Abstract
Genetic gain within the CIMMYT Eastern and Southern Africa (ESA) hybrid maize (Zea mays L.) breeding program from 2000 to 2010 was recently estimated at 0.85 to 2.2% yr−1 under various environmental conditions. Over 100 varieties were disseminated from CIMMYT to farmers in ESA, hence the need to check genetic diversity and frequency of use of parents to avoid potential narrowing down of the genetic base. Fifty‐five parents from CIMMYT ESA used in the hybrids were fingerprinted using genotyping‐by‐sequencing. Data analysis in TASSEL and MEGA6 generated pairwise genetic distances between parents of 0.004 to 0.4005. Unweighted pair group method with arithmetic mean (UPGMA) analysis produced two clusters (I and II) with two subclusters each (A and B) and two sub‐subclusters (IAi and IAii). Principal coordinate analysis produced three clusters where IAi and IIA from the UPGMA analysis formed independent clusters while IAii, IB, and IIB clustered together. Lines were separated by pedigree and origin. Ninety‐five percent frequency of pairwise genetic distances ranged between 0.2001 and 0.4000. However, only four of the 55 parents (CML444, CML395, CML312, and CML442) were each used in 15 to 30 of the 52 hybrids evaluated in the genetic gain study. The remaining 51 were used in one to four hybrids. Frequent use of the four parents gave 29 to 58% of the hybrids a narrow genetic base, posing risk in case of pest or disease outbreaks. Parents evaluated do not represent the genetic base of CIMMYT ESA but parents of the best‐performing hybrids selected from 2000 to 2010. Breeders should ensure a wide genetic base for released varieties to avoid breakdown in case of pest or disease outbreaks.
Highlights
Genetic gain within the CIMMYT Eastern and Southern Africa (ESA) hybrid maize (Zea mays L.) breeding program from 2000 to 2010 was recently estimated at 0.85 to 2.2% yr−1 under various environmental conditions
Parents analyzed could further be classified according to the program in which they were developed; that is, CIMMYT Kenya Line (CKL) for CIMMYT Kenya prerelease CIMMYT maize line (CML) lines developed in Kenya, CIMMYT Zimbabwe line (CZL) for CIMMYT Zimbabwe prerelease CML lines developed in Zimbabwe, and CML for released CIMMYT Maize Lines developed or introduced in the Kenya or Zimbabwe breeding programs
High heterogeneity recorded among four CZL and two CML lines could be due to the bulk genotyping, a result of either residual heterozygosity or a combination of two homozygous Single-nucleotide polymorphism (SNP), and can be reduced by selfing and selection to purify the lines
Summary
Genetic gain within the CIMMYT Eastern and Southern Africa (ESA) hybrid maize (Zea mays L.) breeding program from 2000 to 2010 was recently estimated at 0.85 to 2.2% yr−1 under various environmental conditions. In Sub-Saharan Africa (SSA), where >300 million people, mostly resource-poor farmers, rely on maize (Zea mays L.) for food, feed, and livelihood (Bänziger and Aurus, 2007; M’mboyi et al, 2010; Rovere et al, 2010; Tefera et al, 2011), grain yield is estimated at
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