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Growth form evolution and hybridization in Senecio (Asteraceae) from the high equatorial Andes
Author(s) -
Dušková Eva,
Sklenář Petr,
Kolář Filip,
Vásquez Diana L. A.,
Romoleroux Katya,
Fér Tomáš,
Marhold Karol
Publication year - 2017
Publication title -
ecology and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.17
H-Index - 63
ISSN - 2045-7758
DOI - 10.1002/ece3.3206
Subject(s) - biology , senecio , monophyly , amplified fragment length polymorphism , subspecies , clade , ecology , genetic variation , botany , zoology , phylogenetics , population , genetic diversity , biochemistry , demography , sociology , gene
Changes in growth forms frequently accompany plant adaptive radiations, including páramo–a high‐elevation treeless habitat type of the northern Andes. We tested whether diverse group of Senecio inhabiting montane forests and páramo represented such growth form changes. We also investigated the role of Andean geography and environment in structuring genetic variation of this group. We sampled 108 populations and 28 species of Senecio (focusing on species from former genera Lasiocephalus and Culcitium ) and analyzed their genetic relationships and patterns of intraspecific variation using DNA fingerprinting (AFLPs) and nuclear DNA sequences (ITS). We partitioned genetic variation into environmental and geographical components. ITS‐based phylogeny supported monophyly of a Lasiocephalus ‐ Culcitium clade. A grade of herbaceous alpine Senecio species subtended the Lasiocephalus ‐ Culcitium clade suggesting a change from the herbaceous to the woody growth form. Both ITS sequences and the AFLPs separated a group composed of the majority of páramo subshrubs from other group(s) comprising both forest and páramo species of various growth forms. These morphologically variable group(s) further split into clades encompassing both the páramo subshrubs and forest lianas, indicating independent switches among the growth forms and habitats. The finest AFLP genetic structure corresponded to morphologically delimited species except in two independent cases in which patterns of genetic variation instead reflected geography. Several morphologically variable species were genetically admixed, which suggests possible hybrid origins. Latitude and longitude accounted for 5%–8% of genetic variation in each of three AFLP groups, while the proportion of variation attributed to environment varied between 8% and 31% among them. A change from the herbaceous to the woody growth form is suggested for species of high‐elevation Andean Senecio . Independent switches between habitats and growth forms likely occurred within the group. Hybridization likely played an important role in species diversification.

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