Abstract
Butterflies belong to one of the most intensively studied invertebrate groups. However, detailed information on the larval ecology is still lacking in many species. This is especially true for the grass-feeding subfamily Satyrinae, to which our study species, the Woodland Ringlet (Erebia medusa Fabricius, 1787), belongs. At the habitat level, E. medusa exhibits a clear preference for abandoned grasslands with litter accumulation. In this study, we assessed the host-plant and oviposition preferences of E. medusa at the microhabitat level, i.e., within occupied habitat patches, in the Diemel Valley (Central Germany). Only two species of grass, Festuca ovina agg. and F. rubra agg., were systematically used for oviposition. Egg density was positively correlated with patchiness of herb layer, potential daily length of sunshine, and abandonment. However, the explanatory power of these parameters was low. We attribute this primarily to an ample supply of host plants growing under suitable conditions in the occupied habitat patches of E. medusa. The positive effect of abandonment is probably due to the fact that the average height of oviposition sites of E. medusa is greater than in most other satyrine species, which renders the eggs more vulnerable to mechanical disturbance. Moreover, thick layers of litter, which develop after the cessation of grazing or mowing, might be important as they modify the microclimate at the locations of the immature stages.
Highlights
Butterflies belong to one of the most intensively studied invertebrate groups (Thomas, 2005; Merckx et al, 2013)
This is especially true for the grass-feeding subfamily Satyrinae, to which our study species, the Woodland Ringlet (Erebia medusa Fabricius, 1787), belongs
The eggs were attached to the host plants relatively high above the ground, mostly close to the leaf tips
Summary
Butterflies belong to one of the most intensively studied invertebrate groups (Thomas, 2005; Merckx et al, 2013). Detailed information concerning life-history traits and habitat requirements at different spatial scales is still lacking for many species (Dennis et al, 2006; Fartmann & Hermann, 2006; García-Barros & Fartmann, 2009). Many studies have shown that immature stages often have more specific habitat requirements than adults This phenomenon mainly has two explanations (Fartmann & Hermann, 2006): (i) The mobility of eggs, larvae and pupae is at best very low. Their ability to respond to quantitatively and/or qualitatively insufficient food resources or bad weather conditions by moving to more suitable places is much lower than that of adults. Their ability to respond to quantitatively and/or qualitatively insufficient food resources or bad weather conditions by moving to more suitable places is much lower than that of adults. (ii) The adult stage constitutes only a small time fraction of the life cycle of most species, and the immature stages are exposed to the environmental conditions within their habitats for a much longer duration
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