Comparative phylogeography uncovers evolutionary past of Holarctic dragonflies.

Here, we investigate the evolutionary history of five northern dragonfly species to evaluate what role the last glaciation period may have played in their current distributions. We look at the population structure and estimate divergence times for populations of the following species: (Linnaeus), Walker, (Sulzer), Linnaeus and Trybom across their Holarctic range. Our results suggest a common phylogeographic pattern across all species except for .

Identifying possible sister groups of Cryptocercidae+Isoptera: a combined molecular and morphological phylogeny of Dictyoptera.

Termites (Isoptera) offer an alternative model for the development of eusociality which is not dependent on a high degree of relatedness as found between sisters in hymenopterans (bees, wasps, ants). Recent phylogenetic studies have established that termites belong within the cockroaches as sister to the subsocial Cryptocercidae. Cryptocercidae shares several important traits with termites, thus we need to understand the phylogenetic position of Cryptocercidae+Isoptera to determine how these traits evolved.

Derived morphology in a basal moth: The uniquely specialized sternum V glands of Agathiphaga (Lepidoptera: Agathiphagidae).

The sternum V gland is a notable specialization shared by basal Lepidoptera and most Trichoptera; it is generally present in both sexes or in females only. In both orders the secretory cells usually discharge into a sac-like reservoir from which a duct leads to the opening on sternum V. In contrast, the gland in agathiphagid moths is only present in males and it exhibits several unique specialisations: the glandular portion being the apical (morphologically anterior) part of a long tubular cuticular invagination covered with contiguous 'type-3' glandular units; together with the following part of the efferent duct it is coiled like a ball of yarn; the duct expands into a fusiform reservoir, and a separate small sac surrounded by a complex muscular coat is present just inside the gland opening.

Phylogenetics and divergence times of Papilioninae (Lepidoptera) with special reference to the enigmatic genera Teinopalpus and Meandrusa.

© The Willi Hennig Society 2010. ABSTRACT: Phylogenetic relationships of 18 genera of the swallowtail subfamily Papilioninae, four genera of Parnassiinae, and the monobasic Baroniinae are inferred based on 94 morphological characters and 5616 bp DNA from seven genes (16S, COI, COII, ND1, ND5, EF-1 alpha and wingless). Bayesian likelihood analyses show that Baroniinae are the sister of a clade comprising Parnassiinae and Papilioninae.