Partial submergence: An undescribed behavioral adjustment for thermoregulation at high ambient temperature in Aeshnidae

IF 1 4区 农林科学 Q3 ENTOMOLOGY International Journal of Odonatology Pub Date : 2021-01-01 DOI:10.23797/2159-6719_24_5
P. Deviche
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Abstract

Many insects including odonates thermoregulate using a combination of behavioral and physiological mechanisms. At high ambient temperature (Ta), these mechanisms include decreased heat production and increased heat loss. Heat production can be reduced by decreasing activity. Heat loss can be enhanced by perching in a shaded microhabitat where temperature is cooler than in the surrounding environment. Aeshnids, which are intermittent endotherms, increase heat loss at high Ta; also by increasing hemolymph circulation from the thorax, where most metabolic heat is produced, to the abdomen, where it dissipates to the environment by convection. While studying two aeshnid species (Anax junius and Rhionaeschna multicolor) at a Sonoran Desert (Arizona, USA) stream, I observed partially submerged mature individuals of both sexes of these species. This heretofore undescribed behavior was seen only at Ta; ≥ 43 °C and almost exclusively during the hottest part of the day (15:00–17:00 hr), when the daily difference between Ta; and water temperature (Tw) was, on average, largest. A cooling effect of partial submergence behavior on body temperature would, therefore, presumably be most effective also during this period. Several percher species of libellulids were present at the study site. These dragonflies are not known to use endothermy for thermoregulation or to increase hemolymph circulation to the abdomen to dissipate heat at high Ta;, and none was ever observed to partially submerge. It is suggested in aeshnids that partial submergence at high Ta; serves a thermoregulatory function by facilitating body heat dissipation from the abdomen.
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部分浸没:在高环境温度下,Aeshnidae的一种未描述的体温调节行为
包括啮齿动物在内的许多昆虫通过行为和生理机制的结合来调节体温。在高环境温度(Ta)下,这些机制包括产热减少和热损失增加。通过降低活度可以减少产热。栖息在阴凉的微生境中,温度比周围环境低,可以增加热量损失。断续恒温动物,在高Ta时增加热损失;另外,通过增加从产生大部分代谢热的胸部到腹部的血淋巴循环,在那里它通过对流消散到环境中。在索诺兰沙漠(美国亚利桑那州)的一条溪流中,我研究了两种aeshnid物种(Anax junius和Rhionaeschna multicolcolor),我观察到这些物种的两性成熟个体部分被淹没。这种迄今为止未被描述的行为只在塔;≥43℃,且几乎只发生在一天中最热的时段(15:00-17:00小时),此时Ta;平均水温(Tw)最大。因此,部分浸没行为对体温的冷却作用可能在这一时期也是最有效的。在研究地点发现了几种栖种。我们不知道这些蜻蜓会通过吸热来调节体温,也不知道它们会增加腹部的血淋巴循环以在高体温下散热,也没有观察到它们会部分潜入水中。在aeshnids中表明,在高Ta处部分淹没;通过促进身体从腹部散热,起到体温调节的作用。
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来源期刊
CiteScore
2.30
自引率
0.00%
发文量
15
审稿时长
>12 weeks
期刊介绍: International Journal of Odonatology (IJO) is aimed at providing a publication outlet for the growing number of students of Odonata. It will address subjects such as the ecology, ethology, physiology, genetics, taxonomy, phylogeny and geographic distribution of species. Reviews will be by invitation, but authors who plan to write a review on a subject of interest to the journal are encouraged to contact the editor.
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