Pigeons are Always Looking Forward
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For the first time, scientists have tracked the eye movements of birds in flight, revealing that pigeons maintain a fixed gaze while soaring through the skies. This fascinating behavior could enhance their flight control while potentially increasing their vulnerability to predators.
Unlike terrestrial animals that utilize rapid head and eye movements, known as saccades, to stabilize their view, the mechanism behind avian vision during flight has remained elusive.
To investigate this further, Ivo Ross and researchers at the California Institute of Technology developed a lightweight mirror-and-camera rig that fits onto a typical pigeon’s head (Columba livia), along with a compact backpack housing the camera control board and battery.
Pigeon Equipped with Eye-Tracking Device
Andrew Biewener
The research team trained six pigeons indoors to fly between two perches spaced roughly 20 meters apart and an additional three pigeons for outdoor flight over a distance of 25 meters, returning to their coop.
During these test flights, head-mounted eye-tracking systems showcased that after takeoff, the pigeons enlarged their pupils and established a consistent eye position, effectively “locking” their gaze during flight.
“Upon takeoff, the eyes naturally rotate forward,” Ross comments.
Interestingly, the synchronization of head and eye movements indicates a linkage to the bird’s visual and vestibular systems, which are responsible for balance and spatial orientation.
The ability of pigeons to move their eyes independently with a maximum amplitude of about 15 degrees was documented. Graham Martin, a researcher at the University of Birmingham, UK, asserts, “Thus, the minimal eye movements—under 1 degree—during flight suggest birds actively stabilize their eye position.”
While the reason behind the pigeons’ fixed gaze remains unclear, Ross posits that it enhances balance and navigation by discerning their movements from external stimuli, such as passing trees or predators. Limiting eye movements may also reduce cognitive strain, particularly when flying, as the environment indeed shifts rapidly.
With a horizontal field of view of approximately 340 degrees, the implications of fixed eye positioning potentially create a blind spot behind, where predators might remain undetected.
The team’s tests were constrained to low-altitude flights, prompting Ross to ponder the eye behaviors of pigeons during different scenarios—such as high-altitude flights with fewer objects. He further questions their visual awareness in flocks, pondering: “Are they detecting other pigeons, predators, or distant threats?”
Martin suggests that other avian species, especially predatory birds, may also stabilize their eye positions while hunting. “When a peregrine falcon chases its prey,” he notes, “fixating its gaze would likely be essential for maintaining focus.”
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Source: www.newscientist.com
