Factors influencing carrion communities are only partially consistent with those of deadwood necromass
von Hoermann, Christian; Benbow, M. Eric; Rottler-Hoermann, Ann-Marie; Lackner, Tomáš; Sommer, David; Receveur, Joseph P.; Bässler, Claus; Heurich, Marco Dietmar; Müller, Jörg
Peer reviewed, Journal article
Published version
Date
2023Metadata
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Abstract
Research on decomposer communities has traditionally focused on plant litter or deadwood. Even though carrion forms highly nutrient-rich necromass that enhance ecosystem heterogeneity, the factors infuencing saprophytic communities remain largely unknown. For deadwood, experiments have shown that diferent drivers determine beetles (i.e., decay stage, microclimate, and space), fungi (i.e., decay stage and tree species) and bacteria (decay stage only) assemblages. To test the hypothesis that similar factors also structure carrion communities, we sampled 29 carcasses exposed for 30 days that included Cervus elaphus (N=6), Capreolus capreolus (N=18), and Vulpes vulpes (N=5) in a mountain forest throughout
decomposition. Beetles were collected with pitfall traps, while microbial communities were characterized using amplicon sequencing. Assemblages were determined with a focus from rare to dominant species using Hill numbers. With increasing focus on dominant species, the relative importance of carcass identity on beetles and space on bacteria increased, while only succession and microclimate remained relevant for fungi. For beetle and bacteria with focus on dominant species, host identity was more important than microclimate, which is in marked contrast to deadwood. We conclude that factors infuencing carrion saprophytic assemblages show some consistency, but also diferences from those of deadwood assemblages, suggesting that short-lived carrion and long-lasting deadwood both provide a resource pulse with diferent adaptions in insects and microbes. As with deadwood, a high diversity of carcass species under multiple decay stages and diferent microclimates support a diverse decomposer community.