Pretty Cool Beetles: Can Manipulation of Visible and Near-Infrared Sunlight Prevent Overheating?

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2022-08-11 eCollection Date: 2022-01-01 DOI:10.1093/iob/obac036
Laura Ospina-Rozo, Jegadesan Subbiah, Ainsley Seago, Devi Stuart-Fox
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引用次数: 1

Abstract

Passive thermoregulation is an important strategy to prevent overheating in thermally challenging environments. Can the diversity of optical properties found in Christmas beetles (Rutelinae) be an advantage to keep cool? We measured changes in temperature of the elytra of 26 species of Christmas beetles, exclusively due to direct radiation from a solar simulator in visible (VIS: 400-700 nm) and near infrared (NIR: 700-1700 nm) wavebands. Then, we evaluated if the optical properties of elytra could predict their steady state temperature and heating rates, while controlling for size. We found that higher absorptivity increases the heating rate and final steady state of the beetle elytra in a biologically significant range (3 to 5°C). There was substantial variation in the absorptivity of Christmas beetle elytra; and this variation was achieved by different combinations of reflectivity and transmissivity in both VIS and NIR. Size was an important factor predicting the change in temperature of the elytra after 5 min (steady state) but not maximum heating rate. Lastly, we show that the presence of the elytra covering the body of the beetle can reduce heating of the body itself. We propose that beetle elytra can act as a semi-insulating layer to enable passive thermoregulation through high reflectivity of elytra, resulting in low absorptivity of solar radiation. Alternatively, if beetle elytra absorb a high proportion of solar radiation, they may reduce heat transfer from the elytra to the body through behavioral or physiological mechanisms.

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相当酷的甲虫:操纵可见光和近红外阳光能防止过热吗?
被动温度调节是一个重要的策略,以防止过热在热挑战的环境。在圣诞甲虫(Rutelinae)中发现的光学特性的多样性是否会成为保持凉爽的优势?我们测量了26种圣诞甲虫鞘翅温度的变化,完全是由于太阳模拟器在可见光(VIS: 400-700 nm)和近红外(NIR: 700-1700 nm)波段的直接辐射。然后,我们评估了在控制尺寸的情况下,鞘翅的光学特性是否可以预测它们的稳态温度和加热速率。我们发现,较高的吸收率增加了甲虫鞘翅的升温速率和最终稳定状态,在生物显著范围内(3至5°C)。圣诞甲虫鞘翅的吸收率存在较大差异;这种变化是通过VIS和NIR的反射率和透射率的不同组合来实现的。尺寸是预测5 min(稳态)后鞘翅温度变化的重要因素,而不是最大升温速率。最后,我们展示了覆盖甲虫身体的鞘翅的存在可以减少身体本身的热量。我们提出甲虫鞘翅可以作为半绝缘层,通过鞘翅的高反射率来实现被动的温度调节,从而导致对太阳辐射的低吸收率。或者,如果甲虫鞘翅吸收了大量的太阳辐射,它们可能会通过行为或生理机制减少从鞘翅到身体的热量传递。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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