Directed dispersal and decomposition drive cyclic succession in arid subtropical thicket

Abstract

The influence of animal-mediated processes on the purported cyclical succession model of vegetation dynamics in arid subtropical thicket of southern South Africa was examined. We used spatially explicit sampling methods to evaluate the influence of dispersal and decomposition on plant community structure. The harvester ant Messor capensis was the only ant species recorded harvesting Portulacaria afra fruit and the elaiosome bearing seed of the tree Gymnosporia polyacantha from experimental piles. Propagules were dispersed to nest mounds positioned beneath woody shrubs. Vertebrates dispersed fleshy-fruited tree species to regeneration sites beneath P. afra clumps. The minute seeds of succulent shrubs were secondarily dispersed from beneath shrubs to ant nest sites located in the open. The results from two experiments indicate that soil nutrients and decomposition activity are spatially localised. The rate of below-ground decomposition, and the incidence of an invertebrate detritivore assemblage, was high beneath P. afra clumps compared with exposed nutrient-enriched and grassy sites. Animal dispersal vectors are integral to the regeneration of major plant groups in arid subtropical thicket by moving seeds from competitively harsh environments to safe sites beneath nurse plants. Decomposition and nutrient release are localised beneath P. afra clumps due to the unique conditions that support a suite of detritivore taxa recorded nowhere else at the study site.