Page 57 - Wirkung-von-nichtionisierender-Strahlung-NIS-auf-Arthropoden
P. 57

[164]
[165] [166]
[167] [168]
[169] [170]
[171]
[172] [173]
[174]
[175] [176]
[177] [178]
[179] [180]
[181] 54
S. Shepherd et al., « Increased aggression and reduced aversive learning in honey bees exposed to extremely low frequency electromagnetic fields », PLoS One, vol. 14, no 10, p. e0223614, 2019.
M. Kisliuk et J. Ishay, « Influence of an additional magnetic field on hornet nest architecture », Experientia, vol. 33, no 7, p. 885--887, 1977.
J. V. Perumpral, U. F. Earp, et J. M. Stanley, « Effects of Electrostatic Field on Locational Preference of House Flies 1 and Flight Activities of Cabbage Loopers 23 », Environ. Entomol., vol. 7, no 3, p. 482--486, 1978.
D. K. Edwards, « EFFECTS OF ARTIFICIALLY PRODUCED ATMOSPHERIC ELECTRICAL FIELDS UPON THE ACTIVITY OF SOME ADULT DIPTERA », Can. J. Zool., vol. 38, no 5, p. 899‐912, oct. 1960, doi: 10.1139/z60-096.
R. J. Stout, « Responses to Extremely Low Frequency Electromagnetic Fields by a Dragonfly Naiad (Ophiogomphus colubrinus) in a Northern Michigan Stream: A Five Year Study », J. Freshw. Ecol., vol. 7, no 4, p. 343--352, 1992.
B. Greenberg, « Impact of Extremely Low Frequency Electromagnetic Fields on Soil Arthropods », Environ. Entomol., vol. 1, no 6, p. 743--750, 1972. T.Leucht,«Responsestolightundervaryingmagneticconditionsinthehoneybee,Apis mellifica», J. Comp. Physiol. A, vol. 154, no 6, p. 865‐870, 1984, doi: 10.1007/bf00610687.
M.-C. Cammaerts, P. D. Doncker, X. Patris, F. Bellens, Z. Rachidi, et D. Cammaerts, « GSM 900 MHz radiation inhibits ants’ association between food sites and encountered cues», Electromagn. Biol. Med., vol. 31, no 2, p. 151‐165, janv. 2012, doi: 10.3109/15368378.2011.624661.
D. Favre, « Mobile phone-induced honeybee worker piping », Apidologie, vol. 42, no 3, p. 270--279, 2011. N.E.GaryetB.B.Westerdahl,«Flight,orientation,andhomingabilitiesofhoneybees following exposure to 2.45-{GHz} {CW} microwaves », Bioelectromagnetics, vol. 2, no 1, p. 71--75, 1981.
G.-J. Wan et al., « Reduced geomagnetic field may affect positive phototaxis and flight capacity of a migratory rice planthopper », Anim. Behav., vol. 121, p. 107‐116, nov. 2016, doi: 10.1016/j.anbehav.2016.08.024.
V. M. Orlov, « Invertebrates and High-Voltage Powerlines », J. Bioelectr., vol. 9, no 2, p. 121--131, 1990.
K. Tomanova et M. Vacha, « The magnetic orientation of the Antarctic amphipod Gondogeneia antarctica is cancelled by very weak radiofrequency fields », J. Exp. Biol., 2016, Consulté le: 1 janvier 1apr. J.-C. [En ligne]. Disponible sur: https://doi.org/10.1242%2Fjeb.132878
E. K. Eskov, « Destabilization of the insect heart function by low-frequency electric field », Biophysics, vol. 51, no 1, p. 122‐124, janv. 2006, doi: 10.1134/S0006350906010192. S.Spasi􏰀,S.Kesi􏰀,G.Stojadinovi􏰀,B.Petkovi􏰀,etD.Todorovi􏰀,«Effectsofthestatic and ELF magnetic fields on the neuronal population activity in Morimus funereus (Coleoptera, Cerambycidae) antennal lobe revealed by wavelet analysis », Comp. Biochem. Physiol. A. Mol. Integr. Physiol., vol. 181, p. 27‐35, mars 2015, doi: 10.1016/j.cbpa.2014.11.018.
L. Ilijin et al., « The response of dorsomedial A1’ and dorsolateral L2’ neurosecretory neurons of Lymantria dispar L. caterpillars to the acute effects of magnetic fields », Arch. Biol. Sci., vol. 63, no 1, p. 167--176, 2011.
L. Ilijin et al., « The effects of acute exposure to magnetic fields on morphometric characteristics of bombyxin-producing neurosecretory neurons in gypsy moth caterpillars», Int. J. Radiat. Biol., vol. 87, no 5, p. 461‐471, mai 2011, doi: 10.3109/09553002.2011.542544.
A. K. Manta et al., « Mobile-phone radiation-induced perturbation of gene-expression profiling, redox equilibrium and sporadic-apoptosis control in the ovary of Drosophila melanogaster », Fly (Austin), vol. 11, no 2, p. 75--95, 2017.









































































   55   56   57   58   59