On the role and impact of electromagnetic fields in ecosystems

Role and effects of electromagnetic field in living organisms and ecosystems are discussed within a nonlinear mechanism of charge transport processes that take place during respiration and hotosynthesis, as well as in hydrogen-bonded chains of water molecules. Such mechanism is based on the account...

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Bibliographic Details
Published inInternational journal of design & nature and ecodynamics Vol. 6; no. 4; pp. 272 - 281
Main Author Brizhik, L.
Format Journal Article
LanguageEnglish
Published Southampton W I T Press 30.11.2011
Subjects
Charge transport
Domains
Drift
Dynamic stability
Ecosystem assessment
Ecosystems
Electromagnetic fields
Electromagnetic radiation
Electromagnetism
Environmental impact
Hazards
Hydrogen bonding
Macromolecules
Metabolism
Molecular chains
Oceans
Outdoor air quality
Radiation
Smog
Solar activity
Solitary waves
Stochasticity
Transport processes
Water chemistry
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Summary:Role and effects of electromagnetic field in living organisms and ecosystems are discussed within a nonlinear mechanism of charge transport processes that take place during respiration and hotosynthesis, as well as in hydrogen-bonded chains of water molecules. Such mechanism is based on the account of the interaction between charges and induced by the distortions of macromolecules or water chains, which results in the self-trapping of charges in soliton states. It is shown that electrosolitons have some characteristic frequency, with respect to which periodic electromagnetic fields have resonant effect on their dynamics and stability. At certain conditions unbiased (with zero mean-value) periodic electromagnetic radiation can cause drift of solitons along molecular chains, and, therefore, affect charge transport processes. Such drift of particles in unbiased fields is known as ratchet phenomenon. Similar dynamics can be caused by stochastic fields and takes place in water chains present in interfacial water in cells, in coherence domains of water in the atmosphere and oceans. These results can explain the mechanism of impact of the electromagnetic solar activity on metabolism of living organisms and functioning of ecosystems. Moreover, it provides the mechanism for the formation of ecosystems via field-mediated exchange of information between the ecosystem elements and existence of the hierarchy of ecosystems. This study also indicates a possible danger of the electromagnetic smog on ecosystems.
ISSN:1755-7437
1755-7445
DOI:10.2495/DNE-V6-N4-272-281