Molecular evaluation of orphan Afghan common wheat (Triticum aestivum L.) landraces collected by Dr. Kihara using single nucleotide polymorphic markers
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Manickavelu Alagu, Abdul-Qader Jighly, Tomohiro Ban. (25/11/2014). Molecular evaluation of orphan Afghan common wheat (Triticum aestivum L. ) landraces collected by Dr. Kihara using single nucleotide polymorphic markers. BMC Plant Biology, 14: 320.
Abstract
Abstract
Background
Landraces are an important source of genetic diversity in common wheat, but archival
collections of Afghan wheat landraces remain poorly characterised. The recent development
of array based marker systems, particularly single nucleotide polymorphism (SNP) markers,
provide an excellent tool for examining the genetic diversity of local populations. Here we
used SNP analysis to demonstrate the importance of Afghan wheat landraces and found
tremendous genetic diversity and province-specific characteristics unique to this geographic
region.
Results
A total of 446 Afghan wheat landraces were analysed using genotype by sequencing (GBS)
arrays containing ~10 K unique markers. Pair-wise genetic distance analyses revealed
significant genetic distances between landraces, particularly among those collected from
distanced provinces. From these analyses, we were able to divide the landraces into 14 major
classes, with the greatest degree of diversity evident among landraces isolated from
Badakhshan province. Population-based analyses revealed an additional 15 sub-populations
within our germplasm, and significant correlations were evident in both the provincial and
botanical varieties. Genetic distance analysis was used to identify differences among
provinces, with the strongest correlations seen between landraces from Herat and Ghor
province, followed closely by those between Badakhshan and Takhar provinces. This result
closely resembles existing agro-climatic zones within Afghanistan, as well as the wheat varieties commonly cultivated within these regions. Molecular variance analysis showed a
higher proportion of intra-province variation among landraces compared with variation
among all landraces as a whole.
Conclusion
The SNP analyses presented here highlight the importance and genetic diversity of Afghan
wheat landraces. Furthermore, these data strongly refute a previous analysis that suggested
low genetic diverse within this germplasm. Ongoing analyses include phenotypic
characterisation of these landraces to identify functional traits associated with individual
genotypes. Taken together, these analyses can be used to help improve wheat cultivation in
Afghanistan, while providing insights into the evolution and selective pressures underlying
these distinct landraces.