Murtadha Aldeer
ABSTRACT
The past 40 years have seen an explosion of Radio Frequency (RF) transmitters, which motivates understanding their impacts on the natural world. The European honeybee, Apis Mellifera, has been shown to sense the Earth's magnetic field. Human Radio Frequency (RF) transmitters alter this field. For example, recent work demonstrated that human-created RF interferes with the common robin's ability to orient themselves. This work proposes an experimental design to determine if honeybees can sense RF transmissions in frequencies from 1 MHz (AM radio) to 6 GHz (WiFi). We deployed a custom-designed RF bee feeder near bee hives to test honeybees' RF sensing ability.
- Svenja Engels, Nils-Lasse Schneider, Nele Lefeldt, Christine Maira Hein, Manuela Zapka, Andreas Michalik, Dana Elbers, Achim Kittel, P. J. Hore, and Henrik Mouritsen. 2014. Anthropogenic electromagnetic noise disrupts magnetic compass orientation in a migratory bird. Nature 50 (May 2014), 353--356.Google Scholar
- Karl von Frisch. 1914--1915. Der Farben -und Formensinn der Bienen. Zoologische Jahrbücher (Physiologie) 35 (1914--1915), 1--188.Google Scholar
- Karl von Frisch. 1973. Decoding the language of the bee. Nobel Lecture.Google Scholar
- Michael M. Walker and M. E. Bitterman. 1989. Short Communication: Honeybees Can Be Trained To Respond To Very Small Changes In Geomagnetic Field Intensity. Journal of Experimental Biology (1989), 489--494. Issue 145.Google Scholar
- R. Wiltschko and W. Wiltschko. 1995. Magnetic Orientation in Animals. Springer, New York.Google Scholar
Index Terms
Investigating the biological impacts of radio transmissions: poster abstract
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