Question

central ideas and details: foundations google classroom microsoft teams great gray owls, known for their large facial discs, have evolved remarkable adaptations to detect voles hidden beneath snow cover. according to a study by clark et al. at uc riverside, the owls facial disc functions as an acoustic radar, capable of picking up low - frequency sounds emitted by burrowing voles through as much as two feet of snow. however, since snow refracts sound, the owl may perceive an “acoustic mirage” from certain angles, where the voles acoustic position is offset from its actual location. to counter this distortion, the owls spend a moment hovering directly overhead—the listening position with the least refraction—before plunging straight down to strike their prey. according to the text, how does the great gray owl overcome a perceived “acoustic mirage” when hunting a vole burrowing beneath snow cover? choose 1 answer: a it uses its large facial disc as an acoustic radar to detect the voles burrowing sounds. b it attacks from a great distance to avoid the sound distortion. c it hovers directly above the source of the sounds to confirm the voles location. d it hunts voles only when the snow cover is less than a foot deep.

Explanation:

The text states owls hover directly overhead (least - refraction position) to counter sound distortion from "acoustic mirage" before striking prey.

Answer:

C. It hovers directly above the source of the sounds to confirm the vole's location.