Microwave irradiation affects gene expression in plants
Vian et al. (2006) Plant Signaling & Behavior 1:67-69 |
High frequency (900 MHz) low amplitude (5 V m(-1)) electromagnetic field: a genuine environmental stimulus that affects transcription, translation, calcium and energy charge in tomato
Roux et al. (2008) Planta 227:883-891 |
Plants Respond to GSM-Like Radiations
Vian et al. (2007) Plant Signaling & Behavior 2:522-524 |
Influence of 400, 900, and 1900 MHz electromagnetic fields on Lemna minor growth and peroxidase activity
Tkalec et al. (2005) Bioelectromagnetics 26:185-193 |
A possible role for extra-cellular ATP in plant responses to high frequency, low amplitude electromagnetic field
Roux et al. (2008) Plant Signaling & Behavior 3:383-385 |
Mobile phone radiation inhibits Vigna radiata (mung bean) root growth by inducing oxidative stress
Sharma et al. (2009) Science of The Total Environment 407:5543-5547 |
Low-frequency electromagnetic fields induce a stress effect upon higher plants, as evident by the universal stress signal, alanine
Monselise et al. (2003) Biochemical and Biophysical Research Communications 302:427-434 |
A preliminary study on ultra high frequency electromagnetic fields effect on black locust chlorophylls
Sandu et al. (2005) Acta Biologica Hungarica 56:109-117 |
Response of Pinus sylvestris L. needles to electromagnetic fields. Cytological and ultrastructural aspects
Selga and Selga (1996) Science of The Total Environment 180:65-73 |
Cytogenetic changes induced by low-intensity microwaves in the species Triticum aestivum
Pavel et al. (1998) Rev Med Chir Soc Med Nat Iasi 102:89-92 |
Ultrastructure and calcium balance in meristem cells of pea roots exposed to extremely low magnetic fields
Belyavskaya (2001) Advances in Space Research 28:645-650 |
Biological effects due to weak magnetic field on plants
Belyavskaya (2004) Advances in Space Research 34:1566-1574 |
Growth of etiolated barley plants in weak static and 50 Hz electromagnetic fields tuned to calcium ion cyclotron resonance
Pazur et al. (2006) Biomagnetic Research and Technology 4:1 |
The influence of a low- and high-frequency electromagnetic fields on seeds
Kalinin et al. (2005) Biofizika 50:361-366 |
On the mechanisms of stimulation and inhibition during germination of wheat seeds in extremely low frequency electromagnetic fields
Aksenov et al. (2007) Biofizika 52:332-338 |
The biological effect of extremely low frequency electromagnetic fields and vibrations on barley seed hydration and germination
Amyan and Ayrapetyan (2004) ScientificWorldJournal 4 Suppl 2:55-69 |
Perturbations of plant leaflet rhythms caused by electromagnetic radio-frequency radiation
Ellingsrud and Johnsson (1993) Bioelectromagnetics 14:257-271 |
Electromagnetic fields may act directly on DNA
Blank and Goodman (1999) Journal of Cellular Biochemistry 75:369-374 |
Plant sensitivity to low intensity 105 GHz electromagnetic radiation
Tafforeau et al. (2004) Bioelectromagnetics 25:403-407 |
Clastogenic effects of radiofrequency radiations on chromosomes of Tradescantia
Haider et al. (1994) Mutation Research 324:65-68 |
Magnetoreception in plants
Galland and Pazura (1995) Journal of Plant Research 118:371-389 |
Detection and Learning of Floral Electric Fields by Bumblebees
Clarke et al. (2013) Science, online DOI: 10.1126/science.1230883 |
Low-frequency electromagnetic fields induce a stress effect upon higher plants, as evident by the universal stress signal, alanine
Monselise et al. (2003) Biochemical and Biophysical Research Communications 302:427-434 |
Sims study of the calcium-deprivation step related to epidermal meristem production induced in flax by cold shock or radiation from a GSM telephone
Tafforeau et al. (2002) Journal of Trace and Microprobe Techniques 20:611-623 |
The effect of electromagnetic radiation from the Skrunda Radio Location Station on Spirodela polyrhiza (L.) Schleiden cultures
Magone (1996) Science of The Total Environment 180:75-80 |
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Does the Skrunda Radio Location Station diminish the radial growth of pine trees?
Balodis et al. (1996) Science of The Total Environment 180:57-64 |