Abstract
Ecosystem engineers affect other organisms by creating, maintaining or modifying habitats, potentially supporting species of conservation concern. However, it is important to consider these interactions alongside non-engineering trophic pathways. We investigated the relative importance of trophic and non-trophic effects of an ecosystem engineer, red deer, on a locally rare moth, the transparent burnet (Zygaena purpuralis). This species requires specific microhabitat conditions, including the foodplant, thyme, and bare soil for egg-laying. The relative importance of grazing (i.e., trophic effect of modifying microhabitat) and trampling (i.e., non-trophic effect of exposing bare soil) by red deer on transparent burnet abundance is unknown. We tested for these effects using a novel method of placing pheromone-baited funnel traps in the field. Imago abundance throughout the flight season was related to plant composition, diversity and structure at various scales around each trap. Indirect effects of red deer activity were accounted for by testing red deer pellet and trail presence against imago abundance. Imago abundance was positively associated with thyme and plant diversity, whilst negatively associated with velvet grass and heather species cover. The presence of red deer pellets and trails were positively associated with imago abundance. The use of these sites by red deer aids the transparent burnet population via appropriate levels of grazing and the provision of a key habitat condition, bare soil, in the form of deer trails. This study shows that understanding how both trophic and non-trophic interactions affect the abundance of a species provides valuable insights regarding conservation objectives.
Highlights
A critical goal of conservation ecology is to investigate the mechanisms that contribute to the abundance and distribution of a species in decline to prevent extirpation (Gunn and Caughley 1995)
The aims of this research were to evaluate the effects of direct trophic interactions and indirect trophic interactions on transparent burnet abundance
In addition to the trophic effects described above, our study identified a clear non-trophic interaction, in that red deer may be playing an active role in provisioning specific habitat requirements for transparent burnets
Summary
A critical goal of conservation ecology is to investigate the mechanisms that contribute to the abundance and distribution of a species in decline to prevent extirpation (Gunn and Caughley 1995). Major ecological determinants of species persistence are investigated, such as resource availability, habitat suitability, con- and heterospecific competition and predation (Chapman and Reiss 1998). As these ecological processes become better understood, conservation ecologists can make informed decisions on prioritizing conservation efforts. Ecosystem engineers are organisms that alter the biotic or abiotic components of an ecosystem through direct or indirect means, thereby creating, modifying, or maintaining habitat condition and. Well-documented examples of ecosystem engineers include African bush elephants (Loxodonta africana), beavers (Castor spp.), and termites (Infraorder Isoptera), all of which significantly alter their ecosystems (Barry et al 2019; Melis et al 2006)
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