Showing papers in "Taxon in 2020"

Parasitic angiosperms: How often and how many?

Abstract: Angiosperms that morphologically and physiologically attach to other flowering plants by means of a haustorium have evolved 12 times independently resulting in 292 genera and ca. 4750 species. Although hemiparasites predominate, holoparasitism has evolved in all but two clades, Cassytha (Lauraceae) and Krameria (Krameriaceae). Santalales contains the largest number of genera (179) and species (2428) among the 12 parasitic plant lineages whereas Orobanchaceae is the largest single family with 102 genera and over 2100 species. This review presents the current state of knowledge on the molecular phylogenetic relationships among all clades of parasitic angiosperms. These methods have been particularly important in revealing the closest non-parasitic relatives of holoparasites, plants that exhibit reduced morphologies, increased substitution rates, and frequent horizontal gene transfers, all of which confound phylogenetics. Although comprehensive molecular phylogenies are still lacking for many of the large genera, nearly complete generic level sampling exists, thus allowing unprecedented understanding of the evolutionary relationships within and among these fascinating plants.

World Flora Online: Placing taxonomists at the heart of a definitive and comprehensive global resource on the world's plants

Abstract: It is time to synthesize the knowledge that has been generated through more than 260 years of botanical exploration, taxonomic and, more recently, phylogenetic research throughout the world. The adoption of an updated Global Strategy for Plant Conservation (GSPC) in 2011 provided the essential impetus for the development of the World Flora Online (WFO) project. The project represents an international, coordinated effort by the botanical community to achieve GSPC Target 1, an electronic Flora of all plants. It will be a first-ever unique and authoritative global source of information on the world’s plant diversity, compiled, curated, moderated and updated by an expert and specialist-based community (Taxonomic Expert Networks – “TENs” – covering a taxonomic group such as family or order) and actively managed by those who have compiled and contributed the data it includes. Full credit and acknowledgement will be given to the original sources, allowing users to refer back to the primary data. A strength of the project is that it is led and endorsed by a global consortium of more than 40 leading botanical institutions worldwide. A first milestone for producing the World Flora Online is to be accomplished by the end of 2020, but the WFO Consortium is committed to continuing the WFO programme beyond 2020 when it will develop its full impact as the authoritative source of information on the world’s plant

Phylogenomics supported by geometric morphometrics reveals delimitation of sexual species within the polyploid apomictic Ranunculus auricomus complex (Ranunculaceae)

Abstract: Species are the basic units of biodiversity and evolution. Nowadays, they are widely considered as ancestor-descendant lineages. Their definition remains a persistent challenge for taxonomists due to lineage evolutionary role and circumscription, i.e., persistence in time and space, ecological niche or a shared phenotype of a lineage. Recognizing and delimiting species is particularly methodically challenging in fast-evolving, evolutionary young species complexes often characterized by low genetic divergence, hybrid origin, introgression and incomplete lineage sorting (ILS). Ranunculus auricomus is a large Eurasian apomictic polyploid complex that probably has arisen from the hybridization of a few sexual progenitor species. However, even delimitation and relationships of diploid sexual progenitors have been unclearly ranging from two to twelve species. Here, we present an innovative workflow combining phylogenomic methods based on 86,782 parameter-optimized RADseq loci and target enrichment of 663 nuclear genes together with geometric morphometrics to delimit sexual species in this evolutionary young complex (

Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers

Abstract: This research was funded by the European Regional Development Fund (Intereg projects CAVEGEN and ENCLAVES). JP was funded by the Marie Sklodowska‐Curie COFUND, Researchers’ Night and Individual Fellowships Global (MSCA grant agreement No 747238, “UNISLAND”’), and the Ramon y Cajal program (RYC‐2016‐20506). CG‐V was financially supported by a “Vicenc Mut” postdoctoral fellowship (Conselleria d'Innovacio, Recerca i Turisme, Govern de les Illes Balears and the European Social Fund).

Biogeography and integrative taxonomy of Epipterygium (Mniaceae, Bryophyta)

Abstract: JP was funded by the MINECO through the Juan de la Cierva Program‐Incorporation (IJCI‐2014‐19691) and Ramon y Cajal Program (RYC‐2016‐20506), and Marie Sklodowska‐Curie COFUND, Researchers’ Night and Individual Fellowships Global (MSCA grant agreement No 747238, “UNISLAND”). We thank R. Medina for comments on the manuscript. Open access funding enabled and organized by Projekt DEAL.

A revised subtribal classification of Gnaphalieae (Asteraceae)

Abstract: Gnaphalieae are one of the larger tribes of the daisy family Asteraceae (Compositae) with c. 2100 species in 178 genera, occurring globally across a wide range of temperate habitats. Recent years have seen considerable advances in our understanding of their phylogenetics and evolution, but there is no widely accepted, stable subtribal classification. The present paper summarises the taxonomic history and presents the various major clades that have been named informally in phylogenetic studies. We also provide the most comprehensive phylogenetic analysis of DNA sequence data to date, including over 1000 species. Based on published studies and our new phylogenetic analyses, we suggest a subdivision of the tribe into two subtribes. These are a largely African-endemic Relhaniinae (124 species in 11 genera) and a much enlarged Gnaphaliinae, the latter accounting for more than 90% of the species diversity (c. 2000 species in 167 genera). Although a finer division of Gnaphaliinae sensu amplo may be desirable, there are at present several obstacles to such a classification, in particular contradictory or ambiguous inferences of relationships.

Generic boundaries in subtribe Saussureinae (Compositae: Cardueae): Insights from Hyb‐Seq data

Abstract: Financial support from the Ministerio de Ciencia e Innovacion (Project CGL2015-66703-P MINECO/FEDER, UE and Ph.D. grant to Sonia Herrando-Moraira) and the Catalan government (“Ajuts a grups consolidats” 2017-SGR1116) is also greatly acknowledged. This study has been performed under the Ph.D. program “Plant Biology and Biotechnology” of the Autonomous University of Barcelona (UAB)

Early evolution of Coriariaceae (Cucurbitales) in light of a new early Campanian (ca. 82 Mya) pollen record from Antarctica

Abstract: Coriariaceae comprise only Coriaria , a genus of shrubs with nine species in Australasia (but excluding Australia), five in the Himalayas, Taiwan, the Philippines, and Japan, one in the Mediterranean, and one ranging from Patagonia to Mexico. The sister family, Corynocarpaceae, comprises five species of evergreen trees from New Guinea to New Zealand and Australia. This distribution has long fascinated biogeographers as potential support for Wegener's theory of continental drift, with alternative scenarios invoking either Antarctic or Beringian range expansions. Here, we present the discovery of pollen grains from Early Campanian (ca. 82 Mya) deposits in Antarctica, which we describe as Coriaripites goodii sp. nov., and newly generated nuclear and plastid molecular data for most of the family's species and its outgroup. This greatly expands the family's fossil record and is the so far oldest fossil of the order Cucurbitales. We used the phylogeny, new fossil, and an Oligocene flowering branch assigned to a small subclade of Coriaria to generate a chronogram and to study changes in chromosome number, deciduousness, and andromonoecy. Coriaria comprises a Northern (NH) and a Southern Hemisphere (SH) clade that diverged from each other in the Paleocene (ca. 57 Mya), with the SH clade reaching the New World once, through Antarctica, as supported by the fossil pollen. While the SH clade retained perfect flowers and evergreen leaves, the NH clade evolved andromonoecy and deciduousness. Polyploidy occurs in both clades and points to hybridization, matching weak species boundaries throughout the genus.