The Thomisidae and Philodromidae (Arachnida: Araneae) of the Galápagos Islands (Ecuador)

Two new species of Thomisidae are described (Mecaphesa reddelli sp. nov. and Tmarus galapagosensis sp. nov.). Of a third species, Mecaphesa inclusa (Banks, 1902), three colour variations are described. Tmarus specimens previously listed from the islands have always erroneously been called T. stolzmanni Keyserling, 1880. The Philodromidae are mentioned for the first time for the archipelago and are represented by two new species: Apollophanes fitzroyi sp. nov. and Apollophanes (?) lonesomegeorgei sp. nov

The spider Theridion melanostictum (Araneae,Aheridiidae), a recent introduction to Galapagos?

The theridiid spider Theridion melanostictum O. Pickard-Cambridge 1876 is reported as a possible recent introduction to Galapagos, having been found only in samples from Santa Cruz Island collected from 2010 onwards

Distribution and habitat preferences of Galápagos ants (Hymenoptera: Formicidae).

Presentamos la primera revisión exhaustiva de los taxones de hormigas del archipiélago de Galápagos. La revisión se basa en datos recopilados durante búsquedas bibliográficas, encuestas de campo y la revisión de especímenes de museos, e incluye información sobre la distribución, hábitat y ecología de 47 especies. Se supone que al menos nueve de estas especies son nativas o endémicas de las islas y al menos 32 especies se han introducido a través de vías asociadas a los humanos. Se desconoce el estado de las seis especies restantes. La información compilada en este estudio nos permitirá comprender mejor el papel ecológico de las especies indígenas y su potencial como indicadores de la salud del ecosistema. La información de referencia sobre la distribución de hormigas introducidas será indispensable para evaluar el impacto y la propagación dentro del archipiélago.We present the first comprehensive review of the ant taxa of the Galápagos archipelago. The review is based on data gathered during literature searches, field surveys, and the revision ofmuseum specimens, and includes information on the distribution, habitat, and ecology of 47 species. At least nine of these species are assumed to be native or endemic to the islands and at least 32 species have been introduced through human-associated pathways. The status of the remaining six species is unknown. The information compiled in this study will allow us to better understand the ecological role of indigenous species and their potential as indicators of ecosystem health. Baseline information on the distribution of introduced ants will be indispensable for assessing impact and spread within the archipelago

An introductory study of house spiders (Araneae) in Belgium

More than 800 spiders were collected in 43 houses heated in winter, distributed mainly in the northern part of Belgium. Information required for the collections to be eligible for the project was: address, construction year, type of house, and surroundings. The spiders were qualified as ‘house spiders’ or ‘garden spiders’. Of the 93 species collected, 19 could be defined as house spiders. Pholcus phalangioides was the most common, followed by Eratigena atrica and Steatoda triangulosa. Garden spiders enter the house much more often in houses in a rural environment than in those situated in clusters, and mainly in spring. The spiders are most common in autumn when many of them are breeding. The common house spiders colonize houses shortly after their construction

Three new Eustala (Araneae, Araneidae) species from the Galápagos Islands (Ecuador)

Three new Eustala species are described from the Galápagos archipelago: Eustala occidentalis sp. nov. with a western distribution, Eustala orientalis sp. nov. with an eastern distribution and Eustala meridionalis sp. nov. with a distribution restricted to the southern island Floreana

The Thomisidae and Philodromidae (Araneae) of the Galápagos Islands (Ecuador)

Two new species of Thomisidae are described (Mecaphesa reddelli sp. nov. and Tmarus galapagosensis sp. nov.). Of a third species, Mecaphesa inclusa (Banks, 1902), three colour variations are described. Tmarus specimens previously listed from the islands have always erroneously been called T. stolzmanni Keyserling, 1880. The Philodromidae are mentioned for the first time for the archipelago and are represented by two new species: Apollophanes fitzroyi sp. nov. and Apollophanes (?) lonesome-georgei sp. nov.</p

