Adriano Garcia Chiarello

Ocelot Population Status in Protected Brazilian Atlantic Forest

Forest fragmentation and habitat loss are detrimental to top carnivores, such as jaguars (Panthera onca) and pumas (Puma concolor), but effects on mesocarnivores, such as ocelots (Leopardus pardalis), are less clear. Ocelots need native forests, but also might benefit from the local extirpation of larger cats such as pumas and jaguars through mesopredator release. We used a standardized camera trap protocol to assess ocelot populations in six protected areas of the Atlantic forest in southeastern Brazil where over 80% of forest remnants are < 50 ha. We tested whether variation in ocelot abundance could be explained by reserve size, forest cover, number of free-ranging domestic dogs and presence of top predators. Ocelot abundance was positively correlated with reserve size and the presence of top predators (jaguar and pumas) and negatively correlated with the number of dogs. We also found higher detection probabilities in less forested areas as compared to larger, intact forests. We suspect that smaller home ranges and higher movement rates in smaller, more degraded areas increased detection. Our data do not support the hypothesis of mesopredator release. Rather, our findings indicate that ocelots respond negatively to habitat loss, and thrive in large protected areas inhabited by top predators.

Ecological interactions between ocelots and sympatric mesocarnivores in protected areas of the Atlantic Forest, southeastern Brazil

Fragmentation and habitat loss are top threats to tropical forest biodiversity and the Atlantic Forest is no exception. Over 80% of Atlantic Forest remnants in Brazil are < 50 ha and lack resident populations of large predators (jaguars, Panthera onca, and pumas, Puma concolor). Mesopredators with opportunistic life-history characteristics (e.g., ocelots, Leopardus pardalis) are now hypothesized to be the dominant competitor(s) in these systems and may negatively affect the spatial or temporal distribution of other sympatric mesocarnivores. We used camera-trap data, occupancy models, and temporal overlap indexes to explore whether ocelot occurrence influenced the habitat use or activity patterns of 6 mesocarnivores in reserves of the Brazilian Atlantic Forest. Ocelot occurrence did not influence the habitat use of these mesocarnivores. Moreover, the ability of some mesocarnivore species, especially the little spotted cat (L. guttulus), to adjust their activity patterns to avoid direct contact with ocelots may facilitate their coexistence in these Atlantic Forest remnants. Ocelot occurrence did not influence the activity pattern of 2 nocturnal species (the crab-eating fox, Cerdocyon thous, and the crab-eating raccoon, Procyon cancrivorus), suggesting that these species are more tolerant of ocelots than other mesocarnivores. The probability of occupancy varied among species, with tayra (Eira barbara) and South American coati (Nasua nasua) having the highest occupancy estimates; overall, occupancy by mesocarnivores correlated negatively with reserve size. Because mesocarnivores are important drivers of ecosystem function, structure, and dynamics and may occupy unique roles that cannot be filled by larger carnivores, future studies should assess environmental factors influencing the use of these small remnants of Atlantic Forest by each mesocarnivore species.

ATLANTIC‐CAMTRAPS: a dataset of medium and large terrestrial mammal communities in the Atlantic Forest of South America

Our understanding of mammal ecology has always been hindered by the difficulties of observing species in closed tropical forests. Camera trapping has become a major advance for monitoring terrestrial mammals in biodiversity rich ecosystems. Here we compiled one of the largest datasets of inventories of terrestrial mammal communities for the Neotropical region based on camera trapping studies. The dataset comprises 170 surveys of medium to large terrestrial mammals using camera traps conducted in 144 areas by 74 studies, covering six vegetation types of tropical and subtropical Atlantic Forest of South America (Brazil and Argentina), and present data on species composition and richness. The complete dataset comprises 53,438 independent records of 83 species of mammals, includes 10 species of marsupials, 15 rodents, 20 carnivores, eight ungulates and six armadillos. Species richness averaged 13 species (±6.07 SD) per site. Only six species occurred in more than 50% of the sites: the domestic dog Canis familiaris, crab-eating fox Cerdocyon thous, tayra Eira barbara, south American coati Nasua nasua, crab-eating raccoon Procyon cancrivorus and the nine-banded armadillo Dasypus novemcinctus. The information contained in this dataset can be used to understand macroecological patterns of biodiversity, community, and population structure, but also to evaluate the ecological consequences of fragmentation, defaunation, and trophic interactions.

