Sensory biology of Phalangida harvestmen (Arachnida, Opiliones): a review, with new morphological data on 18 speciesWillemart, Rodrigo H.; Farine, Jean‐Pierre; Gnaspini, Pedro
doi: 10.1111/j.1463-6395.2008.00341.xpmid: N/A
Phalangida includes three of the four suborders of Opiliones (Arachnida): Eupnoi, Dyspnoi and Laniatores. We review the literature on the sensory structures and capabilities of Phalangida, provide new morphological data for 18 species and discuss the 11 sensory structures that have been described in the group. Based on the published data encompassing both behaviour and morphology, three conclusions are apparent: (1) species of Phalangida appear to have limited abilities to detect stimuli at a distance; (2) close range olfaction probably helps to find foods with strong odours, but (3) they appear to be highly dependent on contact chemoreception to detect live prey, predators and mates. We also highlight the fact that legs I in the three suborders and pedipalps in Dyspnoi and Eupnoi are very important sensory appendages, thus legs II should not be called the ‘sensory appendages’ of harvestmen. In conclusion, we highlight the fact that the sensory capabilities, diet, prey capturing and handling ability, and foraging behaviour of species of Phalangida seem to be different from those of most other arachnids. Finally, we suggest future directions for studies in the field of the sensory system of the group.
Heartless and primitive? 3D reconstruction of the polar acochlidian gastropod Asperspina murmanicaNeusser, Timea P.; Martynov, Alexander V.; Schrödl, Michael
doi: 10.1111/j.1463-6395.2008.00342.xpmid: N/A
This study re‐examines in detail the microanatomy of the Arctic opisthobranch Asperspina murmanica, the only acochlidian that was described as retaining a well‐developed mantle cavity, and evaluates its supposedly basal position within the Acochlidia. Several specimens were recollected at the type locality in Russia. Spicules and radulae were studied by scanning electron microscopy. Semithin sections were prepared and a computer‐based three‐dimensional reconstruction of all major organ systems was made using amira software. Our results show significant differences from the original description, e.g. the nervous system shows paired rhinophoral and gastro‐oesophageal ganglia and large aggregations of precerebral accessory ganglia, whereas the presence of a postulated posterior genital ganglion can be excluded; the radula is asymmetric; the circulatory system includes a small heart; and the reproductive system comprises a sac‐like ampulla and three female glands. The most surprising discrepancy to the original description refers to the complete absence of any mantle cavity. The gonopore, anus and nephropore open separately to the exterior. Instead of being aberrant or basal, A. murmanica fits well with other Asperspina species and comes closest to the Mediterranean Asperspina rhopalotecta. The monotypic genus/family Minicheviella/Minicheviellidae Starobogatov (1983) is confirmed as a junior synonym of Asperspina/Asperspinidae Rankin (1979).
Sensillary morphology on the rostral apex and their possible role in prey location behaviour of the carnivorous stinkbug, Eocanthecona furcellata (Wolff) (Heteroptera: Pentatomidae)Usha Rani, Pathipati
doi: 10.1111/j.1463-6395.2008.00346.xpmid: N/A
Eocanthecona furcellata (Wolff), the carnivorous heteropteran, demonstrates interesting feeding mechanisms that suggest the involvement of the antennal and labial tip sensilla. This study was conducted to identify the morphology of various sensilla present on the labial tip of this insect using scanning electron microscopy. Four morphologically different types of trichoid sensilla comprise the largest and most numerous sensilla and occur throughout the surface of the labial tip. Three new and unique types of sensilla were discovered. Long hairs with profusely branched shafts are present at the entrance of the rostral groove. An oval‐shaped peg surrounded by sensory hairs with branched shafts and a short, stout peg encircled by a group of long hair‐like sensilla was found among the sensilla population of two lobes. The morphology of the new sensilla is given and possible functions of individual receptors are suggested on morphological grounds.
Morphological variation of the five vole species of the genus Microtus (Mammalia, Rodentia, Arvicolinae) occurring in GreeceFraguedakis‐Tsolis, Stella E.; Chondropoulos, Basil P.; Stamatopoulos, Costas V.; Giokas, Sinos
doi: 10.1111/j.1463-6395.2008.00348.xpmid: N/A
Morphometric data for the five vole species of the genus Microtus living in Greece are old, sparse, poor and insufficiently analysed. This work aims to give the first comprehensive morphometric analysis of body and skull inter‐ and intraspecific variation for M. (M.) guentheri, M. (M.) rossiaemeridionalis, M. (Terricola) subterraneus, M. (T.) felteni and M. (T.) thomasi, applying multivariate statistics to 28 linear morphometric variables. It was based on ample material (202 adult individuals) using samples from localities that adequately cover the entire distributional range of each species in Greece. The five species and the two subgenera (Microtus and Terricola) were morphometrically clearly distinguished and discriminating variables were revealed. However, morphometrics did not provide robust criteria to infer phylogenetic relations among species. Furthermore, three species, M. (M.) guentheri, M. (M.) rossiaemeridionalis and M. (T.) thomasi, exhibited considerable intraspecific size or shape variation, which was mostly random and not associated with geographical proximity. Comparisons with data in the literature, mainly concerning populations of these species from adjacent areas, indicate that the Greek M. (M.) guentheri, M. (M.) rossiaemeridionalis and M. (T.) thomasi tend to be smaller than their conspecifics, while M. (T.) subterraneus and M. (T.) felteni are about equal in size to their Balkan relatives.
