
AsianScientist (Jun. 3, 2015) – A study published in PLOS ONE shows that bats are extremely sensitive to changes in the Earth’s magnetic field and are capable of detecting intensities as low as 10 μT or 1/5th of the natural intensity.
The geomagnetic field can protect Earth’s organisms from the solar wind and other harmful cosmic rays, which is crucial to the survival of life. In addition, the geomagnetic field intensity, declination and inclination can also provide navigational reference information for migratory animals during their migration and foraging.
Paleomagnetic studies have shown that the dipolar field intensity may drop to 10-20 percent during geomagnetic polarity reversals or geomagnetic excursions. Such dramatic changes of the strength and direction of the geomagnetic field may pose a significant challenge for the evolution of any magnetic orientation in organisms.
Previous behavioral data strongly suggest that bats use a magnetic compass for orientation (during migration as well as while roosting). Since bats originated in Laurasia in the early Eocene (52–50 million years ago), bats have experienced tens to hundreds of geomagnetic polarity reversals and geomagnetic excursions.
Since the last Brunhes-Matuyama reversal at 780,000 years ago, there were more than ten geomagnetic excursions. Hence, the question emerges if bats (and other mammals) could have responded to the changes of the geomagnetic field in the past (and if they will be able to do so in the future).
Dr. Tian Lanxiang and Professor Pan Yongxin at the Institute of Geology and Geophysics, in cooperation with other co-authors, experimentally tested whether the Chinese Noctule, Nyctalus plancyi (Vespertilionidae) can sense magnetic field strengths that were even lower than those of the present-day geomagnetic field.
Such field strengths are analogous to those that occurred during geomagnetic excursions or polarity reversals and thus may have played an important role in the evolution of a magnetic sense. They found that in a present-day local geomagnetic field, the bats showed a clear preference for positioning themselves towards magnetic north.

As the field intensity decreased to only 1/5th of the natural intensity (i.e., 10 μT; the lowest field strength tested here), the bats still responded by positioning themselves towards magnetic north. When the field polarity was artificially reversed, the bats still preferred the new magnetic north, even at the lowest field strength tested (10 μT), despite the fact that the artificial field orientation was opposite to the natural geomagnetic field (P<0.05). Hence, N. plancyi is able to detect the direction of a magnetic field even at 1/5th of the present-day field strength. This high sensitivity to magnetic fields may explain how magnetic orientation could have evolved in bats even as Earth’s magnetic field strength varied and the polarity reversed tens of times over the past 50 million years.
The article can be found at: Tian et al. (2015) Bats Respond To Very Weak Magnetic Fields.
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Source: Chinese Academy of Sciences; Photo: U.S. Fish and Wildlife Service Headquarters/Flickr/CC.
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