Weak radiofrequency fields affect the insect circadian clock
BARTOŠ, Přemysl, Radek NETUŠIL, Pavel SLABÝ, David DOLEŽEL, Thorsten RITZ a Martin VÁCHA. Weak radiofrequency fields affect the insect circadian clock. In International Workshop: Environmental effects of electric, magnetic and electromagnetic fields: Flora and Fauna. 5th-7th November. Munich. 2019. |
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Základní údaje | |
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Originální název | Weak radiofrequency fields affect the insect circadian clock |
Název česky | Weak radiofrequency fields affect the insect circadian clock |
Název anglicky | Weak radiofrequency fields affect the insect circadian clock |
Autoři | BARTOŠ, Přemysl, Radek NETUŠIL, Pavel SLABÝ, David DOLEŽEL, Thorsten RITZ a Martin VÁCHA. |
Vydání | International Workshop: Environmental effects of electric, magnetic and electromagnetic fields: Flora and Fauna. 5th-7th November. Munich. 2019. |
Další údaje | |
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Typ výsledku | Konferenční abstrakt |
Utajení | není předmětem státního či obchodního tajemství |
Klíčová slova česky | radiofrequency field, circadian clock, magnetoreception, magnetic field, insects, free-running rhythm |
Klíčová slova anglicky | radiofrequency field, circadian clock, magnetoreception, magnetic field, insects, free-running rhythm |
Příznaky | Mezinárodní význam, Recenzováno |
Změnil | Změnil: doc. RNDr. Martin Vácha, Ph.D., učo 1376. Změněno: 9. 10. 2019 08:36. |
Anotace |
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Man-made radiofrequency (RF) electromagnetic fields have been shown to have effects on animal compass orientation at remarkably weak intensities, but have until now been considered to be linked to orientation of migratory animals. Here, we tested if weak RF fields also affect the circadian rhythm of the German cockroach. We observed that static MFs slow down the cockroach clock rhythm, consistent with results on the Drosophila circadian clock. Remarkably, three hundred times weaker RF fields likewise slowed down the cockroach clock. This demonstrates that the internal clock, a ubiquitous feature of many animals can be sensitive to weak RF fields, consequently opening the possibility of an influence of man-made RF fields on many clock-dependent events in living systems. |
Anotace česky |
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Man-made radiofrequency (RF) electromagnetic fields have been shown to have effects on animal compass orientation at remarkably weak intensities, but have until now been considered to be linked to orientation of migratory animals. Here, we tested if weak RF fields also affect the circadian rhythm of the German cockroach. We observed that static MFs slow down the cockroach clock rhythm, consistent with results on the Drosophila circadian clock. Remarkably, three hundred times weaker RF fields likewise slowed down the cockroach clock. This demonstrates that the internal clock, a ubiquitous feature of many animals can be sensitive to weak RF fields, consequently opening the possibility of an influence of man-made RF fields on many clock-dependent events in living systems. |
Anotace anglicky |
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Man-made radiofrequency (RF) electromagnetic fields have been shown to have effects on animal compass orientation at remarkably weak intensities, but have until now been considered to be linked to orientation of migratory animals. Here, we tested if weak RF fields also affect the circadian rhythm of the German cockroach. We observed that static MFs slow down the cockroach clock rhythm, consistent with results on the Drosophila circadian clock. Remarkably, three hundred times weaker RF fields likewise slowed down the cockroach clock. This demonstrates that the internal clock, a ubiquitous feature of many animals can be sensitive to weak RF fields, consequently opening the possibility of an influence of man-made RF fields on many clock-dependent events in living systems. |
Návaznosti | |
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MUNI/G/1391/2018, interní kód MU | Název: At the Cross-road of Magnetic Fields and Light: A New Perspective of Cell Clock Control. |
Investor: Masarykova univerzita, At the Cross-road of Magnetic Fields and Light: A New Perspective of Cell Clock Control., INTERDISCIPLINARY - Mezioborové výzkumné projekty |
VytisknoutZobrazeno: 19. 9. 2024 10:50