TY - JOUR T1 - Amplitude discrimination is predictably affected by echo frequency filtering in wideband echolocating bats JF - bioRxiv DO - 10.1101/2021.10.04.463049 SP - 2021.10.04.463049 AU - Amaro Tuninetti AU - Andrea Megela Simmons AU - James A. Simmons Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/10/05/2021.10.04.463049.abstract N2 - Big brown bats emit wideband frequency modulated (FM) ultrasonic pulses for echolocation. They perceive target range from echo delay and target size from echo amplitude. Their sounds contain two prominent down-sweeping harmonic sweeps (FM1, ∼55-22 kHz; FM2, ∼100-55 kHz), which are affected differently by propagation out to the target and back to the bat. FM2 is attenuated more than FM1 during propagation. Bats anchor target ranging asymmetrically on the low frequencies in FM1, while FM2 only contributes if FM1 is present as well. These experiments tested whether the bat’s ability to discriminate target size from the amplitude of echoes is affected by selectively attenuating upper or lower frequencies. Bats were trained to perform an echo amplitude discrimination task with virtual echo targets 83 cm away. While echo delay was held constant and echo amplitude was varied to estimate threshold, either lower FM1 frequencies or higher FM2 frequencies were attenuated. The results parallel effects seen in echo delay experiments; bats’ performance was significantly poorer when the lower frequencies in echoes were attenuated, compared to higher frequencies. The bat’s ability to distinguish between virtual targets at the same simulated range from echoes arriving at the same delay indicates a high level of focused attention for perceptual isolation of one and suppression of the other.Competing Interest StatementThe authors have declared no competing interest. ER -