10.1371/journal.pone.0063570 José R. Ferrer-Paris José R. Ferrer-Paris Ada Sánchez-Mercado Ada Sánchez-Mercado Ángel L. Viloria Ángel L. Viloria John Donaldson John Donaldson Congruence and Diversity of Butterfly-Host Plant Associations at Higher Taxonomic Levels Public Library of Science 2013 ecology Community Ecology Food web structure Species interactions Trophic interactions biodiversity Evolutionary ecology Evolutionary biology Evolutionary processes coevolution speciation Forms of evolution macroevolution butterfly-host associations higher taxonomic 2013-05-23 01:47:15 Dataset https://plos.figshare.com/articles/dataset/_Congruence_and_Diversity_of_Butterfly_Host_Plant_Associations_at_Higher_Taxonomic_Levels_/706435 <div><p>We aggregated data on butterfly-host plant associations from existing sources in order to address the following questions: (1) is there a general correlation between host diversity and butterfly species richness?, (2) has the evolution of host plant use followed consistent patterns across butterfly lineages?, (3) what is the common ancestral host plant for all butterfly lineages? The compilation included 44,148 records from 5,152 butterfly species (28.6% of worldwide species of Papilionoidea) and 1,193 genera (66.3%). The overwhelming majority of butterflies use angiosperms as host plants. Fabales is used by most species (1,007 spp.) from all seven butterfly families and most subfamilies, Poales is the second most frequently used order, but is mostly restricted to two species-rich subfamilies: Hesperiinae (56.5% of all Hesperiidae), and Satyrinae (42.6% of all Nymphalidae). We found a significant and strong correlation between host plant diversity and butterfly species richness. A global test for congruence (Parafit test) was sensitive to uncertainty in the butterfly cladogram, and suggests a mixed system with congruent associations between Papilionidae and magnoliids, Hesperiidae and monocots, and the remaining subfamilies with the eudicots (fabids and malvids), but also numerous random associations. The congruent associations are also recovered as the most probable ancestral states in each node using maximum likelihood methods. The shift from basal groups to eudicots appears to be more likely than the other way around, with the only exception being a Satyrine-clade within the Nymphalidae that feed on monocots. Our analysis contributes to the visualization of the complex pattern of interactions at superfamily level and provides a context to discuss the timing of changes in host plant utilization that might have promoted diversification in some butterfly lineages.</p></div>