Abstract
The influence of early arriving species on the establishment and activity of later ones (the priority effect) is a key issue in ecological succession. Priority effects have been extensively studied in communities subject to autotrophic succession (plants, sessile animals), but only sporadically studied in communities subject to heterotrophic succession (e.g. dung or carrion inhabiting communities). We studied the influence of early successional colonizers on late successional colonizers by manipulating the successional processes in cow dung pats via delaying, and thus lowering, colonization by early successional insects. The decreased activity of early successional insects did not affect the species richness of late successional insects, but it did lead to increased abundance of colonizers. Late successional coprophagous beetles were facilitated by early successional species while larvae of late successional coprophagous flies were inhibited, presumably, by the larvae of early successional flies. We therefore propose that both facilitation and inhibition have a role to play in the heterotrophic succession of coprophilous insects. In addition, facilitation and inhibition among taxa seems to reflect their evolutionary relationships, with facilitation being prominent between phylogenetically distant lineages (early successional Diptera and late successional Coleoptera), and inhibition being more common between closely related lineages (early vs. late successional Diptera). These patterns are strikingly reminiscent of the situation in the autotrophic succession of plants.
Highlights
Succession is one of the most studied phenomena in community ecology, yet the mechanisms behind the patterns observed are still not completely known
The facilitation model predicts that early successional species enable the establishment of the late successional ones; the inhibition model predicts that early successional species prevent the establishment of late successional ones; and the tolerance model predicts late successional species to establish themselves irrespective of the activity of the early successional ones
Dung beetles were always considered the prime catalyst for such changes (Lussenhop et al, 1980), it seems that any soil fauna could start this process (Perez-Valera et al, 2019)
Summary
Succession is one of the most studied phenomena in community ecology, yet the mechanisms behind the patterns observed are still not completely known. How early colonizers influence the species richness and abundance of later ones (priority effects) is a major field of study in successional theory. Wootton (1993) refined these ideas and added two more scenarios describing the partial effect of early successional species; i.e., that the early successional species can support or hinder the establishment of the late successional species. This stands in contrast to a strict dichotomy between enabling and disabling establishment under the facilitation and inhibition models)
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