Abstract
In Mexico's territory, the center of origin and domestication of maize (Zea mays), there is a large phenotypic diversity of this crop. This diversity has been classified into “landraces.” Previous studies have reported that genomic variation in Mexican maize is better explained by environmental factors, particularly those related with altitude, than by landrace. Still, landraces are extensively used by agronomists, who recognize them as stable and discriminatory categories for the classification of samples. In order to investigate the genomic foundation of maize landraces, we analyzed genomic data (35,909 SNPs from Illumina MaizeSNP50 BeadChip) obtained from 50 samples representing five maize landraces (Comiteco, Conejo, Tehua, Zapalote Grande, and Zapalote Chico), and searched for markers suitable for landrace assignment. Landrace clusters could not be identified taking all the genomic information, but they become manifest taking only a subset of SNPs with high FST among landraces. Discriminant analysis of principal components was conducted to classify samples using SNP data. Two classification analyses were done, first classifying samples by landrace and then by altitude category. Through this classification method, we identified 20 landrace-informative SNPs and 14 altitude-informative SNPs, with only 6 SNPs in common for both analyses. These results show that Mexican maize phenotypic diversity can be classified in landraces using a small number of genomic markers, given the fact that landrace genomic diversity is influenced by environmental factors as well as artificial selection due to bio-cultural practices.
Highlights
Maize (Zea mays) is grown in most of Mexico under contrasting environmental conditions, from tropical rainforests to arid semideserts, and by farmers from a variety of cultural backgrounds (Boege, 2008; Ruiz Corral et al, 2013)
The domestication and improvement SNP set consists of 974 SNPs located within the loci associated with domestication and improvement reported by Hufford et al (2012) and Meyer and Purugganan (2013)
We found that samples of Mexican maize can be classified by landrace using only a small number of SNPs
Summary
Maize (Zea mays) is grown in most of Mexico under contrasting environmental conditions, from tropical rainforests to arid semideserts, and by farmers from a variety of cultural backgrounds (Boege, 2008; Ruiz Corral et al, 2013). The phenotypic and genetic diversity of maize landraces is influenced by a multiplicity of environmental and bio-cultural factors. Environmental factors are mainly correlated to temperature and rainfall, while bio-cultural variables relate to Distinguishing Maize Landraces with SNPs socioeconomic factors and the distribution of ethnic diversity (Boege, 2008; Perales and Golicher, 2014). We aim to distinguish between natural and artificial selection as drivers of genomic variation among landraces. This is a challenge rarely addressed, but necessary for safeguarding maize diversity considering the factors affecting maize genetic diversity, as well as for rationally guiding crop improvement in the face of changing environmental conditions
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