We examined selected external characteristics and measurements of Pipistrellus k. kuhlii and P. k. lepidus representatives from the Balkans and Central Europe, whose ranges have rapidly expanded over the past few decades. We also sequenced and analysed two mitochondrial (16S and COI genes) and one nuclear (RAG2) markers of these two bat morphotypes to determine haplotype diversity and distribution patterns with a wider geographic perspective. We found that bats of the two taxa differed markedly with regard to the overall body coloration, size (P. k. lepidus is larger than P. k. kuhlii), extent and shape of the pale wing margin, and penis coloration, a finding which seems to be of diagnostic value, similarly to other Pipistrellus species. No polymorphism in RAG2 marker was found, but in both mtDNA markers we detected different haplotypes characteristic for both taxa, corresponding to morphological and morphometric patterns established in this study. Our genetic analysis results confirmed a clear division into two phylogenetic lineages and may indicate their allopatric speciation and a very recent simultaneous expansion to the Balkans and Central Europe from the Mediterranean region (P. kuhlii/deserti) and south-west Asia across eastern Europe (P. k. lepidus). We also show that P. k. lepidus distribution is wider than previously reported, and that the ranges of P. k. lepidus and P. k. kuhlii have already contacted in Central Europe.
Savi's pipistrelle Hypsugo savii is a Mediterranean faunal element among the bats; it occurs in southern Europe, the Canary Islands, north‐western Africa, most of the Mediterranean islands, in the northern part of the Middle East, in the Crimea, Caucasus, West Turkestan, and northern Afghanistan. The northern margin of its geographical range in Europe reaches the Pyrenees, Massif Central, southern Alps, Dalmatia, Balkan Mountains and southern Crimea, like that of other similar biogeographical elements.
Since the 1990s, Hypsugo savii started to be found in inland areas of south‐eastern Europe and in Central Europe as far northwards as in central Bohemia and southern Poland. These numerous new occurrences seem to be either 1) connected to environmental changes caused by the current climate change; 2) evidence of an intrinsic expansion process powered by the species' synanthropic tendency, including passive human‐mediated transport; or 3) a reflection of the increase in field survey efforts.
Distributional data on Hypsugo savii from central and south‐eastern parts of Europe were gathered and evaluated.
We provide a detailed review of all records available by the end of 2013. The assessment of temporal distribution of the data clearly shows an ongoing and relatively fast expansion of Hypsugo savii from southern to Central Europe, which represents a shift of almost 800 km northwards in the last 20–25 years.
Most of the records (65%) originate from urban habitats. This suggests that the synanthropic habits of the species are the most plausible explanation for the northwards shift of the range limits of Hypsugo savii.
Recent climate warming is thought to affect the migratory behavior and geographical range shifts of Pipistrellus nathusii. This bat of the European temperate woodland zone is known to migrate up to 1900 km between its breeding and wintering areas where it uses overground roosts for hibernation. New wintering areas of the species have been recorded lately mainly in the cities of Central Europe, largely extending its winter distribution to the north-east. The growing detection of the winter occurrence of P. nathusii has coincided with an increase in mean winter temperatures and urban warming. Our analysis shows that a winter isotherm of −2.5°C acts as a border for the winter occurrence of P. nathusii, and the species uses urban areas, most likely benefiting from the effect of urban heat islands. Accordingly, the island-like pattern of P. nathusii’s regular wintering habitats distribution in Central Europe seems to reflect the thermal and structural diversity of the environment. The use of diverse anthropogenic roosts suggests that the species is well-adapted to urban habitats, thus demonstrating its ecological plasticity.
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