水蒸汽和热量共同作用引起采采蝇的叮咬和叮咬持续。

Water vapour and heat combine to elicit biting and biting persistence in tsetse.

机构信息

Institute of Biology, Laboratory of Animal Physiology, University of Neuchâtel, Rue Emile-Argand 11, Neuchâtel, Switzerland.

出版信息

Parasit Vectors. 2013 Aug 19;6(1):240. doi: 10.1186/1756-3305-6-240.

DOI:10.1186/1756-3305-6-240

PMID:23958224

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3765185/

Abstract

BACKGROUND

Tsetse flies are obligatory blood feeders, accessing capillaries by piercing the skin of their hosts with the haustellum to suck blood. However, this behaviour presents a considerable risk as landing flies are exposed to predators as well as the host's own defense reactions such as tail flicking. Achieving a successful blood meal within the shortest time span is therefore at a premium in tsetse, so feeding until replete normally lasts less than a minute. Biting in blood sucking insects is a multi-sensory response involving a range of physical and chemical stimuli. Here we investigated the role of heat and humidity emitted from host skin on the biting responses of Glossina pallidipes, which to our knowledge has not been fully studied in tsetse before.

METHODS

The onset and duration of the biting response of G. pallidipes was recorded by filming movements of its haustellum in response to rapid increases in temperature and/or relative humidity (RH) following exposure of the fly to two airflows. The electrophysiological responses of hygroreceptor cells in wall-pore sensilla on the palps of G. pallidipes to drops in RH were recorded using tungsten electrodes and the ultra-structure of these sensory cells was studied by scanning and transmission electron microscopy.

RESULTS

Both latency and proportion of tsetse biting are closely correlated to RH when accompanied by an increase of 13.1°C above ambient temperature but not for an increase of just 0.2°C. Biting persistence, as measured by the number of bites and the time spent biting, also increases with increasing RH accompanied by a 13.1°C increase in air temperature. Neurones in wall-pore sensilla on the palps respond to shifts in RH.

CONCLUSIONS

Our results show that temperature acts synergistically with humidity to increase the rapidity and frequency of the biting response in tsetse above the levels induced by increasing temperature or humidity separately. Palp sensilla housing hygroreceptor cells, described here for the first time in tsetse, are involved in the perception of differences in RH.

摘要

背景

采采蝇是专性吸血昆虫，通过用喙刺穿宿主的皮肤来进入毛细血管吸血。然而，这种行为带来了相当大的风险，因为着陆的苍蝇会暴露在捕食者以及宿主自身的防御反应（如甩尾）之下。因此，在采采蝇中，在最短的时间内获得成功的血餐是至关重要的，因此通常在不到一分钟的时间内就会吃饱。吸血昆虫的叮咬是一种涉及多种物理和化学刺激的多感觉反应。在这里，我们研究了宿主皮肤散发的热量和湿度对采采蝇叮咬反应的作用，据我们所知，这在采采蝇中以前尚未得到充分研究。

方法

通过拍摄其喙对快速增加的温度和/或相对湿度（RH）的反应，记录采采蝇叮咬反应的开始和持续时间。使用钨电极记录了触角壁孔感器上的湿度感受器细胞对 RH 下降的电生理反应，并通过扫描和透射电子显微镜研究了这些感觉细胞的超微结构。

结果

当 RH 增加 13.1°C 且伴随环境温度升高时，潜伏期和采采蝇叮咬的比例与 RH 密切相关，但 RH 仅升高 0.2°C 时则没有。通过叮咬次数和叮咬时间衡量的叮咬持久性也随着 RH 的增加而增加，同时空气温度升高 13.1°C。触角上的壁孔感器中的神经元对 RH 的变化有反应。

结论

我们的结果表明，温度与湿度协同作用，使采采蝇的叮咬反应速度和频率高于单独增加温度或湿度所引起的水平。本文首次在采采蝇中描述的触角感器中包含了湿度感受器细胞，它们参与了对 RH 差异的感知。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c646/3765185/6eb46b3c0345/1756-3305-6-240-1.jpg

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水蒸汽和热量共同作用引起采采蝇的叮咬和叮咬持续。

Water vapour and heat combine to elicit biting and biting persistence in tsetse.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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