Migratory bats are sensitive to magnetic inclination changes during the compass calibration period

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Migratory bats are sensitive to magnetic inclination changes during the compass calibration period. / Schneider, William T; Holland, Richard A; Keišs, Oskars et al.
Yn: Biology letters, Cyfrol 19, Rhif 11, 20230181, 11.2023.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Schneider WT, Holland RA, Keišs O, Lindecke O. Migratory bats are sensitive to magnetic inclination changes during the compass calibration period. Biology letters. 2023 Tach;19(11):20230181. Epub 2023 Tach 29. doi: 10.1098/rsbl.2023.0181

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TY - JOUR

T1 - Migratory bats are sensitive to magnetic inclination changes during the compass calibration period

AU - Schneider, William T

AU - Holland, Richard A

AU - Keišs, Oskars

AU - Lindecke, Oliver

PY - 2023/11

Y1 - 2023/11

N2 - The Earth's magnetic field is used as a navigational cue by many animals. For mammals, however, there are few data to show that navigation ability relies on sensing the natural magnetic field. In night-time migrating bats, experiments demonstrating a role for the solar azimuth at sunset in the calibration of the orientation system suggest that the magnetic field is a candidate for their compass. Here, we investigated how an altered magnetic field at sunset changes the nocturnal orientation of the bat Pipistrellus pygmaeus. We exposed bats to either the natural magnetic field, a horizontally shifted field (120°), or the same shifted field combined with a reversal of the natural value of inclination (70° to -70°). We later released the bats and found that the take-off orientation differed among all treatments. Bats that were exposed to the 120° shift were unimodally oriented northwards in contrast to controls which exhibited a bimodal north-south distribution. Surprisingly, the orientation of bats exposed to both a 120° shift and reverse inclination was indistinguishable from a uniform distribution. These results suggest that these migratory bats calibrate the magnetic field at sunset, and for the first time, they show that bats are sensitive to the angle of magnetic inclination.

AB - The Earth's magnetic field is used as a navigational cue by many animals. For mammals, however, there are few data to show that navigation ability relies on sensing the natural magnetic field. In night-time migrating bats, experiments demonstrating a role for the solar azimuth at sunset in the calibration of the orientation system suggest that the magnetic field is a candidate for their compass. Here, we investigated how an altered magnetic field at sunset changes the nocturnal orientation of the bat Pipistrellus pygmaeus. We exposed bats to either the natural magnetic field, a horizontally shifted field (120°), or the same shifted field combined with a reversal of the natural value of inclination (70° to -70°). We later released the bats and found that the take-off orientation differed among all treatments. Bats that were exposed to the 120° shift were unimodally oriented northwards in contrast to controls which exhibited a bimodal north-south distribution. Surprisingly, the orientation of bats exposed to both a 120° shift and reverse inclination was indistinguishable from a uniform distribution. These results suggest that these migratory bats calibrate the magnetic field at sunset, and for the first time, they show that bats are sensitive to the angle of magnetic inclination.

KW - Animals

KW - Chiroptera

KW - Orientation

KW - Calibration

KW - Sunlight

KW - Mammals

KW - Magnetic Fields

KW - Animal Migration

U2 - 10.1098/rsbl.2023.0181

DO - 10.1098/rsbl.2023.0181

M3 - Article

C2 - 38016643

VL - 19

JO - Biology letters

JF - Biology letters

SN - 1744-9561

IS - 11

M1 - 20230181

ER -