Estimates of Combining Ability and Heterosis for Yield and Its Related Traits in Pearl Millet Inbred Lines under Downy Mildew Prevalent Areas of Senegal

Kanfany, Ghislain; Fofana, Amadou; Tongoona, Pangirayi; Danquah, Agyemang; Offei, Samuel Kwame; Danquah, Eric; Cissé, Ndiaga

doi:10.1155/2018/3439090

Cited by 14 publications

(20 citation statements)

References 7 publications

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“…Parental OPVs with a negative GCA for PH could be used to produce a hybrid with medium height and reduced lodging. The magnitude of σ²gca was higher than σ²sca for GY and other traits indicating the prevalence of additive gene action in the inheritance of these traits, which agrees with other studies on pearl millet (Kanfany et al 2018;Ouendeba et al 1993, Zaveri et al 1988. This ultimately facilitates the prediction of hybrid performance, because it can be predicted from their parental per se performance.…”

Section: Implications Of Combining Abilities For Selection Of Potentisupporting

confidence: 90%

“…Presence of heterosis was found in many of the previous studies on pearl millet. The trials that were based on line × tester designs with inbred parents cannot be compared directly with our results, but showed the potential of pearl millet top-cross hybrids for WA (Bidinger et al 1994;Bidinger et al 2005;Kanfany et al 2018;Mahalakshmi et al 1992;Yadav et al 2000). In our study, the PMPH and PBPH level of GY was relatively higher than of the other traits which agrees with several studies on heterosis in pearl millet (Bidinger et al 2003;Pucher et al 2016;Yadav et al 2006).…”

Section: The Extent Of Heterosis In Pearl Millet Hybrid Breeding In Wmentioning

confidence: 69%

“…Pearl millet [Pennisetum glaucum (L.)] is one of the most important cereal crops in arid and semi-arid regions of Africa and India, due to its ability to tolerate severe abiotic stress such as drought, high temperature, poor soil conditions and salinity (Gemenet et al 2015, Gemenet et al 2016Krishnamurthy et al 2007;Payne et al 1998;Pucher et al 2015;van Staveren and Stoop 1985). It is mainly produced by African and Indian smallholder farmers as their major source of food along with its usage as green biomass (Kanfany et al 2018) and building material (Mason et al 2015). As it can serve both human and animal nutrition, pearl millet is often used as "dual purpose" crop (Kelley et al 1996) in those countries.…”

Section: Introductionmentioning

confidence: 99%

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Heterosis and Combining Abilities in a Diverse Seven-Parent Pearl Millet Population Diallel Tested in West Africa

Dutta

Sattler

Pucher

et al. 2021

Preprint

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Pearl millet [Pennisetum glaucum (L.) R. Br.] is an important food-security crop to smallholder farmers in West Africa (WA). Breeding for high yield and stability is a major challenge in the harsh environments of WA but could be tackled by hybrid breeding. Knowledge of combining ability patterns and quantitative-genetic parameters is required for an efficient development of hybrid varieties. Hence, our objectives were to estimate the combining ability of seven genetically diverse Sahelian pearl millet populations from Senegal, Mali, Benin, Burkina Faso, Niger, Sudan and Nigeria and the heterosis and stability of their 42 diallel-derived population hybrids to inform pearl millet hybrid breeding. The genotypes were evaluated in six environments in WA in 2007. Grain yield (GY) exhibited an average panmictic mid-parent heterosis (PMPH) of 24%, ranging from -1.51% to 64.69%. General combining ability (GCA) was significant across test environments as reflected by high heritability estimates and high GCA:SCA variance ratios. Thus, early selection for parental per se performance would be rewarding. The parental population from Sudan (IP8679) had strongly negative GCA for GY. Its lack of adaptation contributed to the predominance of additive effects in the present germplasm set. Parental populations PE02987 (Senegal), PE05344 (Mali) and ICMV IS 92222 (Niger) showed large positive GCA for GY. Their offspring, especially PE02987 × PE05344 and Kapelga × ICMV IS 92222, exhibited a high and stable GY across all test environments. Tapping the regional pearl millet genetic diversity seems therefore beneficial for hybrid breeding to increase pearl millet productivity in WA.

