Drosophila require both green and UV wavelengths for sun orientation but lack a time-compensated sun compass.

IF 2.8 2区 生物学 Q2 BIOLOGY Journal of Experimental Biology Pub Date : 2024-10-01 Epub Date: 2024-10-14 DOI:10.1242/jeb.246817
Haneal Pae, Jingzhu Liao, Nicole Yuen, Ysabel Milton Giraldo
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Abstract

Celestial orientation and navigation are performed by many organisms in contexts as diverse as migration, nest finding and straight-line orientation. The vinegar fly, Drosophila melanogaster, performs menotaxis in response to celestial cues during tethered flight and can disperse more than 10 km under field conditions. However, we still do not understand how spectral components of celestial cues and pauses in flight impact heading direction in flies. To assess individual heading, we began by testing flies in a rotating tether arena using a single green LED as a stimulus. We found that flies robustly perform menotaxis and fly straight for at least 20 min. Flies maintain their preferred heading directions after experiencing a period of darkness or stopping flight, even up to 2 h, but reset their heading when the LED changes position, suggesting that flies do not treat this stimulus as the sun. Next, we assessed the flies' responses to a UV spot alone or a paired UV-green stimulus - two dots situated 180 deg apart to simulate the solar and antisolar hemispheres. We found that flies respond to UV much as they do to green light; however, when the stimuli are paired, flies adjust for sudden 90 deg movements, performing sun orientation. Lastly, we found no evidence of a time-compensated sun compass when we moved the paired stimuli at 15 deg h-1 for 6 h. This study demonstrates that wavelength influences how flies respond to visual cues during flight, shaping the interpretation of visual information to execute an appropriate behavioral response.

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果蝇需要绿色和紫外线波长来确定太阳方位,但缺乏时间补偿太阳罗盘。
许多生物在迁徙、寻找巢穴和直线定向等不同情况下都会进行天体定向和导航。醋蝇(Drosophila melanogaster)在系留飞行过程中会根据天体提示进行单轴飞行,并能在野外条件下分散超过 10 千米。然而,我们仍不了解天体线索的光谱成分和飞行停顿如何影响果蝇的飞行方向。为了评估苍蝇的个体航向,我们首先在一个旋转系绳场中使用单个绿色 LED 作为刺激物对苍蝇进行了测试。我们发现,苍蝇能强有力地进行单向飞行,并至少直飞 20 分钟。苍蝇在经历一段时间的黑暗或停止飞行后(甚至长达2小时)仍能保持其偏好的飞行方向,但当LED改变位置时,它们会重新设定飞行方向,这表明苍蝇不会将这一刺激视为太阳。接下来,我们评估了苍蝇对单独的紫外线点或成对的紫外线-绿色刺激的反应--两个点相距 180 度,模拟太阳半球和反太阳半球。我们发现,苍蝇对紫外线的反应与它们对绿光的反应一样;但是,当刺激成对时,苍蝇会调整突然90度的移动,从而表现出太阳的方位。最后,当我们以 15 度/小时的速度移动配对刺激物 6 小时时,我们没有发现太阳罗盘时间补偿的证据。这项研究表明,波长会影响苍蝇在飞行过程中对视觉线索的反应,影响对视觉信息的解读,从而做出适当的行为反应。
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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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