Three new &lt;i&gt;Eustala&lt;/i&gt; (Araneae, Araneidae) species from the Galápagos Islands (Ecuador)

Three new Eustala species are described from the Galápagos archipelago: Eustala occidentalis sp. nov. with a western distribution, Eustala orientalis sp. nov. with an eastern distribution and Eustala meridionalis sp. nov. with a distribution restricted to the southern island Floreana.</p

Unravelling the goblin spiders puzzle : rDNA phylogeny of the family Oonopidae (Araneae)

The mega-diverse haplogyne family of goblin spiders (Oonopidae Simon, 1890) has long been among the most poorly known families of spiders. However, since the launch of the goblin spider Planetary Biodiversity Inventory project knowledge about Oonopidae is rapidly expanding. Currently, Oonopidae is placed within the superfamily Dysderoidea and is divided into three subfamilies. Nevertheless, the monophyly and internal phylogeny of this family has not yet been investigated based on DNA sequence data. Hence, this study reports the first phylogeny based on ribosomal sequence data including 37 oonopid genera and representatives of all families within the Dysderoidea. These results suggest that the majority of the oonopid genera constitute a natural group. Moreover, two subfamilies Orchestininae and Sulsulinae and several morphologically defined groups e.g. the Zyngoonops- and Dysderina-groups, were well supported. In contrast, the Pelicinus-, Stenoonops- and Scaphiella-groups were not corroborated. Although most genera represented by more than one specimen were recovered as monophyletic, our study casts doubt on the monophyly of the genus Aschnaoonops Makhan & Ezzatpanah, 2011. Further- more, the results corroborate that a low degree of body sclerotisation might be considered as a plesiomorphic trai

Tarsal organ morphology and the phylogeny of goblin spiders (Araneae, Oonopidae), with notes on basal genera

Based on a survey of a wide variety of oonopid genera and outgroups, we hypothesize new synapomorphies uniting the Oonopidae (minus the South African genus Calculus Purcell, which is transferred to the Orsolobidae). The groundplan of the tarsal organ in Oonopidae is hypothesized to be an exposed organ with a distinctive, longitudinal ridge originating from the proximal end of the organ, and a serially dimorphic pattern of 4-4-3-3 raised receptors on legs I–IV, respectively. Such organs typify the diverse, basal, and ancient genus Orchestina Simon. Several other genera whose members resemble Orchestina in retaining two plesiomorphic features (an H-shaped,transverse eye arrangement and a heavily sclerotized, thick-walled sperm duct within the male palp) are united by having tarsal organs that are partly (in the case of Cortestina Knoflach) or fully capsulate (in the case of Sulsula Simon, Xiombarg Brignoli, and Unicorn Platnick and Brescovit). The remaining oonopids are united by the loss of the heavily sclerotized palpal sperm duct, presumably reflecting a significant transformation in palpal mechanics. Within that large assemblage,a 4-4-3-3 tarsal organ receptor pattern and an H-shaped eye arrangement seem to be retained only in the New Zealand genus Kapitia Forster; the remaining genera are apparently united by a reduction in the tarsal organ pattern to 3-3-2-2 raised receptors on legs I–IV and by the acquisition of a clumped eye arrangement. Three subfamilies of oonopids are recognized: Orchestininae Chamberlin and Ivie (containing only Orchestina; Ferchestina Saaristo and Marusik is placed as a junior synonym of Orchestina), Sulsulinae, new subfamily (containing Sulsula, Xiombarg, Unicorn,and Cortestina), and Oonopinae Simon (containing all the remaining genera, including those previously placed in the Gamasomorphinae). The type species of Sulsula and Kapitia, S. pauper (O. P.-Cambridge) and K. obscura Forster, are redescribed, and the female of S. pauper is described for the first time. A new sulsuline genus, Dalmasula, is established for Sulsula parvimana Simon and four new species from Namibia and South Africa