Abstract
AbstractIn order to gain insight into the pattern of bat species composition over altitude and the environmental variables driving the observed pattern, we compared data from moist southern and drier northern aspects of the Soutpansberg range in northern South Africa. Acoustical monitoring and additional capturing of bats was used for analysis of species distribution patterns and comparisons of community composition. Bat activity generally followed a linear decline with increasing altitude, possibly related to reproductive females preferring lower altitudes. Species richness followed a hump-shaped distribution on the northern aspect and across the transect, whereas a pattern of a linear decline was observed on the southern aspect. Our study strongly supports a previously published climate model for insectivorous bats which assumes that water availability linked with temperature determines the shape of altitudinal distribution in bat species. Step-wise selection from multiple regression models retained habitat type and/or measures of habitat structure in all final models, supporting several other studies in that vegetation correlated to altitude is a primary determinant of bat species distribution over altitude. This study also supports that the Soutpansberg is a biodiversity hotspot for bats and emphasises that conservation efforts should by no means ignore the lower altitudes.
Highlights
While bats provide a wide range of valuable ecosystem services (Fenton 1997, Ducummon 2000, Kalka et al 2008, Kunz et al 2011), about one-quarter of all bat species are threatened with extinction (Mickleburgh et al 2002)
As described by Mucina and Rutherford (2006), the habitat types found within the study area are Soutpansberg Mountain Bushveld (SMB), Northern Mistbelt Forest (NMF), Soutpansberg Summit Sourveld (SSS), Makhado Sweet Bushveld (MSB) and Musina Mopane Bushveld (MMB) (Figure 1)
The hypothesis of the mid-domain effect (MDE) is based on the assumption that the range of each species is directed towards one end of the domain and, most ranges overlap in the “mid-domain”
Summary
While bats provide a wide range of valuable ecosystem services (Fenton 1997, Ducummon 2000, Kalka et al 2008, Kunz et al 2011), about one-quarter of all bat species are threatened with extinction (Mickleburgh et al 2002). This proportion could rise quickly under progressing global climate change (Thomas et al 2004). Whereas the species-area effect and the mid-domain effect were long suggested to be the primary underlying causes of those
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