Воздействие (изменений) магнитного поля на бактерий и простейших

Автор Alexy, сентября 01, 2014, 11:09:51

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Дж. Тайсаев

Алексей, извините если вас задел как то, я всегда считал и считаю вас умным человеком. Без обид.
Шматина глины не знатней орангутанга (Алексей Толстой).

Alexy

Нет, Вы меня не задели
Ведь ирония - это не грубость

Но меня очень огорчил (из соображений блага для науки) Ваш ужасающе поспешный подход к вопросу

Питер

То    есть  мальчика (большего  влияния  магнитного  поля  на  бактерии  на  МКС)  все-таки  нет ?
А  то  что  какое-то  действие    магнитное  поле  может  оказывать   на   живые  организмы  -  не  вопрос,   оно есть. С  механизмами  -  вопросов  масса.  С важностью  этого  влияния  - опять  же  вопросов  масса.

А  оно  вам  надо  ?

Alexy

Попытка объяснить магнитную память воды через появление в ней при магнитном воздействии ozone, superoxide, hydroxyl radicals, singlet oxygen, atomic hydrogen, hydrogen peroxide, hypochlorous acid, etc (подобно тому, как они появляются при обработке воды ультразвуком)

The elusive mechanism of the magnetic 'memory' of water http://www.sciencedirect.com/science/article/pii/S0927775798008942

Авstract
It has been claimed that preliminary water treatment with magnetic or electromagnetic (EM) fields can help descale metal surfaces, improve cement hydration, change ζ potential of colloids, make plants irrigated with such water grow faster, enhance efflux of calcium through biomembranes or influence the structure of model lyposomes. The effects persist minutes or hours after the water treatment. It is well known that relaxation phenomena in water occur on a picosecond to second timescale. The nature of these 'mysterious' and questionable phenomena uniquely known as the 'magnetic memory of water' has recently been scrutinized. Based on our recent work as well as other recent publications, we propose a model for the observed phenomena. We propose that the gas ∣ liquid interface is perturbed by the action of magnetic and electromagnetic fields. As in the case of the sonochemical gas ∣ liquid interface treatment, some free radicals and/or reactive oxygen species are observed after the treatment (ozone, superoxide, hydroxyl radicals, singlet oxygen, atomic hydrogen, hydrogen peroxide, hypochlorous acid, etc.). The perturbations of the gas ∣ liquid interface relax more slowly (minutes to hours). The presence of gases, such as carbon dioxide or noble gases which promote clathrate-like structures of water, significantly enhanced the observed effects. Some reactive oxygen species such as hydrogen peroxide are also stable for hours or days in the absence of heavy metals. The 'magnetic memory of water', we propose, is the combination of perturbations of the gas ∣ liquid interface and the production of reactive oxygen species. This model is still speculative and will be tested by other researchers. Numerous tests in different independent laboratories are needed before any final conclusions can be made.