Landscape configuration and frugivore identity affect seed rain during restoration

Abstract

Seed dispersal is a critical ecological function provided largely by vertebrate frugivores in tropical forests. The seed dispersal events mediated by a frugivore species depend on the interaction between the frugivore's traits and landscape structure. Managers seeking to restore seed dispersal to degraded areas to facilitate passive regeneration must consider these interactions. We explore how the relationship between disperser traits and landscape configuration affects seed rain patterns by assessing two restoration goals: 1) high native seed dispersal into degraded areas and 2) low non‐native seed dispersal into intact areas. We developed an individual‐based, spatially‐explicit model, ‘Estimating Seed‐Animal‐Landscape Interactions' (eSALI), and applied it to the case study of Guam, a tropical island that experienced near‐total loss of animal‐mediated seed dispersal following extirpation of its vertebrate frugivores. We focus on two frugivorous bird species, såli Aplonis opaca and totot Ptilinopus roseicapilla, both candidates for rewilding on Guam but differ in their movement distances, gut passage times and habitat use. We simulated populations of both species in seven theoretical landscapes. These landscapes varied in the spatial configuration of intact and degraded forest patches, hosting native and non‐native plant species, respectively. Our results showed that seed rain pattern of the two frugivore species differed across scenarios. A clear tradeoff appeared between both restoration goals in all scenarios: while Såli moved overall more native seeds into degraded areas, they also moved more non‐native seeds into intact areas. Totot on the contrary minimized non‐native seed into intact areas at the expense of moving overall fewer native seeds in degraded areas. This tradeoff was also correlated to landscape configuration: lower heterogeneity minimized non‐native seed rain into intact patches while higher heterogeneity maximized native seed rain into degraded patches. Land managers should explore the interactions between dispersers and landscape configuration to identify ideal candidates for restoring ecological functions.