Abstract
The extinction of large frugivores has consequences for the recruitment of large-seeded plants with potential lasting effects on carbon storage in tropical rainforests. However, previous studies relating frugivore defaunation to changes in carbon storage ignore potential compensation by redundant frugivores and the effects of seed predators on plant recruitment. Based on empirical data of the recruitment success of a large-seeded hardwood tree species (Cryptocarya mandioccana, Lauraceae) across a defaunation gradient of seed dispersers and predators, we show that defaunation increases both seed dispersal limitation and seed predation. Depending on the level of seed predator loss, plant recruitment is reduced by 70.7–94.9% as a result of the loss of seed dispersers. The loss of large seed predators increases the net seed mortality by 7–30% due to the increased abundance of small granivorous rodents. The loss of large seed dispersers can be buffered by the compensatory effects of smaller frugivores in seed removal, but it is not sufficient to prevent a decrease in plant recruitment. We show that the conservation of both seed predators and dispersers is necessary for the recruitment of large-seeded plants. Since these plants contribute substantially to carbon stocks, defaunation can jeopardize the maintenance of tropical forest carbon storage.
Highlights
Anthropocene defaunation, known as the local or global extinction of animal populations or species, is recognized as an important driver of global environmental change[1]
We investigated the contributions of the seed dispersers of a large-seeded hardwood tree species, Cryptocarya mandioccana (Lauraceae), in three areas across a defaunation gradient of seed dispersers and predators to assess the magnitude of possible compensatory effects
The contribution of each seed disperser to the recruitment success, of C. mandioccana in three areas of Atlantic Forest differing in their seed disperser and predator communities (Table 1; see Fig. S1 in Supplementary Information)
Summary
Anthropocene defaunation, known as the local or global extinction of animal populations or species, is recognized as an important driver of global environmental change[1]. CB - High (Non-def ) com com com com fe com com low com com com com com com com IC (Mod def) CB - Low (Def) ex fe fe com com com low com com and, while some species respond negatively to anthropogenic activities, others can benefit because of differential functional response traits or competitive (numerical) release[12]. This demographic asynchrony can give rise to compensatory effects[17] that are able to mitigate, fully compensate or even invert the effects of defaunation on the seed dispersal process[18]. Functional redundancy among mutualist and antagonist species and possible compensatory effects still need to be investigated in a defaunation context
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