Exploration of the homology among the muscles associated with the female genitalia of the three suborders of Psocodea (Insecta)

The first detailed morphological treatment of a Cretaceous psocid and the character evolution of Trogiomorpha (Insecta: Psocodea)

While new fossil psocid taxa are described every year, the morphology is generally not studied and documented in sufficient detail, limiting our understanding of the character evolution in this order. A new fossil species of the genus Psyllipsocus from mid-Cretaceous Kachin amber is described and its morphology reconstructed in detail using synchrotron-radiation micro-computed tomography (SR-μ-CT). We present the first cybertype of a Cretaceous fossil psocid. We also describe and discuss the putative evolution of previously unrecognized and underestimated exoskeletal characters for the suborder Trogiomorpha. Additionally, using our new observations, we critically evaluate the phylogeny of Trogiomorpha and the character evolution in this group. We also present a modified character matrix which we analyze using Bayesian inference and parsimony. Based on our results and previous studies we propose monophyletic Trogiomorpha s.l. (incl. †Brachyantennum) and Trogiomorpha s. str. (possibly incl. †Cormopsocidae), the latter comprising Prionoglarididae and monophyletic Spinaprocta. Spinaprocta contain Atropetae and Psyllipsocetae (incl. Psyllipsocus) as sister taxa. Some relationships on the genus level in Trogiomorpha are still strongly disputed and unclear. Here, we synonymize the extinct monotypic genus †Khatangia with Psyllipsocus and discuss the systematic position of †Sinopsyllipsocus, †Parapsyllipsocus, †Empheriopsis and †Concavapsocus. A key for all extinct species of Psyllipsocidae is provided.

Are males just passive? Coupling mechanism of the Brazilian cave insects with inverted genitalia

Species of the Brazilian cave barklouse genus Neotrogla (Psocodea: "Psocoptera": Trogiomorpha: Prionoglarididae: Sensitibillini) are known to have a "female penis (gynosome)" that functions as an intromittent organ inserted into the membranous pouches in the simple male genital chamber during copulation to receive semen. However, the functions of other male and female genital structures and the copulatory processes of Neotrogla were completely unknown to date. Based on µCT observation of the male and female postabdomen and connected muscles both before and in copula, we clarified the functions of the male and female genital structures. In addition, based on the analyses of the established 3D models, we concluded that precise and rigid contact of multiple genital structures, and step-by-step releases of each holding mechanism achieved by the cooperation of both sexes are involved in the copulatory processes. The coevolution between the male and female genital structures in Neotrogla may provide a new example for the evolution of tolerance traits.

Acquisition of novel muscles enabled protruding and retracting mechanisms of female penis in sex-role reversed cave insects

Brazilian sex-role reversed cave insects (genus Neotrogla) have a striking structure called the gynosome (or female penis), which deeply penetrates male vagina-like genitalia during copulation to receive nutritious semen. However, the protruding and retracting mechanisms of the female penis, including their evolutionary origin, are poorly understood. By using micro-computed tomography (µCT), we compared the genital morphology and musculature between species with a gynosome and others lacking this structure. As a result, we discovered two groups of muscles related to the protrusion and retraction of gynosomes. These muscles were also observed in species with non-protrusible prepenis. This suggests that evolution of these muscles preceded the acquisition of the protruding function of the gynosome, originally having a putative stimulatory function to receive nutritious semen. This intermediate stage probably allowed for the reversal of genital functions.