Primate reintroduction promotes the recruitment of large-seeded plants via secondary dispersal

Abstract

The loss of larger frugivores alters seed dispersal. Species reintroductions have been proposed as a strategy for reversing local disperser extinctions. However, their effects on ecological processes have seldom been assessed. Howler monkeys (Alouatta guariba) have been reintroduced in Tijuca National Park, a defaunated Atlantic Forest fragment. We compared the fate of seeds dispersed by howlers to dispersal by two other frugivores present in the park: capuchin monkeys (Sapajus nigritus) and guans (Penelope superciliaris). Howlers produce clumped defecations that attract dung beetles, which provide secondary dispersal by burying seeds embedded in feces. We expected that seeds dispersed by howlers would have a different fate from those dispersed by capuchins and guans, since their scattered defecations are less attractive to dung beetles. We followed the fate of seeds 3–14 mm in diameter through three processes after seed deposition: secondary dispersal, predation, and seedling emergence. We estimated the probabilities in each step according to the primary disperser and plant species. Dispersal by howlers increased the recruitment of large-seeded plants because of the higher probability of secondary dispersal of the seeds in their feces. Fewer of the seeds dispersed by capuchins or guans were buried, regardless of size, and burial depths were shallower. For 3 mm seeds, the final recruitment probability was similar across frugivores. However, more of the larger seeds reached the seedling stage when dispersed by howlers since they were buried more deeply, which increased their survival without affecting seedling emergence. Reintroductions can thus contribute to restoring ecological processes.