Comments
[deleted] t1_ixnayet wrote
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Staxitall t1_ixnndl6 wrote
Owls are definitely amazing birds. They are extremely quiet when flying, by far the most effective hunter in the air.
cbbuntz t1_ixo9pf0 wrote
I'm sure you seen videos that demonstrate how certain species are dead quiet when they fly? I'm glad I'm not a vole.
Carlos-In-Charge t1_ixoi34n wrote
The feathers around the face (the most owlish feature) are like satellite dishes that funnel sound to their ears
Fixing_The_World t1_ixoseip wrote
Non-fruit bats have wrinkly little goblin looking faces because it improves their echolocation as well
SuspiciousStable9649 t1_ixoz2fv wrote
I just saw a live presentation on this yesterday. Kudos to my local Birds of Prey center for keeping up with current studies.
digitalphildude t1_ixpm10t wrote
I am in awe. What intrigued me was that the lower frequencies are difficult to pinpoint spatially. For humans at least.
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[deleted] t1_ixoek8s wrote
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geoff199 OP t1_ixmf6ja wrote
From the Proceedings of the Royal Society B: https://royalsocietypublishing.org/doi/10.1098/rspb.2022.1164
Abstract:
How do Great Gray Owls (Strix nebulosa) capture voles (Cricetidae) through a layer of snow? As snow is a visual barrier, the owls locate voles by ear alone. To test how snow absorbs and refracts vole sound, we inserted a loudspeaker under the snowpack and analysed sound from the loudspeaker, first buried, then unburied. Snow attenuation coefficients rose with frequency (0.3 dB cm−1 at 500 Hz, 0.6 dB cm−1 at 3 kHz) such that low-frequency sound transmitted best. The Great Gray Owl has the largest facial disc of any owl, suggesting they are adapted to use this low-frequency sound. We used an acoustic camera to spatially localize sound source location, and show that snow also refracts prey sounds (refractive index: 1.16). To an owl not directly above the prey, this refraction creates an ‘acoustic mirage’: prey acoustic position is offset from its actual location. Their hunting strategy defeats this mirage because they hover directly over prey, which is the listening position with least refraction and least attenuation. Among all birds, the Great Gray Owl has the most extreme wing morphologies associated with quiet flight. These extreme wing traits may function to reduce the sounds of hovering, with implications for bioinspiration.