Kirstie D. Grant scite author profile

Kirstie D. Grant

2Publications

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145Citation Statements Given

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Howard University

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A new phylogeny of Rumex (Polygonaceae) adds evolutionary context to the diversity of reproductive systems present in the genus

Grant¹,

Koenemann²,

Mansaray³

et al. 2022

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Rumex is one of about 50 genera in the knotweed family, Polygonaceae. The genus comprises about 200 species with bisexual, or more commonly, unisexual flowers, with the species displaying monoecious, dioecious, synoecious (hermaphroditic) or polygamous reproductive systems. Some of the dioecious species have heteromorphic sex chromosomes, which is rare amongst angiosperms. We here present a plastid phylogeny of 67 species, representing all four subgenera. For this study, we used three chloroplast markers, rbcL, trnH-psbA, trnL-F and dense taxon sampling to reconstruct the most comprehensive molecular phylogeny of Rumex to date. The reconstructed phylogeny for this work resolves six major clades and one large grade in Rumex subg. Rumex. In addition, the species with known dioecious reproductive systems are resolved within a broader clade we term “the dioecious clade”. These results suggest that the species with divergent reproductive systems are more closely related to each other than to other species comprising the rest of the Rumex genus.

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Phylogeny of docks and sorrels (Rumex, Polygonaceae) reveals plasticity of reproductive systems

Grant

Koenemann²,

Mansaray

et al. 2020

Preprint

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The genus Rumex is a unique member of the Polygonaceae (Buckwheat) family of plants. A source of intrigue for Rumex lies in the diversity of the reproductive systems associated with the subgenera, species, and subspecies within this genus. Four previously circumscribed subgenera, some 200 species, and a number of subspecies comprise the collective Rumex genus. These species exhibit monoecious, dioecious, synoecious (hermaphroditic), and polygamous reproductive systems. Moreover, some of the dioecious species contain sex chromosomes, a phenomenon that is very rare in angiosperms. Apart from the confirmed morphological and phytogeographical distinctions, two of the four described subgenera, Acetosa and Acetosella, are distinctive in their exhibited sex chromosome systems. For this study, we used three chloroplast markers, rbcL, trnH-psbA, trnL-F, and dense taxon sampling, to reconstruct a molecular phylogeny for Rumex.The reconstructed phylogeny for this work resolves six major clades and one large grade in Rumex. In addition, the species with known dioecious reproductive systems derived from unique sex chromosome systems are resolved in two different clades nested within “the dioecious clade”. These results suggest that the species with divergent sexual systems are more closely related to each other than to other species comprising the rest of the Rumex genus. Furthermore, some species with known synoecious reproductive systems are resolved in a single clade which is also nested within “the dioecious clade”. These results imply a possible reversal occurring over time which suggests the highly plastic nature of reproductive systems among Rumex species.

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Kirstie D. Grant

A new phylogeny of Rumex (Polygonaceae) adds evolutionary context to the diversity of reproductive systems present in the genus

Phylogeny of docks and sorrels (Rumex, Polygonaceae) reveals plasticity of reproductive systems

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Kirstie D. Grant

﻿A new phylogeny of Rumex (Polygonaceae) adds evolutionary context to the diversity of reproductive systems present in the genus

Phylogeny of docks and sorrels (Rumex, Polygonaceae) reveals plasticity of reproductive systems

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A new phylogeny of Rumex (Polygonaceae) adds evolutionary context to the diversity of reproductive systems present in the genus