Commonly reported effects of pine on topsoil include acidification, a decrease in biological activity, and an accumulation of surface organic matter. Such effects have not been documented for Mediterranean woodland and scrubland areas. This research evaluated humus profiles beneath pine and adjacent vegetation on the basis of previous knowledge on soil animal communities and vegetation. Two Mediterranean sites with aleppo pine (Pinus halepensis P. Mill.) and scrubland vegetation were compared, one in Spain (Navarre), the other in Italy (Sicily). Humus profiles were sampled under main vegetation types, comprising aleppo pine, rosemary (Rosmarinus officinalis L.), and bare ground in both sites, along transects with increasing pine influence. Quantitative morphological methods were used to analyze and compare humus profiles, and data were analyzed using correspondence analysis. In both sites the influence of aleppo pine on humus forms was well‐defined but minor, increasing the appearance of an Oe horizon characterized by intense activity of litter‐dwelling fauna and fungi. Under all vegetation types, and in both sites, the organo‐mineral A horizon was of the mull type, although the composition of the soil‐building fauna varied between Navarre and Sicily. There was more heterogeneity among vegetation types in Navarre, where aleppo pine was planted on derelict land, than in Sicily where aleppo pine was a component of natural vegetation (maquis). A decreasing influence of pine was perceptible in the inner edge of the pine plantation in Navarre, or under the crown of individual trees in Sicily.
Although Iberian subsurface terrestrial habitats have been sampled for a half century, they remain poorly known. During the last five years much more sampling of these subsurface habitats has been made, mainly in scree slopes (also called colluvial Mesovoid Shallow Substratum habitats, MSS) but also in alluvial debris of temporal watercourses (alluvial MSS). In our study, diplurans, a basal hexapod group, were extracted from two hundred traps installed in 69 locations in the mountain ranges of six different regions of the Iberian Peninsula, from north to south: Cantabrian, Pyrenees, Iberic System, Central System, Prebaetic and Penibaetic Mountains. A total of 1251 specimens in fifteen dipluran species: thirteen described Campodeidae, one described Japygidae and one new Campodea species inhabiting the alluvial MSS habitats of the watercourses of Prebaetic Mountains. A few populations of these dipluran species show troglobiomorphic features as a consequence of the medium-sized voids of the MSS habitats, such as Campodea grassii Silvestri, 1912, collected in a scree slope connected with a deep subterranean system in Penyas Roset, Prebaetic Mountains. Most species found in MSS habitats are endogean or epiedaphic species living in the area, but this is not the case in Sierra de Guadarrama, where three species (Campodea propinqua Silvestri, 1932, Campodea neusae Sendra & Moreno, 2006 and Campodea zuluetai Silvestri, 1932) unknown in the soil of these mountains have appeared in these subsurface terrestrial habitats.
SummaryKrubera-Voronya cave and other deep systems in Arabika Massif are being explored during many speleological expeditions. A recent Ibero-Russian exploration expedition (summer of 2010) took place in this cave with the aim of providing a study of the biocenosis of the deepest known cave in the world. Four new species of Collembola were found at different depths: Schaefferia profundissima n. sp., Anurida stereoodorata n. sp., Deuteraphorura kruberaensis n. sp., and Plutomurus ortobalaganensis n. sp., the last one at -1980 m deep. The identification and description of the new species have required the careful study of all congeneric species, implying a revision of each genus. As a result of this work tables and keys to all significant characters for each species are presented.
KeywordsKey; cavernicolous fauna; biospeleology; deepest cave of the world; Schaefferia profundissima n. sp.; Anurida stereoodorata n. sp.; Deuteraphorura kruberaensis n. sp.; Plutomurus ortobalaganensis n. sp.
Genera in subfamily Paronellinae have been grouped into five tribes, in part based on chaetotaxy. Tribes Bromacanthini, Paronellini, and Troglopedetini are characterized by having rounded scales and reduced or no macrochaetae, and although Bromacanthini harbors two well-differentiated genera, the core genera in tribes Paronellini and Troglopedetini form a homogeneous group where even generic diagnoses were, until recently, unclear. The genera assigned to Troglopedetini (
Troglopedetes
Absolon,
Trogolaphysa
Mills, and
Cyphoderopsis
Carpenter) harbor many species with reduced eyes number, whereas the tribe Paronellini (genera
Paronella
Schött,
Dicranocentruga
Wray and
Campylothorax
Schött) includes species with 6–8 eyes. Recent analyses of the chaetotaxy of
Trogolaphysa
and
Cyphoderopsis
suggest that these genera represent specialized forms related to species in Paronellini. The taxonomy of
Troglopedetes
, the type genus of Troglopedetini, is based almost exclusively on claw and mucro shape and dorsal macrochaetae pattern, and few details of the complete dorsal chaetotaxy of the species are known. This contribution presents a comparative analysis of the complete dorsal chaetotaxy of two species of
Troglopedetes
from Spain (one new to science), two new species of
Trogolaphysa
from the Dominican Republic and Martinique, and
Campylothorax sabanus
with the purpose of identifying aspects of the chaetotaxy that could provide diagnostic characters for the separation of
Trogolaphysa
and
Troglopedetes
, and a new diagnosis for tribe Troglopedetini. The analysis shows that neither the number of chaetae nor its organization or pattern of macrochaeta provides diagnostic differences between
Trogolaphysa
and
Troglopedetes
. It is also concluded that the separation of Paronellini and Troglopedetini is not justified. Troglopedetini is here synonymized with Paronellini, and a new diagnosis of Paronellini is provided.
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