Озоновый слой и погодные аномалии в Северном полушарии в зимне-весенний период 2017—2018 гг. : OZONE LAYER AND WEATHER ANOMALIES IN NORTHERN HEMISPHERE IN 2017–2018 WINTER AND SPRING MONTHS

Данная публикация продолжает цикл статей постоянной рубрики нашего журнала «Климат-контроль», главная цель которой – сравнительный анализ информации независимых, в том числе и от автора, источников, а именно, описаний погодных аномалий и стихийных бедствий (сайт Гидрометцентра России, http://old.met...

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Bibliographic Details
Main Author: Сывороткин Владимир Леонидович
Format: Report
Language:unknown
Published: Пространство и Время 2018
Subjects:
аномалии общего содержания озона ОСО; озоновые карты; погодные аномалии; стихийные бедствия; водородная дегазация; снегопады; природные пожары
total ozone TO anomalies; ozone maps; weather anomalies; natural disasters; hydrogen degassing; snowfalls; wildfires.
Arctic
Barents Sea
Canada
Kara Sea
laptev
Siberia
Online Access:https://dx.doi.org/10.24411/2226-7271-2018-11091
https://cyberleninka.ru/article/n/ozonovyy-sloy-i-pogodnye-anomalii-v-severnom-polusharii-v-zimne-vesenniy-period-2017-2018-gg/pdf
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Summary:Данная публикация продолжает цикл статей постоянной рубрики нашего журнала «Климат-контроль», главная цель которой – сравнительный анализ информации независимых, в том числе и от автора, источников, а именно, описаний погодных аномалий и стихийных бедствий (сайт Гидрометцентра России, http://old.meteoinfo.ru/climate/climat-tabl3/2018-climat-analysis, данные различных СМИ) и карт аномалий общего содержания озона (ОСО) Select Ozone Maps (сайт Всемирного озонового центра ВМО в Канаде, http://exp-studies.tor.ec.gc.ca/cgibin/selectMap). Такой анализ является, по существу, публичной проверкой авторской концепции определяющего влияния концентрации озона в атмосфере на погоду того региона, над которым возникла данная аномалия ОСО. Концентрация озона влияет на погоду непосредственно в данном месте и в данное время, т.е. озоновый алгоритм способен объяснить большинство погодных аномалий, возникающих в наше время на планете, – чего не может сделать раскрученный миф об антропогенном глобальном потеплении : Identifying the causes of natural disasters and anomalies is a major problem both scientifically and socially. Based on ozone layer daily and monthly monitoring and using system, comparative and discourse analysis, I review media and Russian Hydrometeorological Center’s reports on main synoptic events and weather anomalies in comparison with total ozone (TO) maps for December 2017 – May 2018 ("Select Ozone Maps. Ozone and Ultraviolet Research and Monitoring." Environment Canada's World Wide Web Site. The Green LaneTM. Web. ). I show clear temporal and spatial correlation of weather and ozone anomalies, when weather anomalies are caused by the ozone ones, which, in turn, are caused by the intensification of hydrogen degassing (negative anomalies of total ozone, TO) or geomagnetic activity (positive TO anomalies). Abnormal ozone concentrations cause weather anomalies and hydrogen-methane degassing control natural fires within the continental spaces of the Northern Hemisphere. In this case, these are March-May 2018 wildfires in the Russian Far East (in 2018, the fire season here began ahead of time). However, since the specialists at the Hydrometeorological Center of Russia do not use the theory of hydrogen degassing and the ozone maps analysis as forecasting tool, their explanations of the weather phenomena are the point of ridicule. Thus, Hydrometeorological Center explained 30degree frosts in Central Russia at the end of February 2018 by the fact that very cold air from the Kara Sea was pumped in there. However, the ozone algorithm seems to me simpler and more understandable, especially since on Yamal on this day the daytime temperature was -18 °С, and the nighttime one was -22 °С, while in Moscow in the afternoon it was minus 18.7 ° С and at night in the Moscow region the thermometer fell below 30 °C. In addition to this, during this period on Yamal, the wind blew from North to South, i.e. in the direction of Siberia, but not the Barents Sea. This wind warmed the air over Yamal, as it carried heat from the ocean, over which the ozone layer was destroyed, i.e. ice cover was opened. Thus, Hydrometeorological Center explained 30-degree frosts in Central Russia at the end of February 2018 by the fact that very cold air from the Kara Sea was pumped in there. However, the ozone algorithm seems to me simpler and more understandable, especially since on Yamal on this day the daytime temperature was -18 °С, and the nighttime one was -22 °С, while in Moscow in the afternoon it was minus 18.7 ° С and at night in the Moscow region the thermometer fell below 30 °C. In addition to this, during this period on Yamal, the wind blew from North to South, i.e. in the direction of Siberia, but not the Barents Sea. This wind warmed the air over Yamal, as it carried heat from the ocean, over which the ozone layer was destroyed, i.e. ice cover was opened. Centers of both ozone hole originated over the Arctic and most intense deep hydrogen-methane degassing correspond to the water areas of Kara and Laptev seas. Positive temperature anomalies that are maximal for the Northern Hemisphere are also recorded here. The ozone (degassing) hypothesis consistently explains January-May 2018 weather anomalies in Europe and Asia, in Russia, U.S. and Canada: extreme cold/heat, unexpected snowfalls, floods, storms and wildfires correlate well with the ozone map data. I conclude that it is necessary to widely inform both decision makers and the entire population not only about the degassing nature of weather anomalies, but also about the ozone map data. Thus, upgrading of penalties for fire hazard actions should be carried out on days of increased hydrogen-methane degassing (ozone monitoring allows us to determine these days).

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