The Scientific World Journal

The Scientific World Journal / 2011 / Article

Research Article | Open Access

Volume 11 |Article ID 602623 | https://doi.org/10.1100/tsw.2011.83

Lucietta Betti, Grazia Trebbi, Fabio Fregola, Michela Zurla, Pietro Mesirca, Maurizio Brizzi, Francesco Borghini, "Weak Static and Extremely Low Frequency Magnetic Fields Affect In Vitro Pollen Germination", The Scientific World Journal, vol. 11, Article ID 602623, 16 pages, 2011. https://doi.org/10.1100/tsw.2011.83

Weak Static and Extremely Low Frequency Magnetic Fields Affect In Vitro Pollen Germination

Academic Editor: Margaret Tzaphlidou
Received04 Jan 2011
Revised09 Mar 2011
Accepted15 Mar 2011

Abstract

This study concerns the effects of a weak static magnetic field (MF) at 10 μT oriented downward, combined with a 16-Hz sinusoidal MF (10 μT), on in vitro pollen germination of kiwifruit (Actinidia deliciosa). Extremely low frequency magnetic field (ELF-MF) exposure was carried out by a signal generator unit connected to a copper wire solenoid, inside which samples where placed. Two different kinds of treatment were performed: direct and indirect. In the direct treatment, pollen samples were directly exposed during rehydration, germination, or both. In the indirect treatment, the pollen growth medium was prepared with water aliquots (at standard temperature of 20°C and pH = 6.74) that were exposed before use for 8 or 24 h. The main purpose of our research was to identify a biological marker (in vitro pollen germination in a stressing growth medium without Ca2+) susceptible to the effects of direct or indirect ELF-MF exposure. The working variable was the pollen germination rate, as detected blind after 3 h 30 min by an Axioplan microscope. A directionally consistent recovery of germination percentage was observed both for direct exposure (during germination and both rehydration and germination phases) and water-mediated exposure (with water exposed for 24 h and immediately used). Our results suggest that the ELF-MF treatment might partially remove the inhibitory effect caused by the lack of Ca2+ in the culture medium, inducing a release of internal Ca2+ stored in the secretory vesicles of pollen plasma membrane. Although preliminary, findings seem to indicate the in vitro pollen performance as adequate to study the effects of ELF-MFs on living matter.


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