Daily Activity and Nest Occupation Patterns of Fox Squirrels (Sciurus niger) throughout the Year

Wassmer, Thomas; Refinetti, Roberto

doi:10.1371/journal.pone.0151249

Cited by 9 publications

(11 citation statements)

References 48 publications

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“…The monitoring of collar temperature (T c ) is particularly suited to provide an index of location (in-nest vs. out-of-nest), as the temperature of the collar quickly rises to core temperature levels after the animals enter their thermally insulated nests and drops rapidly when the animals leave their nests (Lamb, 1995;Kanda et al, 2005;Lazerte and Kramer, 2011;Murray and Smith, 2012;Wassmer and Refinetti, 2016). These assumptions were confirmed by aligning T c -records with behavioral logs (Wassmer and Refinetti, 2016) including nest entries. A recent study using a very similar setup with a large population of North American red squirrels (Tamiasciurus hudsonicus) confirmed the paradigm with about 700 observations of nest exits and entries (Studd et al, 2016).…”

Section: Data Collectionmentioning

confidence: 94%

“…Research on both aspects of activity is therefore essential to understand the biology of animal species. Locomotor activity has been shown to follow a reproducible daily pattern in numerous animal species, including tree squirrels (Tester, 1978;Adams, 1984;Koprowski and Corse, 2005;Wassmer and Refinetti, 2016). More than half a century ago, Aschoff (1966) observed that many, if not most, studies of locomotor activity had evinced a bimodal pattern with increased activity at dawn and dusk rather than a consolidated bout during the day or a consolidated bout during the night.…”

Section: Introductionmentioning

confidence: 99%

“…However, most published data on tree squirrel species have reported average activity patterns for the observed group of animals or population and provided no indications about the variability of these activity patterns in individual animals (Hicks, 1949;Thompson, 1977;Wauters and Dhondt, 1987;Jodice and Humphrey, 1992;Wauters et al, 1992;Bordignon and Monteiro-Filho, 2000;Johnson et al, 2003;Koprowski and Corse, 2005;Ditgen et al, 2007). Only four studies so far have provided data on individual animals in tree squirrels (Zwahlen, 1975;Adams, 1984;Wassmer and Refinetti, 2016;Anders et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Individual Daily and Seasonal Activity Patterns in Fox Squirrels (Sciurus niger) Quantified by Temperature-Sensitive Data Loggers

Wassmer

Refinetti

2019

Front. Ecol. Evol.

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Section: Data Collectionmentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Individual Daily and Seasonal Activity Patterns in Fox Squirrels (Sciurus niger) Quantified by Temperature-Sensitive Data Loggers

Wassmer

Refinetti

2019

Front. Ecol. Evol.

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“…When attached externally to an animal, the temperature recorded is often intermediate between body temperature and the ambient temperature of the environment immediately surrounding the individual (Osgodd & Weigl, 1972;Studd, Boutin, McAdam, & Humphries, 2016;Tremblay, Cherel, Oremus, Tveraa, & Chastel, 2003). Most pertinent here, collar temperature likely offers useful information about behavioral state, as it tends to more closely approximate the body temperature of inactive animals confined in small spaces (e.g., thermal refuges) and to more closely approximate the air temperature experienced by active animals fully exposed to ambient conditions (Körtner & Geiser, 2000;Messier, Taylor, & Ramsay, 1994;Murray & Smith, 2012;Olson et al, 2017;Wassmer & Refinetti, 2016). However, depending on the ecology of the species and which of these two temperatures vary more, collar temperature can be used to monitor thermal exposure (Osgodd & Weigl, 1972;Kanda, Fuller, & Friedland, 2009) or heterothermic fluctuations indicative of torpor expression or hibernation (Lazerte & Kramer, 2016).…”

Section: Introductionmentioning

confidence: 99%

“…However, depending on the ecology of the species and which of these two temperatures vary more, collar temperature can be used to monitor thermal exposure (Osgodd & Weigl, 1972;Kanda, Fuller, & Friedland, 2009) or heterothermic fluctuations indicative of torpor expression or hibernation (Lazerte & Kramer, 2016). Most pertinent here, collar temperature likely offers useful information about behavioral state, as it tends to more closely approximate the body temperature of inactive animals confined in small spaces (e.g., thermal refuges) and to more closely approximate the air temperature experienced by active animals fully exposed to ambient conditions (Körtner & Geiser, 2000;Messier, Taylor, & Ramsay, 1994;Murray & Smith, 2012;Olson et al, 2017;Wassmer & Refinetti, 2016).…”