Anthropogenic Disturbances Drive Domestic Dog Use of Atlantic Forest Protected Areas

Domestic dog is the most successful invasive mammalian predator species, and reducing its ecological impacts on wildlife is a central conservation goal globally. Free-ranging dogs can negatively interact with wildlife at multiple levels, posing issues for biodiversity conservation in tropical forests, especially in fragmented Atlantic Forest. To optimize future control programs, it is necessary to identify the main factors influencing their habitat use, particularly in natural reserves. We combined camera trapping data and occupancy models to characterize habitat use of dogs in six Atlantic Forest protected areas (134–36,000u2009ha). Our results show that dogs were more likely to use sites ( Ψ ^ u2009≥u20090.90) having higher housing density (≥4.00 houses/km2) or higher proportion of croplands and pasture (≥75%) relative to sites with no houses ( Ψ ^ u2009=u20090.23u2009±u20090.10) or lower proportion of croplands and pasture ( Ψ ^ u2009=u20090.34u2009±u20090.08). In addition, dogs had higher detection probability at camera locations on unpaved roads ( p ^ u2009=u20090.33u2009±u20090.05) relative to off-road sites ( p ^ u2009=u20090.18u2009±u20090.04), and in small protected areas with high housing density, that is, more disturbed sites, dogs had higher detection probabilities. Our findings indicate that the probability of dogs using a site within protected area is mainly driven by type and intensity of human activity in the surroundings. Given the urgent need to control free-ranging dogs within protected areas, we strongly recommend that managers target sites/areas within and near protected areas that have a rural housing densityu2009≥u20094.00 houses/km2 or higher proportion of croplands and pasture (≥75%).

Importance of riparian forest corridors for the ocelot in agricultural landscapes

Worldwide, private lands have attracted increased attention from conservationists, not only because most of the globe is privately owned, but also because private lands can be an asset to the protected area conservation strategy. In Brazil, the riverine Areas of Permanent Protection (APPs) are a key instrument of the Forest Code to protect biodiversity on private lands, acting as wildlife corridors. We assessed this putative role of APPs by evaluating how ocelot (Leopardus pardalis) occurrence is influenced by covariates in 3 cerrado landscapes dominated by sugarcane and managed forests of eucalyptus and pine trees. We collected detection–nondetection data by camera trapping during 2 dry seasons (2013 and 2014) at 208 stations (6,606 camera-days). We estimated ocelot detection and mean relative abundance using a single-species, single-season occupancy model that accounts for heterogeneous detection probability induced by variation in abundance. Modeling results showed that percentage of native forest was the most important covariate to explain mean relative abundance of ocelots. This parameter was also affected positively by APPs, with ocelots being more abundant inside than outside APPs and, unexpectedly, by sugarcane. Given our study design, however, the positive effect of this crop likely reflects the contact zone between sugarcane and native forest. Our findings show that landscape composition affects ocelot abundance and highlight the importance of APPs and Legal Reserves in agricultural landscapes. We conclude that, in such landscapes, compliance to the Forest Code by private land owners is key to supporting ocelot occurrence.

Worrisome isolation: noninvasive genetic analyses shed light on the critical status of a remnant jaguar population

Many carnivore species, particularly felids, are sensitive to land use changes and may disappear from landscapes with reduced natural habitat and increased fragmentation. The jaguar (Panthera onca) is highly affected by these factors and is particularly endangered in the Atlantic Forest (AF) of South America, one of the most threatened biomes in the world. We used noninvasive fecal sampling and microsatellite markers to investigate the genetic diversity of jaguars in one of the last remnant populations of this species in the entire coastal AF. This section of the biome is highly fragmented. We observed low levels of genetic diversity (HO = 0.621, HE = 0.532, AR = 3.195), and estimated a small effective size for the population (Ne = 7.9 individuals). We performed comparative analyses incorporating data from previously surveyed populations located farther inland (interior AF), revealing that the coastal population studied shows significant genetic differentiation. Our results support a scenario of anthropogenic, drift-induced differentiation among jaguar populations in small AF fragments, affecting both the interior and coastal components of this biome. Despite its low diversity, we detected putatively unique alleles present in the coastal population, supporting its importance in the context of maintaining the remaining genetic variability of jaguars in the AF. Our results highlight the urgent need to implement coordinated conservation actions for jaguars in this highly impacted biome, including management interventions that foster the restoration of genetic connectivity among isolated remnant populations.