Small mammals in a mosaic of remnant and anthropogenic habitats: matrix quality and connectivity in a fragmented Atlantic forest landscape

This dissertation was developed as part of the thematic project “Biodiversity Conservation in Fragmented Landscapes at the Atlantic Plateau of São Paulo", which aimed at studying the effects of the fragmentation of the Atlantic forest on several communities and ecological processes in Caucaia do Alto, SP. This dissertation is divided in two main approaches that comprise three chapters. In the first approach, I used data collected by myself and by other researchers with the objective of testing the use of a relatively new and little explored methodology to capture small mammals in the tropics, comparing its efficiency to the methodology that is tradicionally ised to collect data about these animals (chapter 2). Recent studies have shown that the matrix of altered habitats surrounding remnants in fragmented landscapes, considered initially as inhospitable and homogeneous, act as a mosaic of units presenting different degrees of permeability to the movement or to the occurrence of species. Within this context, the second approach of this dissertation concerns the description and comparison of use of the altered habitats surrounding forest remnants by small mammals (chapter 3) and to the use of this type of information for the study of the influence of landscape structure on species distribution (chapter 4). In chapter 2, aiming at the evaluation of the efficiency and congruence of different types of traps, we sampled the small mammal community using a standardized procedure, with Sherman and pitfall traps in 26 study sites, 20 located in forest fragments and six in the continuous forest. Results suggest that large and deep enough pitfall traps used during wet and warm periods, not only complement the diversity found using traditional traps, but also leads to an considerable increase in the number of species found at each study site, including rare species, semi-fossorial species and scansorial/arboreal species that are usually not attracted to the bait used in traditional traps. Despite differences in efficiency, results suggest that data gathered with the two types of traps are congruent and that the variation in diversity and abundance among study sites is similar between the two methods. Pitfall traps also seem to be essential in demographic studies because they are able to capture individuals within a larger range of weights, including young individuals, which are rarely captured using traditional traps. In the chapter 3, to evaluate matrix quality for the small mammals in Caucaia do Alto, we used data from standardized sampling in 23 study sites, seven of which were located in forest remnants (continuous and fragmented forest) and 16 were distributed in the four main types of matrix habitats (native vegetation in initial stages of regeneration, eucalyptus plantation, areas of agriculture and rural areas with buildings). There was a strong segregation in the small mammal community between native vegetation and the other habitats, indicating the extremely low capacity of forest species to occupy anthropogenic habitats. Native vegetation in initial stages presented a reasonable permeability to forest species, suggesting the potential of natural regeneration to restore fragmented Atlantic forest landscapes. Anthropogenic habitats were dominated by generalist species, exotic species or species that are typical from open biomes, suggesting that highly altered landscapes may be dominated by these species, with consequences to forest regeneration and to human health. In chapter 4, using the results of the distribution of the small mammal species in the habitats of the mosaic, information on the quality of these habitats was applied in the evaluation of the influence of landscape structure on the occurrence of species in 20 forest fragments, aiming to compare the explanatory power of metrics that consider or not matrix quality and to investigate the importance of spatial scale. Results indicate that the influence of landscape structure is stronger for species that do not occur in the matrix, or for species that do not occur in all habitats in the mosaic. In general, the models using metrics that consider matrix quality presented higher explanatory power on the distribution of species. Among the metrics that consider matrix quality, those that incorporate distance among different habitat patches presented advantages in relation to those that consider only patch area, because they presented a higher explanatory power to the occurrence of a larger number of species and lower variation in the explanatory power in relation to changes in spatial scale. The later characteristic is important given the lack of uniformity observed in species response to variations in spatial scale, and the scarcity of information that could support the choice of adequate spatial scales for tropical species. (AU)