Add to ORKGRecent molecular phylogenetic analyses of nuclear, chloroplast and mitochondrial DNA of Polemoniaceae have prompted a reexamination of morphological data and a reassessment of current taxonomy. These studies prompt several nomenclatural changes in the family. Eight taxa formerly included in Gilia section Giliastrum are transferred to the genus Giliastrum. In addition, two new tribes of Polemoniaceae are recognized
A new classification and linear sequence of the gymnosperms based on previous molecular and morpholo...
The genus Lasthenia (Madieae, Asteraceae), consists of predominantly annual plant species that are l...
Premise of the study: Tribe Miliuseae (similar to 25 genera and similar to 510 species) includes a s...
Nuclear ribosomal internal transcribed spacer (ITS) DNA sequences are used to estimate the phylogeny...
Three hundred seventy nine species of Polemoniaceae are arranged in a phylogenetic classification co...
New taxa, names, and combinations are provided for five genera in Polemoniaceae: Dayia, Giliastrum, ...
Two very different systems of classification of the family Polemoniaceaeone a taxonomic system and t...
New molecular and ecological data have necessitated taxonomic revisions of several species complexes...
Phylogenomic data from a rapidly increasing number of studies provide new evidence for resolving rel...
The species-rich genus Polyalthia has previously been shown to be highly polyphyletic, with species ...
Journal ArticleA phylogenetic analysis of the Solanaceae based on chloroplast DNA variation is pres...
The Ipmopsis aggregata complex comprises diploid, perennial, montane herbs, distributed across weste...
The genus Polyalthia (Annonaceae) has been demonstrated to be polyphyletic, with the Asian species w...
Recently published molecular phylogenies of the Annonaceae have confirmed the long-held hypothesis t...
Philodendron (Araceae) is one of the largest Neotropical plant genera, with approximately 500 specie...
A new classification and linear sequence of the gymnosperms based on previous molecular and morpholo...
The genus Lasthenia (Madieae, Asteraceae), consists of predominantly annual plant species that are l...
Premise of the study: Tribe Miliuseae (similar to 25 genera and similar to 510 species) includes a s...
Nuclear ribosomal internal transcribed spacer (ITS) DNA sequences are used to estimate the phylogeny...
Three hundred seventy nine species of Polemoniaceae are arranged in a phylogenetic classification co...
New taxa, names, and combinations are provided for five genera in Polemoniaceae: Dayia, Giliastrum, ...
Two very different systems of classification of the family Polemoniaceaeone a taxonomic system and t...
New molecular and ecological data have necessitated taxonomic revisions of several species complexes...
Phylogenomic data from a rapidly increasing number of studies provide new evidence for resolving rel...
The species-rich genus Polyalthia has previously been shown to be highly polyphyletic, with species ...
Journal ArticleA phylogenetic analysis of the Solanaceae based on chloroplast DNA variation is pres...
The Ipmopsis aggregata complex comprises diploid, perennial, montane herbs, distributed across weste...
The genus Polyalthia (Annonaceae) has been demonstrated to be polyphyletic, with the Asian species w...
Recently published molecular phylogenies of the Annonaceae have confirmed the long-held hypothesis t...
Philodendron (Araceae) is one of the largest Neotropical plant genera, with approximately 500 specie...
A new classification and linear sequence of the gymnosperms based on previous molecular and morpholo...
The genus Lasthenia (Madieae, Asteraceae), consists of predominantly annual plant species that are l...
Premise of the study: Tribe Miliuseae (similar to 25 genera and similar to 510 species) includes a s...