We present a revision of the genus Troglophilus in the western part of the Balkan Peninsula based on morphological and genetic analysis, and provide distribution data for the species. The results of these analyses reduced the number of the known taxa within the genus Troglophilus in this area to five valid species: Troglophilus cavicola (Kollar, 1833), Troglophilus neglectus Krauss, 1879, Troglophilus ovuliformis Karny, 1907, Troglophilus brevicauda Chopard, 1934, and Troglophilus lazaropolensis Karaman, 1958. A new species Troglophilus zorae sp. nov. is described and Troglophilus neglectus serbicus Maran, 1958, Troglophilus neglectus vlasinensis Maran, 1958, Troglophilus bukoviki Karaman, 1968 and Troglophilus pretneri Us, 1970 are synonymized. The distribution pattern of the western Balkan species supports a general east-west migration route. We also determined the centres of origin and spreading directions of particular species according to the distribution of the taxa and the structure of the haplotypes.
We aim to infer a combined scenario for the evolution of the Woodland Ringlet, Erebia medusa, in Central Europe based on analyses of part of the mitochondrial cytochrome oxydase subunit I (COI) and a published allozyme data set. We sequenced 529 bp of COI for 158 butterflies from 32 populations from almost the entire western distribution range of the species. We applied population genetic [spatial analysis of molecular variance (samova)] and phylogeographical analyses as well as coalescence simulation to test if the published allozyme scenario supports or contradicts the observed haplotype distribution. We recorded 16 haplotypes of which four represent a total of 82%. samova grouped the 32 populations into four geographically coherent groups: (1) western Central Europe, (2) Central Europe, (3) eastern Central Europe and (iv) western Pannonia. Mismatch distribution analyses and haplotype networks are in coincidence with constant population growth and reveal a relatively shallow phylogeographical structure. We evaluated the level of discordance between population histories and gene trees using Slatkins s and the deep coalescence statistics based on our mtDNA data. These estimators decline the previously published allozyme scenario of survival in different extra-Mediterranean refugia in Europe with an onset of differentiation at the beginning of the last ice age some 70 000 years ago. However, it supports a refined scenario if we assume an onset of vicariance driven differentiation in these refugia after the end of the middle Wu¨rm interstadials some 30 000 years ago. Therefore, the general evolutionary history of this species in Europe apparently is very recent. Most probably, areas adjoining the high mountain regions as Alps and northern Carpathians were of great importance for the late Wu¨rm glacial survival of species like Erebia medusa.
Mutualists have been suggested to play an important role in the assembly of many plant and animal communities, but it is not clear how this depends on environmental factors. Do, for instance, natural disturbances increase or decrease the role of mutualism? We focused on entire guilds of mutualists, studying seed-dispersing ants and ant-dispersed plants along gradients of inundation disturbances. We first studied how abundance and richness of the mutualists, relative to non-mutualists, change along 35 small-scale gradients of inundation disturbances. We found that at disturbed sites, mutualistic plant species, those that reproduce by seeds dispersed by ants, increased in abundance and in consequences in richness, relative to other herbaceous plants. In contrast, we found that among the epigeic arthropods the abundance of mutualists declined, even more so than other arthropods. Correspondingly, distributions of plant and animal mutualists became increasingly discordant at disturbed sites: most plant mutualists were spatially separated from most animal mutualists. We finally found that high abundances of plant mutualists did not translate into a high nutrition service rendered to ants: at disturbed sites, many of the plants of ant-dispersed species did not produce seeds, which coincided with a decline in seed dispersal by ants and a changing searching behavior of the ants. Overall, the small-scale natural disturbances we studied were correlated to a major change in the assembly of mutualist guilds. However, the correlation was often opposite between interacting plant and animal mutualist guilds and may thus reduce the potential interaction between them.
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