Section: Introductionmentioning

confidence: 99%

Behavioral classification of low‐frequency acceleration and temperature data from a free‐ranging small mammal

Studd

Landry‐Cuerrier

Menzies

et al. 2018

Ecology and Evolution

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The miniaturization and affordability of new technology is driving a biologging revolution in wildlife ecology with use of animal‐borne data logging devices. Among many new biologging technologies, accelerometers are emerging as key tools for continuously recording animal behavior. Yet a critical, but under‐acknowledged consideration in biologging is the trade‐off between sampling rate and sampling duration, created by battery‐ (or memory‐) related sampling constraints. This is especially acute among small animals, causing most researchers to sample at high rates for very limited durations. Here, we show that high accuracy in behavioral classification is achievable when pairing low‐frequency acceleration recordings with temperature. We conducted 84 hr of direct behavioral observations on 67 free‐ranging red squirrels (200–300 g) that were fitted with accelerometers (2 g) recording tri‐axial acceleration and temperature at 1 Hz. We then used a random forest algorithm and a manually created decision tree, with variable sampling window lengths, to associate observed behavior with logger recorded acceleration and temperature. Finally, we assessed the accuracy of these different classifications using an additional 60 hr of behavioral observations, not used in the initial classification. The accuracy of the manually created decision tree classification using observational data varied from 70.6% to 91.6% depending on the complexity of the tree, with increasing accuracy as complexity decreased. Short duration behavior like running had lower accuracy than long‐duration behavior like feeding. The random forest algorithm offered similarly high overall accuracy, but the manual decision tree afforded the flexibility to create a hierarchical tree, and to adjust sampling window length for behavioral states with varying durations. Low frequency biologging of acceleration and temperature allows accurate behavioral classification of small animals over multi‐month sampling durations. Nevertheless, low sampling rates impose several important limitations, especially related to assessing the classification accuracy of short duration behavior.

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Occurrence of Fox Squirrels Influenced by Fine‐Scale Landscape Characteristics on a College Campus

Whitman,

Werdel

2024

Ecology and Evolution

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Urbanization and urban sprawl generally degrade and diminish wildlife habitat, threatening to extirpate local populations. However, certain synanthropic species (e.g., coyotes, white‐tailed deer, and squirrels) are able to persist in urban environments and may even occur at greater densities than they do in their natural habitats. Eastern fox squirrels (Sciurus niger) are large tree squirrels that are known to be present in greater densities within urban areas. To determine how landscape characteristics may affect fox squirrel presence, we conducted line‐transect surveys along sidewalks on the Texas A&M University—College Station campus to record presence of fox squirrels and nearest tree species. We calculated Jacobs’ index of selectivity (D) for use of trees by fox squirrels along the transects. Squirrel density was calculated for all transects and modeled using linear regression with environmental (e.g., tree density) and survey (e.g., transect distance) variables. Fox squirrels preferred only a small number of the available tree species, primarily Quercus and Ulmus species. Observed fox squirrel density significantly increased with time of day, temperature, density of oaks (Quercus spp.), and density of all trees, and decreased with distance and area of the transect. These results suggest that even when urban areas contain suitable habitat, use of urban environments by wildlife is still highly selective and dependent on specific habitat requirements.

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Daily Activity and Nest Occupation Patterns of Fox Squirrels (Sciurus niger) throughout the Year

Cited by 9 publications

References 48 publications

Individual Daily and Seasonal Activity Patterns in Fox Squirrels (Sciurus niger) Quantified by Temperature-Sensitive Data Loggers

Individual Daily and Seasonal Activity Patterns in Fox Squirrels (Sciurus niger) Quantified by Temperature-Sensitive Data Loggers

Behavioral classification of low‐frequency acceleration and temperature data from a free‐ranging small mammal

Occurrence of Fox Squirrels Influenced by Fine‐Scale Landscape Characteristics on a College Campus

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