Add to ORKGHoneybees are known for their ability to use the sun’s azimuth and the sky’s polarization pattern for spatial orientation. Sky compass orientation in bees has been extensively stud-ied at the behavioral level but our knowledge about the underlying neuronal systems and mechanisms is very limited. Electrophysiological studies in other insect species suggest that neurons of the sky compass system integrate information about the polarization pattern of the sky, its chromatic gradient, and the azimuth of the sun. In order to obtain a stable directional signal throughout the day, circadian changes between the sky polarization pat-tern and the solar azimuth must be compensated. Likewise, the systemmust be modulated in a context specific way to com...
Visually guided behaviors require the brain to extract features of the visual world and to integrate...
Many insects use patterns of polarized light in the sky to orient and navigate. Here, we functionall...
Changes in flight direction in flying insects are largely due to roll, yaw and pitch rotations of th...
<div><p>Honeybees are known for their ability to use the sun’s azimuth and the sky’s polarization pa...
Mass migration of desert locusts is a common phenomenon in North Africa and the Middle East but how ...
The central complex of the insect brain comprises a group of neuropils involved in spatial orientati...
1. Polarization-sensitive neurons of the locust central complex show azimuthdependent responses to u...
SummaryMany animals use the sun as a reference for spatial orientation [1–3]. In addition to sun pos...
Although it is widely accepted that honeybees use the polarized-light pattern of the sky as a compas...
Animals relying on a celestial compass for spatial orientation may use the position of the sun, the ...
Many insects use the polarization pattern of the sky for obtaining compass information during orient...
While the ability of honeybees to navigate relying on sky-compass information has been investigated ...
Despite their small brains, insects can navigate over long distances by orienting using visual landm...
The honeybee (Apis mellifera) waggle dance, which is performed inside the hive by forager bees, info...
The pattern of linearly polarized light in the sky can be used for orientation behavior by many inse...
Visually guided behaviors require the brain to extract features of the visual world and to integrate...
Many insects use patterns of polarized light in the sky to orient and navigate. Here, we functionall...
Changes in flight direction in flying insects are largely due to roll, yaw and pitch rotations of th...
<div><p>Honeybees are known for their ability to use the sun’s azimuth and the sky’s polarization pa...
Mass migration of desert locusts is a common phenomenon in North Africa and the Middle East but how ...
The central complex of the insect brain comprises a group of neuropils involved in spatial orientati...
1. Polarization-sensitive neurons of the locust central complex show azimuthdependent responses to u...
SummaryMany animals use the sun as a reference for spatial orientation [1–3]. In addition to sun pos...
Although it is widely accepted that honeybees use the polarized-light pattern of the sky as a compas...
Animals relying on a celestial compass for spatial orientation may use the position of the sun, the ...
Many insects use the polarization pattern of the sky for obtaining compass information during orient...
While the ability of honeybees to navigate relying on sky-compass information has been investigated ...
Despite their small brains, insects can navigate over long distances by orienting using visual landm...
The honeybee (Apis mellifera) waggle dance, which is performed inside the hive by forager bees, info...
The pattern of linearly polarized light in the sky can be used for orientation behavior by many inse...
Visually guided behaviors require the brain to extract features of the visual world and to integrate...
Many insects use patterns of polarized light in the sky to orient and navigate. Here, we functionall...
Changes in flight direction in flying insects are largely due to roll, yaw and pitch rotations of th...