Priors and Posteriors in Bayesian Timing of Divergence Analyses: The Age of Butterflies Revisited.

The need for robust estimates of times of divergence is essential for downstream analyses, yet assessing this robustness is still rare. We generated a time-calibrated genus-level phylogeny of butterflies (Papilionoidea), including 994 taxa, up to 10 gene fragments and an unprecedented set of 12 fossils and 10 host-plant node calibration points. We compared marginal priors and posterior distributions to assess the relative importance of the former on the latter.

Fossil butterflies, calibration points and the molecular clock (Lepidoptera: Papilionoidea).

Fossil butterflies are extremely rare. Yet, they are the only direct evidence of the first appearance of particular characters and as such, they are crucial for calibrating a molecular clock, from which divergence ages are estimated. In turn, these estimates, in combination with paleogeographic information, are most important in paleobiogeographic considerations.

Butterfly morphology in a molecular age -- does it still matter in butterfly systematics?

We review morphological characters considered important for understanding butterfly phylogeny and evolution in the light of recent large-scale molecular phylogenies of the group. A number of the most important morphological works from the past half century are reviewed and morphological character evolution is reassessed based on the most recent phylogenetic results. In particular, higher level butterfly morphology is evaluated based on a very recent study combining an elaborate morphological dataset with a similar molecular one.

Synergistic effects of combining morphological and molecular data in resolving the phylogeny of butterflies and skippers.

Phylogenetic relationships among major clades of butterflies and skippers have long been controversial, with no general consensus even today. Such lack of resolution is a substantial impediment to using the otherwise well studied butterflies as a model group in biology. Here we report the results of a combined analysis of DNA sequences from three genes and a morphological data matrix for 57 taxa (3258 characters, 1290 parsimony informative) representing all major lineages from the three putative butterfly super-families (Hedyloidea, Hesperioidea and Papilionoidea), plus out-groups representing other ditrysian Lepidoptera families.

Tempo of speciation in a butterfly genus from the Southeast Asian tropics, inferred from mitochondrial and nuclear DNA sequence data.

Molecular systematics is frequently beset with phylogenetic results that are not fully resolved. Researchers either state that the absence of resolution is due to character conflict, explosive speciation, or some combination of the two, but seldom do they carefully examine their data to distinguish between these causes. In this study, we exhaustively analyze a set of nuclear and mitochondrial nucleotide data for the Asian tropical butterfly genus Arhopala so as to highlight the causes of polytomies in the phylogenetic trees, and, as a result, to infer important biological events in the history of this genus.

THE CONTINENTAL ASIAN ELEMENT IN THE FAUNA OF THE PHILIPPINES AS EXEMPLIFIED BY COLADENIA MOORE, 1881 (LEPIDOPTERA: HESPERIIDAE).

- The Philippines are an archipelago composed of oceanic islands originating from different island arcs, and a few pieces of continental origin. The continental fragments can be found in N Palawan, the Calamian Islands, W Mindoro and W Panay. This study aims at answering the question whether traces can be found of a terrestrial fauna travelling on these fragments to the east to become part of the Philippine fauna.