR C5 (11.4 μg g −1 ). Both general (GCA) and specific (SCA) combining ability variances were significant for most agronomic traits, although GCA was larger than SCA effects, indicating GCA effects primarily controlled the inheritance of those traits. TZEEIOR 97 and TZEEIOR 197

“…The authors found the HSGCA method to be superior to the SCA effect of grain yield method. In a similar study involving IITA and CIMMYT early-maturing white maize inbreds evaluated under multiple stress environments, the HSGCA method classified the lines into three groups and was the most efficient because it had the highest breeding efficiency in the test environments followed by the HGCAMT, SNP marker-based GD and the SCA effects of grain yield methods (Badu-Apraku et al, 2015b). Similarly, Akinwale et al (2014) identified HSGCA as the most efficient method in classifying early-maturing tropical maize inbreds under Strigainfested and Striga-free environments.…”

Section: Comparison Of the Efficiency Of The Heterotic Grouping Methodsmentioning

confidence: 99%

Heterotic Patterns of IITA and CIMMYT Early‐Maturing Yellow Maize Inbreds under Contrasting Environments

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²

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³

et al. 2016

Agronomy Journal

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Drought and low soil nitrogen (low-N) constitute major constraints to maize (Zea mays L.) production in West Africa (WA). Th e International Institute of Tropical Agriculture (IITA) and International Center for Maize and Wheat Improvement (CIMMYT) have developed drought and low-N tolerant inbreds for Africa. Combinations between selected IITA and CIMMYT inbreds could produce outstanding hybrids. Diallel crosses of 12 IITA and fi ve CIMMYT early yellow inbreds plus four checks were evaluated under drought, low-N and optimal conditions at four locations in Nigeria for 2 yr. Th e objectives were to examine the combining ability of the inbreds for grain yield and other traits, classify the lines into heterotic groups, identify best testers under the contrasting environments, assess genotype × environment interactions and evaluate the yield performance and stability of single-cross hybrids. Grouping of the inbred lines was done with heterotic group's specifi c combining ability (SCA) and general combining ability (GCA) (HSGCA), single nucleotide polymorphism based genetic distance (SNP-GD) and GCA eff ects of multiple traits (HGCAMT) methods. Th e GCA mean squares for all traits were greater than SCA mean squares in all environments. Th e inbreds were classifi ed into four heterotic groups each across environments by HSGCA and SNP-GD while HGCAMT method placed them into three groups. HGCAMT was the most effi cient followed by HSGCA and then SNP-GD method. Th e HGCAMT identifi ed inbreds ENT 17, ENT 15, and ENT 8 as best testers for heterotic Groups 1, 2, and 3. Hybrids TZEI 17 × ENT 15, and TZEI 149 × ENT 15 were outstanding across environments.

“…SCA variance was found to be non-significant, suggesting the preponderance of additive gene action for FSR resistance at this location. It suggests that early generation testing would be effective and selection of hybrids could be solely based on the prediction of GCA effects (Badu-Apraku et al, 2015). The relative importance of GCA and SCA effects was estimated by the ratio of GCA effects to the total genetic effect (Baker, 1978).…”

Section: Gene Action and Combining Abilities For Fsrmentioning

confidence: 99%

Genetic analysis of resistance to post flowering stalk rot in tropical germplasm of maize ( Zea mays L.)

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et al. 2018

Crop Protection

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Post flowering stalk rot (PFSR) is one of the major biotic constraints to maize production in tropical and subtropical environments. It is a complex disease caused by multiple pathogens, among which Fusarium moniliforme and Macrophomina phaseolina are the major ones that cause severe yield losses in the Asian tropics. A set of maize inbred lines was evaluated at two locations for Fusarium stalk rot (FSR) and Macrophomina stalk rot (MSR). Based on line evaluation trials, resistant and susceptible lines were selected and crossed following a Diallel mating design IV to study the gene action for resistance to these stalk rots and the estimating the combining ability of inbred lines. A 9 × 9 diallel (Diallel-A) produced 36 hybrids for studying FSR resistance, and a 12 × 12 diallel (Diallel-B) produced 66 hybrids to analyse the resistance towards both FSR and MSR. These hybrids were evaluated at two locations for MSR and one location for FSR with artificial inoculation. The hybrids differed significantly for FSR (p < 0.05), as was the general combining ability (GCA) effects (p < 0.01), while Specific combining ability (SCA) effects were found to be non-significant. The analysis of the trials under MSR, showed significant difference for GCA, SCA, GCA × environment (p < 0.01), and hybrid × environment (p < 0.05) while SCA × environment was non-significant. The Baker ratio, which shows the relative importance of GCA over SCA, was close to unity for both the stalk rots, and hence a predominant additive gene effect was inferred towards resistance to these diseases. Though the GCA × environment interaction was significant for MSR, this study identified lines and their cross combinations with high resistance and large GCA and SCA effects across environments for FSR and MSR This offers scope for source population improvement for resistance to these stalk rots, as well as developing maize hybrids with stable resistance to Post flowering stalk rot.

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