南极半岛西部威德尔海豹的体表温度模式及其与环境变量的联系

IF 1.5 4区 环境科学与生态学 Q3 BIODIVERSITY CONSERVATION
Nicole Vargas, Maritza Sepúlveda, Alicia I. Guerrero
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引用次数: 0

摘要

在陆地和水生环境这两种特性截然不同的介质中保持体温稳定是针足类面临的挑战。水汲取热量的速度比空气快,因此,针足类动物拥有在两种环境中保持热平衡的适应能力。当离开水面时,一些噬齿类动物会出现热窗口,即体表温度高于身体其他部位的区域。这种机制被认为有助于散发体内多余的热量。我们评估了分布在最南端的海洋哺乳动物威德尔海豹(Leptonychotes weddellii)是否有能力形成热窗,并研究了热表面模式与环境因素之间的关系。我们获得了南极半岛西部 45 隻在夏季出没的威德尔海豹的红外图像。威德尔海豹身体各部位(头部、躯干、前鳍和后鳍)的表面温度一致,这表明身体各部位在保持热平衡方面发挥着同等作用。表面温度的主要驱动因素是风速,风速越大,表面温度越低。风会促进热量向环境的对流传递,降低皮毛的隔热能力。因此,风是比空气温度和相对湿度更重要的驱动因素。49%的威德尔海豹在研究中发现了隔热窗,并且在气温较高时出现得更频繁。保温窗的出现可以解决海豹在陆地上活动时过热的问题,这在南极半岛西部变暖的情况下尤为重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Patterns of surface temperature and link to environmental variables in Weddell seals from the western Antarctic Peninsula

Patterns of surface temperature and link to environmental variables in Weddell seals from the western Antarctic Peninsula

Pinnipeds face challenges in maintaining a stable body temperature in two mediums with distinct characteristics: the terrestrial and aquatic environments. Water extracts heat faster than air, so pinnipeds possess adaptations to maintain thermal balance in both environments. When exiting the water, some phocid species develop thermal windows, areas on the body surface displaying higher temperatures than the rest of the body. This mechanism is thought to help in dissipating excess heat from the body. We assessed whether Weddell seals (Leptonychotes weddellii), the southernmost distributed marine mammal, had the capacity to develop thermal windows and investigated the relationship between thermal surface patterns and environmental factors. We obtained infrared images of 45 hauled-out Weddell seals within the western Antarctic Peninsula, during the summer season. Weddell seals presented uniform surface temperatures across body regions (head, torso, front flipper, and hind flipper) suggesting that all body parts have an equal role in keeping thermal balance. The main driver of surface temperature was wind speed, with higher wind speeds resulting in lower surface temperatures. Wind facilitates convective heat transfer to the environment, decreasing the insulating capability of fur. Thus, wind was a more important driver than air temperature and relative humidity. Thermal windows were identified in 49% of the Weddell seals studied and occurred more frequently at higher air temperatures. The development of thermal windows could solve the problem of overheating when seals haul out on land, which is particularly relevant under the warming scenario within the western Antarctic Peninsula.

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来源期刊
Polar Biology
Polar Biology 生物-生态学
CiteScore
3.60
自引率
11.80%
发文量
116
审稿时长
3-8 weeks
期刊介绍: Polar Biology publishes Original Papers, Reviews, and Short Notes and is the focal point for biologists working in polar regions. It is also of interest to scientists working in biology in general, ecology and physiology, as well as in oceanography and climatology related to polar life. Polar Biology presents results of studies in plants, animals, and micro-organisms of marine, limnic and terrestrial habitats in polar and subpolar regions of both hemispheres. Taxonomy/ Biogeography Life History Spatio-temporal Patterns in Abundance and Diversity Ecological Interactions Trophic Ecology Ecophysiology/ Biochemistry of Adaptation Biogeochemical Pathways and Cycles Ecological Models Human Impact/ Climate Change/ Conservation
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