Coupled population dynamics of two Neotropical marsupials driven by mesopredator's abundance.

According to the mesopredator release theory, when top predators are eradicated from an area, mesopredators become overabundant. Didelphis aurita is the largest marsupial in the Atlantic Rainforest, and it occurs in higher abundances in the absence of top predators. This mesopredator has similar ecological requirements to the sympatric marsupial Metachirus nudicaudatus. Considering the similar requirements, and that D. aurita is about three times the size of M. nudicaudatus, our hypothesis is that the increase in D. aurita's abundance may negatively affect M. nudicaudatus' population. To test this hypothesis, we conducted a two‐year capture‐mark‐recapture study in an area in the Southeast of Brazil where top predator community is depauperated. The relationship between the population dynamics of these two marsupials was analyzed by including abundance of D. aurita and environmental conditions as explanatory variables of the population parameters of M. nudicaudatus. We observed that all demographic parameters of M. nudicaudatus fluctuated over time and responded negatively to D. aurita abundance. Our conclusion is that, at least on a monthly timescale, the interspecific relationship with D. aurita seems to influence more M. nudicaudatus' population than any other environmental covariate. These findings suggest that mesopredator release can promote negative effects on population parameters of other species within the same trophic level. Considering that top predators are no longer present in most of the remaining Atlantic Rainforest fragments, the marsupial D. aurita has become a key species in this biome, with relevant consequences arising from its interspecific interactions. Here we demonstrate how mesopredator release can negative affect other species within the same trophic level. Our findings evince that an increase on the abundance of the mesopredator Didelphis aurita negatively affects the population parameters of the sympatric marsupial Metachirus nudicaudatus. Thus, the absence on top predators in most of the remaining Atlantic Rainforest fragments may be promoting relevant consequences arising from D. aurita's interspecific interactions. [ABSTRACT FROM AUTHOR]