Abstract
Genetic resources comprised of 953 accessions of common (Phaseolus vulgaris L.) and 47 accessions of runner (Phaseolus coccineus L.) bean from the national Slovene gene bank were characterized using fourteen morphological seed descriptors. Seeds of each accession were evaluated for six quantitative characteristics: seed length, seed thickness, seed width, seed length/width ratio, seed width/thickness ratio, and 100 or 10 seed weight. Furthermore, seeds were evaluated using eight qualitative characteristics: seed colour; number of seed colours; primary/main seed colour; predominant secondary seed colour; distribution of secondary seed colour; seed veining; seed shape; and seed colour (primary and secondary) and coat pattern. For each, common, and runner bean collection, first four components within principal component analysis explained 75.03% and 80.16% of morphological variability, respectively. Regarding Ward's method and squared Euclidian distance, three clusters with the most distinct characteristics were established for each species. The results of morphological seed characterization indicate the origin (Andean, Mesoamerican, putative hybrids between gene pools) and domestication pathways of common and runner bean. This is the first study describing morphological seed characteristics of the entire common and runner bean germplasm conserved in one of the Central European bean collections. The results obtained in this study are serving as the useful information on genetic diversity of common and runner bean accessions at the Slovene gene bank, which could be used for development of new bean varieties for studied seed characteristics.
Highlights
Genetic diversity or variation between different populations belonging to the same genus resulted from the evolution of crops through the history, in response to different environments and husbandry practices [1]
The results obtained in this study are serving as the useful information on genetic diversity of common and runner bean accessions at the Slovene gene bank, which could be used for development of new bean varieties for studied seed characteristics
The results showed that characteristic seed colour and coat pattern was in statistically significant correlation with all the seed characteristics, in both bean germplasm collections
Summary
Genetic diversity or variation between different populations belonging to the same genus resulted from the evolution of crops through the history, in response to different environments and husbandry practices [1]. Phaseolus spp. beans are valued grain legumes or pulse crops of worldwide importance in terms of human and animal consumption [2,3,4]. Common bean (Phaseolus vulgaris L.) is the most important Phaseolus spp. worldwide, while the runner bean (Phaseolus coccineus L.) is the third, right after lima bean (Phaseolus lunatus L.) [5, 6]. L. germplasm restricts its utilization as donor species for interspecific hybridization and limits its use in other Phaseolus spp. breeding programs, i.e., common bean [6]. Seed gene banks are intended to enable the conservation of the world’s crop genetic diversity against the genetic erosion of crops as an unintended consequence of the global uptake of new highyielding green revolution agricultural varieties [8].
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