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1. Ecology and social biology of the southern three-banded armadillo ( Tolypeutes matacus ; Cingulata: Chlamyphoridae)

   https://doi.org/10.1093/jmammal/gyaa117  

   Attias, N; Gurarie, E; Fagan, W F; Mourão, G (October 2020, Journal of Mammalogy)

   Vieira, Marcus (Ed.)

   Abstract Basic knowledge of species biology and ecology is essential for the assessment of species conservation status and planning for efficient conservation strategies; however, this information is not always readily available. Here we use movement behavior to understand the ecology and social biology of the poorly known southern three-banded armadillo (Tolypeutes matacus). We used VHF and GPS telemetry to monitor 26 individuals from two sites in the Pantanal wetlands of Brazil. We characterized armadillo activity patterns, evaluated the relationship between sex and body mass with home range size and mean daily distance traveled, and examined home and core range overlap. Three-banded armadillos were active on average for 5.5 ± 2.8 h/day, with most of their activity concentrated in the first half of the night. Adult males were heavier and had larger home ranges than adult females. Home range size scaled positively with body mass for males, but not for females. Core ranges for females overlapped little (< 1%) regardless of age, but home ranges for males overlapped both with other males (12%) and females (18%). Our data suggest that three-banded armadillos are mainly a nocturnal species. Home range and spacing patterns point to a generally asocial behavior and a polygynous or promiscuous mating system. We hope that the data generated as a result of this project will contribute to this species’ conservation in Brazil and elsewhere by guiding future management and research efforts. 

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2. Decoding the internesting movements of marine turtles using a fine-scale behavioral state approach

   https://doi.org/10.3389/fevo.2023.1229144  

   Santos, Armando_J B; Cullen, Joshua; Vieira, Daniel_H G; Lima, Eduardo_H_S M; Quennessen, Victoria; Santos, Erik_A_P dos; Bellini, Claudio; Ramos, Renata; Fuentes, Mariana_M_P B (November 2023, Frontiers in Ecology and Evolution)

   IntroductionAn understanding of animal behavior is critical to determine their ecological role and to inform conservation efforts. However, observing hidden behaviors can be challenging, especially for animals that spend most of their time underwater. Animal-borne devices are valuable tools to estimate hidden behavioral states. MethodsWe investigated the fine-scale behavior of internesting hawksbill turtles using the mixed-membership method for movement (M4) which integrated dive variables with spatial components and estimated latent behavioral states. ResultsFive latent behavioral states were identified: 1) pre-nesting, 2) transit, 3) quiescence, and 4) area restricted search within and 5) near the residence of turtles. The last three states associated with a residency period, showed lower activity levels. Notably, when compared to other behaviors the pre-nesting exhibited shallower and remarkably long dives of up to 292 minutes. We noted high fidelity to residence core areas and nesting beaches, within and between nesting seasons, with residence areas decreasing within a season. DiscussionThe latent behaviors identified provide the most detailed breakdown of turtle movement behaviors during the internesting period to date, providing valuable insights into their ecology and behavior. This information can inform marine turtle conservation and management efforts since utilization distributions of individual behavioral states can be used to determine spatially-explicit susceptibility of turtles to various threats based on their behavior. The analyses of utilization distribution revealed a minimal overlap with existing marine protected areas (0.4%), and we show how a new proposal would expand protection to 30%. In short, this study provides valuable guidance for conservation and management of internesting marine turtles at a fine spatiotemporal resolution and can be used to enhance national action plans for endangered species, including the expansion of existing Marine Protected Areas. By flexibly incorporating biologically informative parameters, this approach can be used to study behavior outside of the hawksbill breeding season or even beyond this species. 

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3. Winter GPS tagging reveals home ranges during the breeding season for a boreal-nesting migrant songbird, the Golden-crowned Sparrow

   https://doi.org/10.1371/journal.pone.0305369  

   Iverson, Autumn R; Humple, Diana L; Cormier, Renée L; Hahn, Thomas P; Block, Theadora A; Shizuka, Daizaburo; Lyon, Bruce E; Chaine, Alexis S; Hudson, Emily J; Hull, Elisha M (June 2024, PLOS ONE)

   Root, Karen (Ed.)

