Genetic diversity and population structure in bearded iris cultivars derived from Iris × germanica L. and its related species I. pumila L., I. variegata L., I. pallida Lam

Bearded irises are horticulturally important worldwide. Molecular assessment of the germplasms is helpful for their scientific utilization. In this study, forty bearded iris cultivars derived from Iris × germanica L., I. variegata L., I. pumila L. and I. pallida Lam. were selected to characterize th...

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Veröffentlicht in:	Genetic resources and crop evolution 2020-12, Vol.67 (8), p.2161-2172
Hauptverfasser:	Li, Fengtong, Sun, Ye, Liu, Chungui, Yuan, Yuan, Zheng, Lin, Chen, Xiulan, Bao, Jianzhong
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Sprache:	eng
Schlagworte:	Agriculture Amplified fragment length polymorphism Banded structure Biomedical and Life Sciences Cluster analysis Cultivars Genetic distance Genetic diversity Germplasm Life Sciences Plant Genetics and Genomics Plant Physiology Plant Sciences Plant Systematics/Taxonomy/Biogeography Population genetics Population structure Research Article Structural analysis
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creator	Li, Fengtong Sun, Ye Liu, Chungui Yuan, Yuan Zheng, Lin Chen, Xiulan Bao, Jianzhong
description	Bearded irises are horticulturally important worldwide. Molecular assessment of the germplasms is helpful for their scientific utilization. In this study, forty bearded iris cultivars derived from Iris × germanica L., I. variegata L., I. pumila L. and I. pallida Lam. were selected to characterize their genetic diversity and population structure using AFLP markers. 568 bands were generated, of which 479 (84.3%) were polymorphic. The genetic distances among accessions ranged from 0.20 to 1.09, with an average of 0.52. Six clusters could be obtained by cluster analysis, which was generally in accordance with the color performances of tepals. In PCoA analysis, the first two principal co–ordinates accounting for 17.49% and 13.75% of the total variation revealed closer relationships among I. × germanica , I. variegata and I. pallida, whereas I. pumila was further. Five sub-populations could be detected by structure analysis. The findings provide an insight into the germplasm innovation for bearded irises.
doi_str_mv	10.1007/s10722-020-00969-6
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Molecular assessment of the germplasms is helpful for their scientific utilization. In this study, forty bearded iris cultivars derived from Iris × germanica L., I. variegata L., I. pumila L. and I. pallida Lam. were selected to characterize their genetic diversity and population structure using AFLP markers. 568 bands were generated, of which 479 (84.3%) were polymorphic. The genetic distances among accessions ranged from 0.20 to 1.09, with an average of 0.52. Six clusters could be obtained by cluster analysis, which was generally in accordance with the color performances of tepals. In PCoA analysis, the first two principal co–ordinates accounting for 17.49% and 13.75% of the total variation revealed closer relationships among I. × germanica , I. variegata and I. pallida, whereas I. pumila was further. Five sub-populations could be detected by structure analysis. 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Molecular assessment of the germplasms is helpful for their scientific utilization. In this study, forty bearded iris cultivars derived from Iris × germanica L., I. variegata L., I. pumila L. and I. pallida Lam. were selected to characterize their genetic diversity and population structure using AFLP markers. 568 bands were generated, of which 479 (84.3%) were polymorphic. The genetic distances among accessions ranged from 0.20 to 1.09, with an average of 0.52. Six clusters could be obtained by cluster analysis, which was generally in accordance with the color performances of tepals. In PCoA analysis, the first two principal co–ordinates accounting for 17.49% and 13.75% of the total variation revealed closer relationships among I. × germanica , I. variegata and I. pallida, whereas I. pumila was further. Five sub-populations could be detected by structure analysis. 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subjects	Agriculture Amplified fragment length polymorphism Banded structure Biomedical and Life Sciences Cluster analysis Cultivars Genetic distance Genetic diversity Germplasm Life Sciences Plant Genetics and Genomics Plant Physiology Plant Sciences Plant Systematics/Taxonomy/Biogeography Population genetics Population structure Research Article Structural analysis
title	Genetic diversity and population structure in bearded iris cultivars derived from Iris × germanica L. and its related species I. pumila L., I. variegata L., I. pallida Lam
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