Seasonal variation in the ultrasonic vocal activity of Humboldt's flying squirrel (Glaucomys oregonensis)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-23 DOI:10.1002/ece3.70344
Travis A. Farwell, Barbara Clucas
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Abstract

Most mammals rely on vocal communication to increase survival and reproductive success. While the functions of audible vocalizations have been well-studied across mammal species, ultrasonic vocalizations in small mammals outside of bats are less understood. North American flying squirrel species (Glaucomys spp.), including the newly described Humboldt's flying squirrel (Glaucomys oregonensis), produce numerous call-types that extend into the ultrasonic range. To investigate the potential function of ultrasonic call-types in the Humboldt's flying squirrels, we used ultrasonic recorders to record squirrels in the wild across multiple seasons to determine if there are temporal and seasonal patterns in nightly vocal activity and rates of different call-types. We recorded Humboldt's flying squirrels in two geographic locations - Humboldt and San Bernardino counties—in California from 2018 to 2022 in the summer and winter across multiple study areas. We found that although seasonal weather conditions differ between locations, flying squirrels in Humboldt and San Bernardino had similar vocal activity patterns across nightly active periods between locations and between summer and winter. Nightly activity patterns of when the three main chirp-like call-types (arc chirps, tonal chirps, upsweeps) were given varied between seasons in both geographic locations, and these call-types were given at greater rates in the summer in San Bernardino, but rates did not vary by season in Humboldt. Trills, the most structurally complex of the four main call-types, were produced more in the summer than in winter, and also differed in their nightly activity patterns, in both geographic locations. Flying squirrels may use certain call-types earlier or later in the nightly active period due to their potentially varying functions, and may produce more trills in the summer coinciding with the breeding season. Further understanding of the function of different call-types can provide insight into social, foraging, and antipredator behavior of this nocturnal and elusive species.

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洪堡鼯鼠(Glaucomys oregonensis)超声波发声活动的季节性变化。
大多数哺乳动物依靠发声交流来提高生存率和繁殖成功率。虽然人们已经对各种哺乳动物的发声功能进行了深入研究,但对蝙蝠以外的小型哺乳动物的超声波发声功能却不甚了解。北美鼯鼠物种(Glaucomys spp.),包括新近描述的洪堡鼯鼠(Glaucomys oregonensis),会发出许多延伸到超声波范围的叫声类型。为了研究洪堡鼯鼠的超声波叫声类型的潜在功能,我们使用超声波记录器记录了野生鼯鼠在多个季节的叫声,以确定夜间发声活动和不同叫声类型的频率是否存在时间和季节模式。从 2018 年到 2022 年,我们在加利福尼亚州的两个地理位置--洪堡县和圣贝纳迪诺县--记录了多个研究区域夏季和冬季的洪堡鼯鼠。我们发现,虽然不同地点的季节性天气条件不同,但洪堡和圣贝纳迪诺两地的鼯鼠在不同地点之间以及夏季和冬季之间的夜间活动期具有相似的发声活动模式。三个主要鸣叫类型(弧形鸣叫、音调鸣叫和上扫)的夜间活动模式在两个地点的不同季节都有所不同,在圣贝纳迪诺,这些鸣叫类型在夏季的发出率更高,但在洪堡,不同季节的发出率并无差异。颤音是四种主要叫声类型中结构最复杂的一种,在这两个地点,颤音在夏季比冬季发出的更多,其夜间活动模式也有所不同。鼯鼠可能会在夜间活动的早期或晚期使用某些叫声类型,因为它们的功能可能各不相同,而且在夏季繁殖季节可能会发出更多的颤音。进一步了解不同叫声类型的功能可以帮助人们深入了解这种夜间活动且难以捉摸的物种的社交、觅食和反捕食行为。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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