The majority of the conservation strategies for threatened dragonflies are designed to protect only their aquatic habitats. Sympetrum depressiusculum is a species threatened not only by the destruction of its aquatic habitats but also by its association with a specific terrestrial environment. In this study, we aimed to identify the key elements of the terrestrial environment of adult S. depressiusculum. We used generalized linear mixed models to determine habitat preferences of adults and the particular features of habitat patches, such as vegetation cover, vegetation structure and the availability of potential prey. Our results indicate that S. depressiusculum adults preferred mainly riparian vegetation but beyond ponds they utilized only certain terrestrial habitats (abandoned fields, meadows, forest clearings). Adults responded positively to habitat patches with a high cover of vegetation and suitable vegetation structure. Adult abundance was affected also by the distance of patches from the natal site. In an agricultural landscape, the availability of such habitat patches may be limited and could influence the abundance and distribution of this species. We suggest that conservation efforts for this species should not only focus on the larval environment but also include suitable surrounding terrestrial habitats. Effective management around natal sites should concentrate on maintaining a heterogeneous landscape, which is extensively managed (e.g. leaving several fields fallow, maintaining managed hay meadows)., Michal Hykel, Filip Harabiš, Aleš Dolný., and Obsahuje bibliografii
Článek shrnuje současné znalosti o taxonomickém postavení, rozšíření a ekologii žížaly Allolobophora hrabei a o jejím vlivu na stepní ekosystémy. A. hrabei dnes chybí na většině lokalit, kde se historicky vyskytovala a je nutno ji považovat za ohrožený druh. Na místech s dostatečně velkou populací může významně ovlivňovat půdní vlastnosti i společenstva ostatních půdních organismů., This contribution summarizes current knowledge about the taxonomic position, distribution and ecology of the earthworm Allolobophora hrabei and its role in fragile fragments of central European steppe ecosystems. Nowadays, A. hrabei should be classified endangered as it is absent at most of its historical sites. Nevertheless, it may significantly affect both soil parameters and other soil organisms at the sites inhabited by larger populations., and Václav Pižl.
The current range and distribution of the common hamster, Cricetus cricetus in Poland was established. The range of the species has dwindled substantially in the course of just 30 years and the process is still going on. The Polish populations are isolated from the Belarussian, Czech and German ones, there is low probability of some exchange with Ukrainian hamsters. Moreover, two main areas of hamster distribution in Poland are isolated from each other. In view of the marked shrinkage and fragmentation of the range, we propose changing the status of this species in Poland from unknown (DD) to endangered (EN).
Nine species of the family Cobitidae live in Croatia. Seven species belong to the genus Cobitis and one each to the genera Sabanejewia and Misgurnus. Species such as the C. jadovaensis Mustafić et Mrakovčić, 2008, C. bilineata Canestrini, 1866, C. dalmatina Karaman, 1928, C. illyrica Freyhof et Stelbrink, 2007 and C. narentana Karaman, 1928 live in the Adriatic River Basin (the northern Mediterranean), while the C. elongatoides Bacescu et Maier, 1969, C. elongata Heckel et Kner, 1858, S. balcanica Karaman, 1922 and M. fossilis Linnaeus, 1758 inhabit watercourses of the Danube River Basin. Although most Adriatic taxa appear to be endemic to this area, some researchers have revealed new phylogenetic relationships, suggesting the possibility of more recent taxa exchange with Danube freshwater fish fauna. All members of these genera inhabit either running and/or standing waters. According to IUCN methodology, S. balcanica, C. elongata and M. fossilis in the Danube watershed and C. dalmatina and C. narentana in the Adriatic watershed have been classified as vulnerable. C. elongatoides is in the lower risk category. The newly determined species C. bilineata, C. illyrica and C. jadovaensis will be in the endangered category. Here we present the majority of a total of 20 areas and water bodies included in the proposal of Natura 2000 and which have been selected for the conservation of the species from the family of the Cobitidae.
