Abstract
Although large-bodied tropical forest birds are impacted by both habitat loss and fragmentation, their patterns of habitat occupancy will also depend on the degree of forest habitat disturbance, which may interact synergistically or additively with fragmentation effects. Here, we examine the effects of forest patch and landscape metrics, and levels of forest disturbance on the patterns of persistence of six gamebird taxa in the southern Brazilian Amazon. We use both interview data conducted with long-term residents and/or landowners from 129 remnant forest patches and 15 continuous forest sites and line-transect census data from a subset of 21 forest patches and two continuous forests. Forest patch area was the strongest predictor of species persistence, explaining as much as 46% of the overall variation in gamebird species richness. Logistic regression models showed that anthropogenic disturbance—including surface wildfires, selective logging and hunting pressure—had a variety of effects on species persistence. Most large-bodied gamebird species were sensitive to forest fragmentation, occupying primarily large, high-quality forest patches in higher abundances, and were typically absent from patches <100 ha. Our findings highlight the importance of large (>10,000 ha), relatively undisturbed forest patches to both maximize persistence and maintain baseline abundances of large neotropical forest birds.
Highlights
Habitat loss and fragmentation are often considered to be the most serious threats to biological biodiversity
These patches retained between zero and all six gamebird species considered here, with a mean of 3.0 ± 2.0 species based on interviews, and 2.7 ± 2.3 species based on surveys on foot (Table 1)
Occupied forest patches were significantly larger than unoccupied patches for all but one gamebird species (Table 2), as there was no significant patch area difference for Pipile cujubi (Table 2)
Summary
Habitat loss and fragmentation are often considered to be the most serious threats to biological biodiversity. Faunal assemblages in fragmented tropical forest landscapes become stranded in small isolated habitat patches, but are subject to other anthropogenic disturbances, such as hunting (Peres, 2001), selective logging (Michalski & Peres, 2005), and wildfires (Cochrane & Laurance, 2002). These disturbances operate hand-in-hand with habitat fragmentation and can compound fragmentationinduced ecological effects on faunal communities (Laurance & Useche, 2009). Logged forests are impoverished of many forest specialist species, following population declines or local extinctions (Bicknell & Peres, 2010; Michalski & Peres, 2005; Michalski & Peres, 2007)
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