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Section: Implications Of Combining Abilities For Selection Of Potentisupporting

confidence: 90%

Section: The Extent Of Heterosis In Pearl Millet Hybrid Breeding In Wmentioning

confidence: 69%

Section: Introductionmentioning

confidence: 99%

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Heterosis and Combining Abilities in a Diverse Seven-Parent Pearl Millet Population Diallel Tested in West Africa

Dutta

Sattler

Pucher

et al. 2021

Preprint

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“…Other crosses like ICMA 1 -15666 x 92-SB-18, ICMA 1 -15666 x J-2605 and JMSA 4 -20172 x 52-SB-18 having high mean value for grain yield and having significant positive heterobeltiosis and standard heterosis involved good x good, good x good and good x average combiners, respectively. These results are supported by Acharya (2017), Katba (2017), Solanki et al, (2017), Kanfany et al, (2018) and Kumawat et al, (2019).…”

Section: Gca and Sca Effectssupporting

confidence: 59%

Genetic Analysis in Pearl millet Using Line x Tester Design

Patel¹,

Dhedhi²,

Ramani³

et al. 2021

Int.J.Curr.Microbiol.App.Sci

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“…Finding the best hybrid parent combinations and selecting the best hybrids is usually challenged by the large number of test crosses that have to be produced and evaluated (Bernardo, 1994). Several approaches to predict hybrid performance were developed, starting with a phenotypic GCA-based hybrid prediction that repeatedly has been applied in pearl millet (Dutta, 2019;Kanfany et al, 2018;Ouendeba et al, 1993;Pucher et al, 2016;Sattler et al, 2019). Combining molecular marker information with phenotypic data in maize improved this approach considerably (Bernardo, 1998).…”

Section: Accelerating Heterotic Grouping With Genomic Selectionmentioning

confidence: 99%

A unified strategy for West African pearl millet hybrid and heterotic group development

Sattler

Haussmann

2020

Crop Science

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Smallholder farmers in Sahelian West Africa (WA) grow pearl millet [Pennisetum glaucum (L.) R. Br.] as a staple cereal in harsh and highly variable environments, predominantly relying on landraces or open‐pollinated varieties (OPVs) with an average grain yield of 648 kg ha−1 (2017). Encouraging initial results with experimental pearl millet population or topcross hybrids and the available diversity in its WA center of origin offer a great opportunity for a regionally coordinated hybrid breeding approach. This review is therefore meant to summarize information on pearl millet hybrid breeding with emphasis on WA and to suggest a unified strategy as a way forward. Observed average better‐parent heterosis ranged from 4–18% and 0–88% in population and topcross hybrids, respectively, across several studies, and the yield stability was comparable with or better than the parental OPVs. Diversity and combining ability studies pointed at eastern and western WA as promising starting points for systematic development of heterotic groups. Building on respective groups, reciprocal recurrent selection in combination with integration of further adapted genetic resources is recommended to systematically diversify and build up the heterotic parental pools, increase combining ability to the opposite group, and create a continuous output of OPV and hybrid varieties. Molecular markers supporting cytoplasmic male sterility (CMS) introgression are available, and genomic tools can improve hybrid prediction. Regarding the unpredictability and intensity of biotic and abiotic stresses, heterogeneous population and topcross hybrids appear most suitable to sustainably increase pearl millet yields and give maximal benefits to WA farmers.

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Estimates of Combining Ability and Heterosis for Yield and Its Related Traits in Pearl Millet Inbred Lines under Downy Mildew Prevalent Areas of Senegal

Cited by 14 publications

References 7 publications

Heterosis and Combining Abilities in a Diverse Seven-Parent Pearl Millet Population Diallel Tested in West Africa

Heterosis and Combining Abilities in a Diverse Seven-Parent Pearl Millet Population Diallel Tested in West Africa

Genetic Analysis in Pearl millet Using Line x Tester Design

A unified strategy for West African pearl millet hybrid and heterotic group development

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