Abstract
Raised bogs are extreme and azonal ecosystems with a characteristic hydrological balance, microclimatic conditions and a specific flora and fauna. Recently, these ecosystems have increasingly become the focus of scientific and general attention because of their important ecosystem roles in the face of global warming and providing biodiversity refuges. From a biogeographical and evolutionary context, the peat bogs of the European Lowlands serve as palaeorefugia, acting as cold, edaphic island habitats for arcto-alpine or boreo-montane insect species in temperate biomes. Analysing 105 peat bog sites in the northern lowlands of Central Europe, we compare the diversity and geographic distribution pattern of a subset of six butterfly species, which appear to be tyrphobiontic or tyrphophile mire specialists. We demonstrate a decrease in mean species number in the European Lowlands on a gradient from the east (Northern Belarus, about 4 species) to the west (Northern Germany, about 1 species), and suggest that the decreasing species number may be mainly caused by human impact in the past. The individual distribution pattern shows a nearly complete gap in occurrence of the sensitive bog specialist species Colias palaeno and Boloria eunomia in Northern Germany and an increasing presence of those species in peat bogs of eastern Europe. Boloria aquilonaris shows a different pattern, which, in contrast to C. palaeno, is continuously distributed in all sampled regions and seems to be the more tolerant of tyrphobiontic butterflies in the face of human impact on peat bogs. In the light of other recent findings our results also suggest that Boloria aquilonaris and Plebejus optilete may serve as target species reflecting success in ecological restoration of peat bog ecosystems.
Highlights
Raised bogs are extreme and azonal ecosystems with characteristic hydrological balance, microclimatic conditions and a specific flora and fauna (Mikkola and Spitzer 1983; Sushko 2012)
N = 12 sites sites % occ Individual species distribution patterns and regional habitat association The individual spatial pattern of species, habitat preferences and zoogeographical traits of tyrphobiontic/tyrphophile butterflies are the key for understanding changes in distribution dynamics over time
B. aquilonaris seems to be more tolerant and ecologically flexible in the face of bog degeneration than is C. palaeno, as the former was recorded from peat bogs with significant human impact (Thiele et al 2015; Bönsel and Sonneck 2016)
Summary
Raised bogs are extreme and azonal ecosystems with characteristic hydrological balance, microclimatic conditions and a specific flora and fauna (Mikkola and Spitzer 1983; Sushko 2012). As there is no obligatory connection between these species and Pleniglacial or Late Glacial environments (Sommer et al 2015), we suggest following Spitzer et al (1999) and Spitzer and Danks (2006) in classifying peat bogs with cold adapted and tyrphobiontic insect species as “palaeorefugia” which indicate the colonization origin of this species and establishment of populations during past millennia of the Holocene. In northern Germany several tyrphobiontic butterfly species such as B. aquilonaris or Plebejus optilete experienced a strong decline or went extinct, as did Colias palaeno in historic times, due to peatland degeneration (Reinhard et al 2014; Thiele et al 2015, 2016; Meineke 2020; Caspari et al 2020). We analyse the distribution pattern of mire specialist butterflies along a west-east gradient in the Central European lowland regions
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
