Impact of grazing management on hibernating caterpillars of the butterfly Melitaea cinxia in calcareous grasslands

C G E Van Noordwijk,Eva Remke,Matty P Berg,Michiel F Wallisdevries,Daphne E Flierman

doi:10.1007/s10841-012-9478-z

Abstract

Semi-natural grasslands are increasingly grazed by large herbivores for nature conservation purposes. For many insects such grazing is essential for the conservation of their habitat, but at the same time, populations decrease at high grazing intensity. We hypothesised that grazing management may cause increased butterfly mortality, especially for life-stages with low mobility, such as hibernating caterpillars. To test this, we measured the effect of sheep grazing on overwinter larval survival. We used the Glanville fritillary (Melitaea cinxia), which has gregarious caterpillars hibernating in silk nests, as a model species. Caterpillar nests were monitored throughout the hibernating period in calcareous grassland reserves with low and high intensity sheep grazing and in an ungrazed control treatment. After grazing, 64 % of the nests at the high intensity grazing treatment were damaged or missing, compared to 8 and 12 % at the ungrazed and low intensity grazing treatment, respectively. Nest volume and caterpillar survival were 50 % lower at the high intensity grazing treatment compared to both ungrazed and low intensity grazing treatments. Nest damage and increased mortality were mainly caused by incidental ingestion of the caterpillars by the sheep. It is likely that grazing similarly affects other invertebrates, depending on their location within the vegetation and their ability to actively avoid herbivores. This implies that the impact of grazing strongly depends on the timing of this management in relation to the phenology of the species. A greater focus on immature and inactive life-stages in conservation policy in general and particularly in action plans for endangered species is required to effectively preserve invertebrate diversity.

Highlights

Nutrient-poor, semi-natural grasslands harbour a large part of the biodiversity in temperate climates, especially for plants and insects (Stevens et al 2004; WallisDeVries et al.J Insect Conserv (2012) 16:909–9202002)
We hypothesised that grazing management may cause increased butterfly mortality, especially for life-stages with low mobility, such as Electronic supplementary material The online version of this article contains supplementary material, which is available to authorized users
Nutrient-poor, semi-natural grasslands harbour a large part of the biodiversity in temperate climates, especially for plants and insects (Stevens et al 2004; WallisDeVries et al J Insect Conserv (2012) 16:909–920

Summary

Introduction

Nutrient-poor, semi-natural grasslands harbour a large part of the biodiversity in temperate climates, especially for plants and insects (Stevens et al 2004; WallisDeVries et al.J Insect Conserv (2012) 16:909–9202002). Agricultural intensification and the introduction of artificial fertilizers have led to abandonment of these farming practices and conversion of semi-natural grasslands to arable land and high intensity agricultural grassland (Baldock et al 1996) This resulted in a strong decline in species richness (Stevens et al 2004; van Swaay et al 2010; WallisDeVries et al 2002). In many sites the problems caused by fragmentation and abandonment were further amplified by eutrophication from both adjacent agricultural areas (run-off) and airborne nitrogen pollution (Bobbink and Willems 1993; Willems 2001) These land use changes resulting from abandonment of traditional agricultural practices across Europe are believed to be one of the largest threats to European butterflies (van Swaay et al 2010)

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