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1.
Zoolog Sci ; 38(4): 297-304, 2021 Aug.
Article in English | MEDLINE | ID: mdl-34342949

ABSTRACT

Many insects are able to use skylight e-vector patterns to deduce their heading direction. Crickets have been well known to orient themselves to certain e-vector orientations to keep their walking direction. However, it is still unknown if crickets are able to utilize polarized light information for spatial recognition. Using an experimental paradigm similar to the Morris water maze for rodents, here we examine the possibility that the cricket Gryllus bimaculatus can utilize polarized light information to find the target place. Crickets were placed in a round arena with a heated floor, a portion of which was cooled, and a cross-shaped e-vector pattern was presented from the top of the arena so that the cricket could find the cool spot by walking along the e-vector direction. When the arrangement of the e-vector pattern and the cool spot were fixed throughout the experiments, the time and the walking distance to find the cool spot were significantly decreased with increasing trials, but not when the e-vector pattern was rotated between each trial. Moreover, a model selection indicated that the visual stimulus contributed to the decrease in time and distance. To investigate the cricket's exploration patterns in the arena, a test trial in which the whole floor was uniformly heated was performed before and after the training trials. In the test trial, the crickets trained with the positionally fixed e-vector pattern showed wall-following behavior for a significantly longer time than those untrained and those trained with random e-vector patterns.


Subject(s)
Behavior, Animal/radiation effects , Gryllidae/physiology , Light , Orientation, Spatial/radiation effects , Animals , Male , Walking
2.
Curr Biol ; 30(12): R696-R697, 2020 06 22.
Article in English | MEDLINE | ID: mdl-32574628

ABSTRACT

Torres et al. demonstrate that artificial skyglow disrupts nightly migrations undertaken by the amphipod Talitrus saltator, which is normally guided by the sky position of the moon.


Subject(s)
Amphipoda/radiation effects , Animal Migration , Light/adverse effects , Lighting/adverse effects , Orientation, Spatial/radiation effects , Amphipoda/physiology , Animals , Wales
3.
Curr Biol ; 28(13): 2160-2166.e5, 2018 07 09.
Article in English | MEDLINE | ID: mdl-29937347

ABSTRACT

Like many birds [1], numerous species of nocturnal moths undertake spectacular long-distance migrations at night [2]. Each spring, billions of Bogong moths (Agrotis infusa) escape hot conditions in different regions of southeast Australia by making a highly directed migration of over 1,000 km to a limited number of cool caves in the Australian Alps, historically used for aestivating over the summer [3, 4]. How moths determine the direction of inherited migratory trajectories at night and locate their destination (i.e., navigate) is currently unknown [5-7]. Here we show that Bogong moths can sense the Earth's magnetic field and use it in conjunction with visual landmarks to steer migratory flight behavior. By tethering migrating moths in an outdoor flight simulator [8], we found that their flight direction turned predictably when dominant visual landmarks and a natural Earth-strength magnetic field were turned together, but that the moths became disoriented within a few minutes when these cues were set in conflict. We thus conclude that Bogong moths, like nocturnally migrating birds [9], can use a magnetic sense. Our results represent the first reliable demonstration of the use of the Earth's magnetic field to steer flight behavior in a nocturnal migratory insect.


Subject(s)
Flight, Animal/physiology , Magnetic Fields , Moths/physiology , Orientation, Spatial , Animal Migration/physiology , Animal Migration/radiation effects , Animals , Australia , Earth, Planet , Flight, Animal/radiation effects , Moths/radiation effects , Orientation, Spatial/physiology , Orientation, Spatial/radiation effects
4.
J Exp Biol ; 221(Pt 9)2018 05 11.
Article in English | MEDLINE | ID: mdl-29593084

ABSTRACT

Animals must use external cues to maintain a straight course over long distances. In this study, we investigated how the fruit fly Drosophila melanogaster selects and maintains a flight heading relative to the axis of linearly polarized light, a visual cue produced by the atmospheric scattering of sunlight. To track flies' headings over extended periods, we used a flight simulator that coupled the angular velocity of dorsally presented polarized light to the stroke amplitude difference of the animals' wings. In the simulator, most flies actively maintained a stable heading relative to the axis of polarized light for the duration of 15 min flights. We found that individuals selected arbitrary, unpredictable headings relative to the polarization axis, which demonstrates that D. melanogaster can perform proportional navigation using a polarized light pattern. When flies flew in two consecutive bouts separated by a 5 min gap, the two flight headings were correlated, suggesting individuals retain a memory of their chosen heading. We found that adding a polarized light pattern to a light intensity gradient enhanced flies' orientation ability, suggesting D. melanogaster use a combination of cues to navigate. For both polarized light and intensity cues, flies' capacity to maintain a stable heading gradually increased over several minutes from the onset of flight. Our findings are consistent with a model in which each individual initially orients haphazardly but then settles on a heading which is maintained via a self-reinforcing process. This may be a general dispersal strategy for animals with no target destination.


Subject(s)
Drosophila melanogaster/physiology , Flight, Animal , Light , Orientation, Spatial/physiology , Animals , Cues , Drosophila melanogaster/radiation effects , Memory , Orientation, Spatial/radiation effects
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