Seasonal nest use of sympatric North American flying squirrels

IF 1.6 3区生物学 Q3 ECOLOGY

Wildlife Research Pub Date : 2024-02-13 DOI:10.1071/wr23041

Rosemary Minns, Rebekah Persad, Laurelie Menelon, Sasha L. Newar, Paul P. O’Brien, Samantha M. Stead, Jeff Bowman

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引用次数: 0

Abstract

Context

Nest or roost sites are important for social thermoregulators – not only because the locations provide shelter from harsh climates, but also because they provide sites for social aggregations. Nest use can therefore be informative about selection pressures facing social thermoregulators.

Aims

The aim of this study was to assess seasonal changes in nest use of sympatric northern (Glaucomys sabrinus) and southern (Glaucomys volans) flying squirrels. Local sympatry at our study site allowed us to evaluate nest use by individuals of both species subject to similar nest availability. We hypothesised that southern flying squirrels should be more selective than northern flying squirrels, especially in winter due to lower cold tolerance by the southern species.

Methods

We used radio telemetry to track 57 squirrels during 2019–2022 at a site in central Ontario, Canada. Each squirrel was tracked during the day to their nest site, and tree characteristics – including diameter at breast height, tree species, nest type and decay class – were recorded.

Key results

Northern flying squirrels used both coniferous and deciduous trees, as well as a mix of cavities, dreys and subterranean nests. Southern flying squirrels nested most often in deciduous tree cavities and used dreys less frequently than northern flying squirrels. The only significant effects in regression models, however, were effects of tree diameter. Both species used large-diameter trees in the winter and summer, and these effects were larger in the winter months. In both seasons, southern flying squirrels used larger trees than northern flying squirrels.

Conclusions

Our study results were consistent with the hypothesis that nest selection is associated with temperature and squirrel aggregation size. Both northern and southern flying squirrels used large trees during summer and winter months, as would be an expected requirement for aggregation; however, this effect was amplified in southern flying squirrels and in the winter.

Implications

Cold ambient temperature is an underlying factor in winter months, creating the need for social thermoregulation and increased squirrel aggregation sizes, especially in the small-bodied southern flying squirrel. This in turn leads to a need for large-diameter cavity trees for nest groups to occupy during winter.

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同域北美鼯鼠的季节性巢穴利用

背景巢穴或栖息地对社会性恒温动物非常重要--不仅因为这些地点提供了躲避恶劣气候的庇护所，还因为它们提供了社会性聚集的场所。因此，巢的使用可以提供有关社会恒温动物所面临的选择压力的信息。研究目的：本研究旨在评估北方鼯鼠（Glaucomys sabrinus）和南方鼯鼠（Glaucomys volans）对巢的使用的季节性变化。在我们的研究地点，当地的同域分布使我们能够评估两种鼯鼠个体在类似巢穴可用性条件下的巢穴使用情况。我们假设南方鼯鼠应该比北方鼯鼠更具选择性，尤其是在冬季，因为南方鼯鼠的耐寒能力较低。方法2019-2022年期间，我们在加拿大安大略省中部的一个地点使用无线电遥测技术追踪了57只松鼠。白天跟踪每只松鼠到它们的巢穴所在地，并记录树木特征，包括胸径、树种、巢穴类型和腐烂等级。主要结果北方鼯鼠既使用针叶树，也使用落叶树，还混合使用树洞、树穴和地下巢穴。与北方鼯鼠相比，南方鼯鼠最常在落叶树洞中筑巢，而较少使用树洞。然而，回归模型中唯一有意义的影响是树木直径的影响。两种鼯鼠在冬季和夏季都使用大直径树木，而冬季的影响更大。在这两个季节，南方鼯鼠都比北方鼯鼠使用较大的树木。结论我们的研究结果与巢的选择与温度和鼯鼠聚集大小有关的假设一致。北方和南方鼯鼠在夏季和冬季都使用大树，这也是聚集的预期要求；但是，这种效应在南方鼯鼠和冬季被放大。意义环境温度寒冷是冬季的一个潜在因素，它产生了社会性体温调节的需要，并增加了松鼠的聚集规模，尤其是对身体较小的南方鼯鼠而言。这反过来又导致需要大直径的树洞供巢穴群在冬季占据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Wildlife Research 生物-动物学

CiteScore

4.30

自引率

15.80%

发文量

审稿时长

3 months

期刊介绍： Wildlife Research represents an international forum for the publication of research and debate on the ecology, management and conservation of wild animals in natural and modified habitats. The journal combines basic research in wildlife ecology with advances in science-based management practice. Subject areas include: applied ecology; conservation biology; ecosystem management; management of over-abundant, pest and invasive species; global change and wildlife management; diseases and their impacts on wildlife populations; human dimensions of management and conservation; assessing management outcomes; and the implications of wildlife research for policy development. Readers can expect a range of papers covering well-structured field studies, manipulative experiments, and analytical and modelling studies. All articles aim to improve the practice of wildlife management and contribute conceptual advances to our knowledge and understanding of wildlife ecology. Wildlife Research is a vital resource for wildlife scientists, students and managers, applied ecologists, conservation biologists, environmental consultants and NGOs and government policy advisors. Wildlife Research is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.