Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliability of visual signal detection also prompts consequences for insect flight. We have an emerging understanding of the neural mechanisms that different species employ to adapt the visual system to low light. However, much less explored are comparative analyses of how low light affects the flight behaviour of insect species, and the corresponding links between physiological adaptations and behaviour. We investigated whether the flower tracking behaviour of three hawkmoth species with different diel activity patterns revealed luminance-dependent adaptations, using a system identification approach. We found clear luminance-dependent differences in...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
To sample information optimally, sensory systems must adapt to the ecological demands of each animal...
Recent research shows that a nocturnal hawkmoth, Manduca sexta, inspects flowers in search for necta...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Animals must operate under an enormous range of light intensities. Nocturnal and twilight flying ins...
Animals must operate under an enormous range of light intensities. Nocturnal and twilight flying ins...
Animals must operate under an enormous range of light intensities. Nocturnal and twilight flying ins...
Nocturnal hawkmoths are known for impressive visually guided behaviours in dim light, such as hoveri...
Nocturnal hawkmoths are known for impressive visually guided behaviours in dim light, such as hoveri...
To sample information optimally, sensory systems must adapt to the ecological demands of each animal...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
To sample information optimally, sensory systems must adapt to the ecological demands of each animal...
Recent research shows that a nocturnal hawkmoth, Manduca sexta, inspects flowers in search for necta...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Flight control in insects is heavily dependent on vision. Thus, in dim light, the decreased reliabil...
Animals must operate under an enormous range of light intensities. Nocturnal and twilight flying ins...
Animals must operate under an enormous range of light intensities. Nocturnal and twilight flying ins...
Animals must operate under an enormous range of light intensities. Nocturnal and twilight flying ins...
Nocturnal hawkmoths are known for impressive visually guided behaviours in dim light, such as hoveri...
Nocturnal hawkmoths are known for impressive visually guided behaviours in dim light, such as hoveri...
To sample information optimally, sensory systems must adapt to the ecological demands of each animal...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
To sample information optimally, sensory systems must adapt to the ecological demands of each animal...
Recent research shows that a nocturnal hawkmoth, Manduca sexta, inspects flowers in search for necta...