A dynamic humidity arena to explore humidity-related behaviours in insects.

IF 2.8 2区 生物学 Q2 BIOLOGY
Journal of Experimental Biology Pub Date : 2024-11-01 Epub Date: 2024-10-25 DOI:10.1242/jeb.247195
Ganesh Giri, Nicolas Nagloo, Anders Enjin
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引用次数: 0

Abstract

Humidity is a critical environmental factor influencing the behaviour of terrestrial organisms. Despite its significance, the neural mechanisms and behavioural algorithms governing humidity sensation remain poorly understood. Here, we introduce a dynamic humidity arena that measures the displacement and walking speed of insects responding to real-time changes in relative humidity (RH). This arena operates in a closed-loop mode, adjusting humidity based on the insect's position with 0.2% RH resolution, allowing the insect to choose its optimal humidity. It can also be set to maintain a specific RH, simulating an open-loop condition to observe insect behaviour at constant humidity levels. Using the dynamic humidity arena, we found that desiccated and starved Drosophila melanogaster search for a RH of around 65-70% at 23°C, whereas sated flies show no unique preference for any RH. If the desiccated and starved flies are rehydrated, their searching behaviour is abolished, suggesting that desiccation has a great impact on the measured response. In contrast, mutant flies with impaired humidity sensing, due to a non-functional ionotropic receptor (Ir)93a, show no preference for any RH level irrespective of being desiccated and starved or sated. These results demonstrate that the dynamic humidity arena is highly sensitive and precise in capturing the nuanced behaviours associated with hydration status and RH preference in D. melanogaster. The dynamic humidity arena is easily adaptable to insects of other sizes and offers a foundation for further research on the mechanisms of hygrosensation, opening new possibilities for understanding how organisms perceive and respond to humidity in their environment.

探索昆虫与湿度相关行为的动态湿度场。
湿度是影响陆生生物行为的关键环境因素。尽管其意义重大,但人们对湿度感觉的神经机制和行为算法仍然知之甚少。在这里,我们介绍了一种动态湿度场,它可以测量昆虫对相对湿度实时变化做出反应的位移和行走速度。该湿度场以闭环模式运行,根据昆虫的位置以 0.2% 相对湿度的分辨率调节湿度,让昆虫选择最佳湿度。它还可以设置为保持特定的相对湿度,模拟开环条件,观察昆虫在恒定湿度水平下的行为。通过使用动态湿度场,我们发现干燥和饥饿的黑腹果蝇会在 23 ℃ 下寻找 65-70% 左右的相对湿度,而饱食的果蝇对任何相对湿度都没有独特的偏好。如果给干燥和饥饿的果蝇补充水分,它们的搜寻行为就会消失,这表明干燥对测量的反应有很大影响。与此相反,由于离子受体(Ir)93a 功能缺失而导致湿度感知能力受损的突变体苍蝇,无论干燥、饥饿还是饱食,对任何相对湿度水平都没有偏好。这些结果表明,动态湿度场在捕捉与黑腹蝇虫水合状态和相对湿度偏好相关的细微行为方面具有高度灵敏性和精确性。动态湿度场很容易适应其他体型的昆虫,并为进一步研究湿感机制奠定了基础,为了解生物如何感知和响应其环境中的湿度提供了新的可能性。
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
CiteScore
5.50
自引率
10.70%
发文量
494
审稿时长
1 months
期刊介绍: Journal of Experimental Biology is the leading primary research journal in comparative physiology and publishes papers on the form and function of living organisms at all levels of biological organisation, from the molecular and subcellular to the integrated whole animal.
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