   Determining space use for species is fundamental to understanding their ecology, and tracking animals can reveal insights into their spatial ecology on home ranges and territories. Recent technological advances have led to GPS-tracking devices light enough for birds as small as ~30 g, creating novel opportunities to remotely monitor fine-scale movements and space use for these smaller species. We tested whether miniaturized GPS tags can allow us to understand space use of migratory birds away from their capture sites and sought to understand both pre-breeding space use as well as territory and habitat use on the breeding grounds. We used GPS tags to characterize home ranges on the breeding grounds for a migratory songbird with limited available breeding information, the Golden-crowned Sparrow (Zonotrichia atricapilla). Using GPS points from 23 individuals across 26 tags (three birds tagged twice), we found home ranges in Alaska and British Columbia were on average 44.1 ha (95% kernel density estimate). In addition, estimates of territory sizes based on field observations (mean 2.1 ha, 95% minimum convex polygon [MCP]) were three times smaller than 95% MCPs created using GPS tags (mean 6.5 ha). Home ranges included a variety of land cover classes, with shrubland particularly dominant (64–100% of home range cover for all but one bird). Three birds tracked twice returned to the same breeding area each year, supporting high breeding site fidelity for this species. We found reverse spring migration for five birds that flew up to 154 km past breeding destinations before returning. GPS-tracking technology allowed for critical ecological insights into this migratory species that breeds in very remote locations. 

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4. Multi‐locus DNA metabarcoding reveals seasonality of foraging ecology of western spotted skunks in the Pacific Northwest

   https://doi.org/10.1002/ecs2.4386  

   Tosa, Marie I.; Lesmeister, Damon B.; Allen, Jennifer M.; Levi, Taal (January 2023, Ecosphere)

   Abstract There are increasing concerns about the declining population trends of small mammalian carnivores around the world. Their conservation and management are often challenging due to limited knowledge about their ecology and natural history. To address one of these deficiencies for western spotted skunks (Spilogale gracilis), we investigated their diet in the Oregon Cascades of the Pacific Northwest during 2017–2019. We collected 130 spotted skunk scats opportunistically and with detection dog teams and identified prey items using DNA metabarcoding and mechanical sorting. Western spotted skunk diet consisted of invertebrates, such as wasps, millipedes, and gastropods; vertebrates, such as small mammals, amphibians, and birds; and plants, such asGaultheria,Rubus, andVaccinium. Diet also consisted of items, such as black‐tailed deer, that were likely scavenged. Comparison in diet by season revealed that spotted skunks consumed more insects during the dry season (June–August), particularly wasps (75% of scats in the dry season), and marginally more mammals during the wet season (September–May). We observed a similar diet in areas with no record of human disturbance and areas with a history of logging at most spatial scales, but scats collected in areas with older forest within a skunk's home range (1‐km buffer) were more likely to contain insects. Western spotted skunks provide food web linkages between aquatic, terrestrial, and arboreal systems and serve functional roles of seed dispersal and scavenging. Due to their diverse diet and prey switching, western spotted skunks may dampen the effects of irruptions of prey, such as wasps, during dry springs and summers. By studying the natural history of western spotted skunks in the Pacific Northwest forests, while they are still abundant, we provide key information necessary to achieve the conservation goal of keeping this common species common. 

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5. Headwater-stream salamander movements and home-range size increased under drought

   https://doi.org/10.1086/735624  

   Cochrane, Madaline M; Lowe, Winsor H (June 2025, Freshwater Science)

   Climate change is increasing the frequency and intensity of droughts and floods, which will likely have disproportionate effects on freshwater organisms. Stream salamanders are often top predators in small, fishless headwater streams that are highly responsive to hydrologic changes. Although these salamanders persist in dynamic stream environments, we lack the empirical understanding of how they respond to variable drought and flooding intensity that would allow us to predict future responses to climate-related changes in hydrology. We used 3 y (2019–2021) of data from passive integrated transponder (PIT)-tag surveys to characterize how movement distance, movement direction, and home-range size of the Northern Spring Salamander Gyrinophilus porphyriticus (Green, 1827) vary across a range of hydrologic conditions. Most notably, this PIT-tag data included a period of severe drought in the late summer of 2020. We found that total distance moved and home-range size increased with drought intensity. Total distance moved was not related to peak discharge at the range of flooding experienced across this study (<5-y flood recurrence intervals). Larval movements were skewed downstream after large floods but were skewed upstream across all other conditions. The direction of adult movements did not differ across extreme flood or drought conditions. Overall, adults moved greater distances and had larger home ranges than larvae (median movement = 1.9 m vs 1.6 m; median home range = 5 m2 vs 4 m2). We also found adults using moist terrestrial microhabitats for up to 14 consecutive days, even during moderate drought. Our results suggest that headwater salamanders will move more as drought intensity increases in the future. We interpret these movements as behavior used to find habitable, moist environments as stream reaches dry. These results suggest that adequate instream and riparian refuges will become more important for stream salamander survival as climate change progresses. 

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