6533b883fe1ef96bd12dbfc5

RESEARCH PRODUCT

Data from: Megaphylogenetic specimen-level approaches to the Carex (Cyperaceae) phylogeny using ITS, ETS, and matK sequences: implications for classification

The Global Carex GroupPedro Jiménez-mejíasMarlene HahnKate LuedersJulian R. StarrBethany H. BrownBrianna N. ChouinardKyong-sook ChungMarcial EscuderoBruce A. FordKerry A. FordSebastian GebauerBerit GehrkeMatthias H. HoffmanXiao-feng JinJongduk JungSangtae KimModesto LuceñoEnrique MaguillaSantiago Martín-bravoMónica MíguezAna MolinaRobert F. C. NacziJocelyn E. PenderAnton A. ReznicekTamara VillaverdeMarcia J. WaterwayKaren L. WilsonJong-cheol YangShuren ZhangAndrew L. HippEric H. Roalson

subject

SchoenoxiphiumUnciniapolyphylyCymophyllusLife SciencesVigneastraKobresiaPsyllophoraVigneamedicine and health careCarexMedicineparaphylySupermatrixCariceae

description

We present the first large-scale phylogenetic hypothesis for the genus Carex based on 996 of the 1983 accepted species (50.23%). We used a supermatrix approach using three DNA regions: ETS, ITS and matK. Every concatenated sequence was derived from a single specimen. The topology of our phylogenetic reconstruction largely agreed with previous studies. We also gained new insights into the early divergence structure of the two largest clades, core Carex and Vignea clades, challenging some previous evolutionary hypotheses about inflorescence structure. Most sections were recovered as non-monophyletic. Homoplasy of characters traditionally selected as relevant for classification, historical misunderstanding of how morphology varies across Carex, and regional rather than global views of Carex diversity seem to be the main reasons for the high levels of polyphyly and paraphyly in the current infrageneric classification.

yearjournalcountryeditionlanguage
2017-07-20
https://zenodo.org/record/5001544