• Title/Summary/Keyword: Euphorbia pekinensis complex

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Chromosome numbers of Euphorbia pekinensis complex in Far East Asia

  • Park, Ki-Ryong;Kurosawa, Takahide;Seo, Min-Gyeong;Lee, Bo-Eun;Ahn, Soo-Kyeong
    • Korean Journal of Plant Taxonomy
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    • v.47 no.4
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    • pp.304-307
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    • 2017
  • We report somatic chromosome numbers for three species belonging to the Euphorbia pekinensis complex distributed in Far East Asia. In E. pekinensis populations distributed in Korea, 2n = 28 and 56 were found, while the Japanese native E. lasiocaula was also found at 2n = 28 and 56 and the Japanese endemic E. sinanensis was found at 2n = 20. Based on the number of chromosomes, E. lasiocaula distributed in Japan supports treatment as a variety of E. pekinensis rather than as a different species, while E. sinanensis should be recognized as a distinct species rather than as a variety of E. pekinensis. In the same populations of E. pekinensis and E. lasiocaula, diploid and tetraploid individuals were found, and the diversity of these chromosome numbers was consistent with the morphological diversity of these populations, suggesting the future evolutionary potential of this species.

Genetic and morphological divergence of Euphorbia esula and E. maackii in Korea (Euphorbiaceae) (한국산 흰대극(Euphorbia esula)과 섬흰대극(E. maackii)의 유전적, 형태적 분화)

  • Jung, Han-Jin;Park, Ki-Ryong
    • Korean Journal of Plant Taxonomy
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    • v.42 no.4
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    • pp.267-274
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    • 2012
  • To understand morphological and genetic differentiation between Euphorbia esula and E. maackii we examined 12 morphological characters and 11 isozyme loci from 14 populations of two species. Species of E. esula complex (A = 1.63, P = 44.83, $H_e$ = 0.198) in Korea maintain nearly as high as the genetic diversity reported in East Asian E. jolkinii and E. fauriei while lower than those of E. ebracteolata and E. pekinensis in Korea. Although the ranges of most morphological character variation of the two species overlap, E. esula and E. maackii were well recognized by the combination of the morphological traits, and the result of UPGMA phenogram supports the two distinct species inhibited in Korea. However, isozyme data do not support the recognition of E. esula and E. maackii. The discordance between morphological and allozyme data should be explained by the recent divergence or gene flow via introgressive hybridization between two species.