Social composition of destination territories and matrix habitat affect red-cockaded woodpecker dispersal

We studied the influence of matrix habitats and destination territory social composition on dispersal choices made by red-cockaded woodpeckers (Picoides borealis). We compared matrix habitats and social conditions for 165 dispersals documented between 1995 and 2005 with similarly distanced destinations that went unselected. We modeled data with discrete choice analysis methods, and ranked models using a model selection approach. Model-averaged parameters indicated that juvenile female, and juvenile and helper male red-cockaded woodpeckers dispersed across matrix forests with characteristics similar to those used for breeding. Models differed for sex and social classes, but results generally indicated that birds chose not to transit forests with greater densities of hardwood trees and young pines, and that dispersal was more likely to occur across forests with more large diameter pine trees. Dispersers of both sexes also chose destinations without non-breeding helpers that might present aggressive social challenges to dispersers, particularly males. Juvenile females and helper males also preferred to disperse to territories that were currently occupied by breeding woodpeckers. Previous studies documented the influence on dispersal of travel distance, natal area social interactions and resources, and resources at dispersal destinations. Our results extend factors that affect dispersal movement to include matrix habitats traversed by dispersers and the social composition of destination territories. As such, results have key implications for promoting population connectivity and conservation management of endangered red-cockaded woodpeckers, as well as other resident territorial birds. © 2011 The Wildlife Society.     

Using adult groups of red-cockaded woodpeckers for translocations and population augmentation

The red-cockaded woodpecker (Picoides borealis; hereafter RCW) was listed as federally endangered in 1973 after a population decline due primarily to habitat loss. Habitat fragmentation produces isolated populations of RCWs and managers often translocate subadult birds to augment existing populations. Although several studies have examined success of translocating subadults, detailed studies examining translocations of adults have been limited. We evaluated the feasibility and success of using adult RCWs for translocation and augmentation of existing populations in Morehouse Parish, Louisiana, 2006–2009. We translocated 41 primarily adult RCWs, consisting of 12 potential breeding groups (PBGs) and 5 single bird groups to suitable habitat at the Morehouse Parish Conservation Area (MPCA). Fifty-nine percent of translocated RCWs remained on the MPCA and 45% became breeders. Thirty-four percent of translocated RCWs were breeding after being on the MPCA for 2 breeding seasons, suggesting that translocated adult RCWs can augment the breeding population within 2 years of translocation. Fledglings contributed by translocated RCWs ranged from 11% to 30% of the total fledglings on the MPCA. There were 5 PBGs established on the MPCA from translocated RCWs and 20% of the fledglings had at least 1 translocated parent. Success rates for translocation of adults in our study were lower than previous studies where subadults were used. However, previous research suggested that demographically isolated groups have a high risk of abandonment and extirpation, and thus do not contribute to the recovery of the species. The success rates we observed suggest that translocating adult groups may be a useful tool in RCW recovery, and hence should be considered by managers when demographically isolated groups occur. © 2011 The Wildlife Society.     

Site occupancy and cavity use by the northern flying squirrel in the boreal forest

Tree cavities are used as shelter and breeding nests by numerous avian and mammalian species. In cold environments, tree cavities are often proposed as the best winter nest choice because of the superior protection they offer from precipitation, wind, cold temperatures, and predators. As such, they represent a critical resource, which has the potential to limit population size of non-excavating species. We assessed factors affecting site occupancy in the boreal forest by northern flying squirrels, a secondary user of tree cavities, and to identify which nest type is preferred during the colder days of the autumn–winter period. We trapped flying squirrels twice in 59 aspen-dominated stands in the autumn period using low- (1.5 m above ground-level) and high-mounted (4 m) traps to determine site occupancy. A total of 85 individuals were captured on 2,880 trap-nights. During the winter period, we radio-tracked 26 individuals to 87 diurnal nests in 220 locations. None of the habitat variables considered (cavity availability, woody debris, and lateral cover) explained site occupancy. Detectability decreased with precipitation, and was lower using high traps than low traps. Both females and males used tree cavities (26%), external nests (39%), and ground nests (35%). In cold weather, females preferred ground nests, whereas males preferred external nests. Our results do not support the hypothesis that tree cavities represent a limiting factor to northern flying squirrels in cold environments. Instead, this species seems to be a generalist and is opportunistic, using a variety of nest types. Nevertheless, practices ensuring the persistence of large diameter live cavity trees, providing better insulative properties, are likely to increase the relative use of tree cavities as nest sites by northern flying squirrels. © 2011 The Wildlife Society.     

Habitat Selection and Home Range Dynamics of Eastern Spotted Skunks in the Ouachita Mountains,Arkansas, USA

ABSTRACT Since the 1940s, eastern spotted skunks (Spilogale putorius) have declined dramatically throughout the Midwest. One hypothesis for the decline is the loss of suitable habitat, although little is known about the ecological requirements of this species. To elucidate seasonal home range and habitat selection by eastern spotted skunks, we conducted telemetry-based field work in the Ouachita Mountains of western Arkansas, USA. During 2 years of field work, we collected day- and nighttime radiolocations for 33 eastern spotted skunks. We used kernel-based utilization distributions, volume of intersection indices, and weighted compositional analysis to evaluate seasonal home range dynamics and habitat selection. Although we found moderate adult male site fidelity, there were large seasonal differences in home range size, with ranges of between 76 ha and 175 ha (± 22–62 SE) during summer, fall, and winter, and home ranges of 866 ha (± 235 SE) during spring. Male home range increases in the spring were likely caused by questing behavior in search of reproductive females. Females maintained home ranges of 54 ha to 135 ha (± 7–30 SE) and moderate site fidelity during all seasons. During each season, we observed selection of young shortleaf pine (Pinus echinata) and hardwood stands over other available cover types, likely due to a preference for a dense, complex understory and a closed canopy overstory to reduce predation risk. Most habitats in the study region were managed for an herbaceous understory and an older, more open canopy, in part to benefit red-cockaded woodpecker (Picoides borealis) populations. Thus, if simultaneous management for these 2 vertebrates is a goal, a balance of early and late successional habitat should be reached.