The initially phytophagous caterpillars of Maculinea alcon and M. rebeli complete their development in Myrmica ant colonies as social parasites. Recent genetic studies show no differences at the species level among various populations of each butterfly taxa. Usually M. alcon and M. rebeli are identified by habitat and larval food plants (Gentianaceae) and host ant specificity is also considered to be an important feature. However most of the ecological characteristics overlap at least in some parts of their distributions. The developmental and survival characteristics of caterpillars reared by different Myrmica species were compared in laboratory experiments and in the field. Morphologically indistinguishable M. alcon and M. rebeli, which originated from Polish populations, are very similar in terms of host specificity i.e. larvae survived both with M. scabrinodis and M. sabuleti. However they showed different growth characteristics. The earlier flight period of M. rebeli, which is synchronized with the phenology of Gentiana cruciata, resulted from the quick growth of caterpillars in Myrmica nests in the pre-winter phase, when they gained about half of their final body biomass. After the end of winter they recommenced growth almost immediately. M. alcon larvae entered diapause shortly after adoption by ants and began to increase in weight significantly just one month after the onset of spring, which synchronized their development with that of their larval food plant, G. pneumonanthe. Therefore neither population group is transferable between habitats and should still be regarded, at least, as distinct conservational units.
Monitoring of the analysed populations of the endangered fish species Misgurnus fossilis was conducted using microsatellite analysis and sequencing of a part of the control region. Absolutely first microsatellite markers for weather loach were found. Six polymorphic microsatellite loci were prepared, five of which were tested. Number of alleles per a locus ranged from 3 to 5. All studied populations are differentiated one from another (FST= 0.205 - 0.367). All sampled populations contained unique alleles. Sequential analysis of the mitochondrial control region showed great haplotype similarity of the studied populations which come from one widely spread haplotype H_1, and thus suggested possible hypothesis of recent spreading from one source.
Genetic variability within and among fragmented populations of Artemisia pancicii was investigated in order to obtain a general understanding of the genetic structure related to the successful protection of this highly endangered species. Genetic variation within and among 15 populations of A. pancicii in Central Europe was analysed using amplified fragment length polymorphism (AFLP) and sequencing of two chloroplast DNA regions. The resulting polymorphism of AFLP loci was interpreted using basic population genetic indices and statistical visualisation. The total genetic variability within the populations was high (Ht = 0.248) and a highly differentiated population pattern (Fst = 0.241) was revealed. An analysis of molecular variance (AMOVA) revealed high variation among the populations (82%). There was no significant correlation between the genetic and geographic distance matrices. This indicates that population relatedness is not reflected in their geography. This was also confirmed by cpDNA sequencing. Highly restricted gene flow among the populations and genetic drift has resulted in reduced genetic variability in the smaller and highly differentiated A. pancicii populations, and very probably implies the presence of self-incompatibility and prevalence of clonal reproduction. The conservation of genetic variability in A. pancicii requires the persistence of large and also of small populations (because of population differentiation). The most important factor for the preservation of this species in the localities studied is the application of appropriate conservation management (such as mowing, grazing or fire management).
An isolated population of the common hamster, forming the western border of the species range in Poland was analysed by the use of 16 microsatellite loci and the mtDNA control region in two consecutive generations. The genetic diversity and the effective population size in this population are low. We found the evidence for ancient bottleneck in this population, but the results of tests for recent reduction of Ne were ambiguous. However, population functions properly i.e. it is in HW equilibrium, Fis and relatedness coefficients do not indicate inbreeding. It indicates that even isolated and small populations of the common hamster have good chance of survival on the condition of the protection and restoration of the habitats. Moreover, the sexrelated differences in dispersal in the common hamster were demonstrated through the relatedness analysis.
The objectives of the study were to estimate the inbreeding level in the population of captive bred Przewalski horses and its changes over time in the biggest conservation centers. The data of 2935 horses extracted from the Studbooks were considered. The average inbreeding coefficient was equal to 9.4%. In general, the inbreeding level decreased over the analyzed period. Average percentage of pedigree information was 40.2%.