Mark H. Mayfield scite author profile

The 480 species of leafy spurges, Euphorbia subgenus Esula, represent the main temperate radiation in the large genus Euphorbia. This group is distributed primarily in temperate Eurasia, but with smaller, disjunct centres of diversity in the mountains of the Old World tropics, in temperate southern Africa and in the New World. The majority of New World diversity (32 species) occurs in a single section, section Tithymalus. We analysed sequences of the nrITS and plastid ndhF, trnH-psbA, trnS-trnG and trnD-trnT regions to reconstruct the phylogeny of section Tithymalus and to examine the origins and diversification of the species native to the New World. Our results indicate that the New World species of section Tithymalus form a clade that is sister to the widespread, weedy E. peplus. The New World species fall into two primary groups: a 'northern annual clade' from eastern North America and a diverse clade of both annual and perennial species that is divided into three subgroups. Within the second group, there is a small 'southern annual clade' from Texas and northern Mexico, a perennial 'Brachycera clade' from the western United States and northern Mexico, and a perennial 'Esuliformis clade' from montane areas of Mexico, Guatemala, Honduras and the Caribbean island of Hispaniola. Ancestral state reconstructions indicate that the annual habit probably evolved in the ancestor of E. peplus and the New World clade, with a subsequent reversal to the perennial habit. In conjunction with this phylogenetic framework, the New World species of section Tithymalus are comprehensively reviewed.

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Polyploidy and genome size variation in Phlox nana (Polemoniaceae) from the Pecos plains of New Mexico and the Davis Mountains of West Texas

Ladner

Mayfield

Prather

et al. 2017

J. Bot. Res. Inst. Texas

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Polyploidy is conspicuous in the genus Phlox, and some species exhibit variation in ploidy levels, or cytotypic variation. Diploid, tetraploid and hexaploid popula-tions of P. nana occur across parts of the species distribution in the southwestern United States and northern Mexico. A recent study highlighted two areas for which ploidy level inferences were challenging: a population on the Pecos Plains of New Mexico (“Caprock”) and the Davis Mountains region of West Texas. Plants in these areas were sampled and chromosome counts and flow cytometry methods were used to assess ploidy levels and genome sizes. Homoploid variation in ge-nome size was unambiguously documented: the genome size of tetraploid plants from the Davis Mountains was significantly larger than that of plants from Caprock. The general condition of larger genome sizes for plants in the Davis Mountains explains previous difficulty in determining ploidy levels within the region. Most plants at the Caprock population appeared to be tetraploid (2n=28), but chromosome counts revealed variants, including some putative pentaploids. Within the Davis Mountains region, both diploid (2n=14) and tetraploid (2n=28) cytotypes were documented, with a parapatric distribution. Overall, this study clarifies patterns of cytotypic diversity in P. nana, highlights an example of infraspecific, homoploid genome size variation, and contributes to a framework for ongoing evolutionary investigation in this study system.

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Reduced Genetic Variation in Populations of Black Cherry (Prunus serotinasubsp.serotina, Rosaceae) at Its Western Range Limit in Kansas

Beck

Ferguson

Mayfield

et al. 2014

Northeastern Naturalist

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Mark H. Mayfield

The Decline of Plant Collecting in the United States: A Threat to the Infrastructure of Biodiversity Studies

Implications of the Decline in Plant Collecting for Systematic and Floristic Research

Phylogenetics and taxonomy of the New World leafy spurges,EuphorbiasectionTithymalus(Euphorbiaceae)

Polyploidy and genome size variation in Phlox nana (Polemoniaceae) from the Pecos plains of New Mexico and the Davis Mountains of West Texas

Reduced Genetic Variation in Populations of Black Cherry (Prunus serotinasubsp.serotina, Rosaceae) at Its Western Range Limit in Kansas

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