Body musculature of Beauchampiella eudactylota (Gosse, 1886) (Rotifera: Euchlanidae) with additional new data on its trophi and overall morphologyRiemann, O.; Wilts, E. F.; Ahlrichs, W. H.; Kieneke, A.
doi: 10.1111/j.1463-6395.2008.00351.xpmid: N/A
This study presents the results of confocal laser scanning microscopy and fluorescence‐labelled phalloidin used to visualize the system of body musculature in Beauchampiella eudactylota. Moreover, the poorly known trophi of B. eudactylota are described based on scanning electron microscopy. In total, four paired longitudinal muscles (musculi longitudinales I–IV) and three circular muscles (musculi circulares I–III) were identified. Among these are the musculus longitudinalis ventralis, the musculus longitudinalis dorsalis and the musculus circumpedalis as documented in previous studies for other rotifer species. Compared to other species, B. eudactylota is characterized by the low number of lateral longitudinal muscles and the absence of some longitudinal muscles (musculi longitudinales capitum) and circular muscles (corona sphincter, musculus pars coronalis). Moreover, scanning electron microscopic data on the trophi of B. eudactylota reveal a number of striking similarities to the trophi in some species of Epiphanidae. This suggests that either (1) these similarities represent plesiomorphic characters present both in Epiphanidae and B. eudactylota or (2) they are synapomorphic features of B. eudactylota and some species of Epiphanidae, which would question the monophyly of Euchlanidae.
The anatomy of the palatoquadrate in the Lower Triassic Proterosuchus fergusi (Reptilia, Archosauromorpha) and its morphological transformation within the archosauriform cladeKlembara, Jozef; Welman, Johann
doi: 10.1111/j.1463-6395.2008.00358.xpmid: N/A
The anatomy of the palatoquadrate ossifications of the Lower Triassic archosauromorph Proterosuchus fergusi from South Africa is described. It consists of two ossifications, the epipterygoid and the quadrate, which were joined by cartilage in life. The margins of the cartilage are clearly indicated by ridges and grooves on the dorsal surface of the pterygoid. The epipterygoid ossification consists of two structures: the anteroposteriorly expanded basal portion and, dorsally from it, an extending, slender, ascending process. From the anterior margin of the basal portion of the epipterygoid, a plate‐like structure, herein called the lamina epipterygoidea anteromedialis, extends anteromedially to form the anterolateral wall of the cavum epiptericum. Comparisons with the similarly constructed embryonal and adult epipterygoid components of Sphenodon punctatus show that the anteromedial lamina of the epipterygoid of P. fergusi is an additional component of the epipterygoid of this species and that this lamina is absent in the former species. However, a structure in a topologically similar position to the anteromedial lamina of the epipterygoid of P. fergusi is present in the palatoquadrate of Alligator mississippiensis. In the latter species, the structure is called the lamina palatoquadrati anterior; it ossifies in membrane and forms the dorsolateral cover of the huge trigeminal ganglion. It is hypothesized here that the anteromedial lamina of the epipterygoid of P. fergusi and the anterior lamina of the palatoquadrate of A. mississippiensis are most probably homologous structures and are present in both the basal and one of the crown taxa of the archosauromorph clade, respectively.
Ultrastructural characteristics of the process of cornification in developing claws of the brushtail possum (Trichosurus vulpecula)Alibardi, Lorenzo
doi: 10.1111/j.1463-6395.2008.00360.xpmid: N/A
Cornification of developing claws in the brush possum has been analysed by electron microscopy and compared with the process in other tetrapods. Newborns from 3 to 60 days postparturition were studied. After formation of symmetric and round outgrowth in digits the epidermis becomes thicker in the dorsal with respect to the ventral digit tip. The claw elongates forming the unguis and a shorter subunguis. Spinosus keratinocytes in both unguis and subunguis accumulate tonofilaments that fill their cytoplasm. Keratohyaline‐like granules are formed in early stages of differentiation in both unguis and subunguis but they later disappear in highly cornified corneocytes. Tonofilaments become electron‐dense in keratinocytes of the precorneous layer in the large corneocytes of the unguis and in narrow corneocytes of the subunguis. Keratin bundles transform into an amorphous corneous material that embeds or masks the original keratin intermediate filaments. Nucleated corneocytes are accumulated in the unguis while thinner corneocytes are present in the subunguis. The latter contain a dense material, possibly containing high sulphur keratin associated proteins, as occurs during cornifcation of the cortex and cuticle hair cells and in the nail. The process of cornification of mammalian claws is compared with that of reptilian and avian claws.