Genetic Diversity and Population Structure of Dioscorea tokoro Makino, a Dioecious Climber |
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Authors: | Ryohei Terauchi |
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Affiliation: | Plant Germ-plasm Institute, Faculty of Agriculture, Kyoto University, Kyoto 617, Japan |
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Abstract: | Abstract Dioscorea tokoro Makino is a herbaceous climber species widespread in East Asia. Genetic structure of a natural population of D. tokoro was examined employing starch gel electrophoresis of allozymes. Genotypes of seven loci were studied for 1,128 individuals. Twenty-six populations located mainly in the Kinki district of Japan were subgrouped into four large clusters by the geographical distribution of alleles. The D. tokoro population was revealed to contain greater total genetic diversity ( HT =0.282) and higher intrapopulational genetic diversity ( HS =0.258) than other outcrossing species for which data are available. On the other hand, interpopulational differentiation ( GST =0.096) was smaller than in other outcrossers. For the heterozygosity deficiency observed ( FIT =0.125), population subdivision ( FST =0.096) and inbreeding within the population ( FIS =0.067) were revealed to contribute to the same extent. From these F -statistics, the migration rate among subpopulations and the rate of between-relative matings were estimated. Overall results on the genetic structure of the D. tokoro population indicated a high gene flow among its subpopulations, and this may be the consequence of its life form as a climber and its habitat in a disturbed environment. During the study, the geographical cline of Pgi allele frequencies was observed. This finding was supposed to be the result of the selection imposed on Pgi by the temperature differences between localities. |
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Keywords: | Dioscorea tokoro allozyme population genetic structure dioecy vine Pgi cline |
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