期刊名称:Journal of Systemics, Cybernetics and Informatics
印刷版ISSN:1690-4532
电子版ISSN:1690-4524
出版年度:2020
卷号:18
期号:4
页码:122-126
出版社:International Institute of Informatics and Cybernetics
摘要:Hurricane Irma, 2017, along with other storm systems (Fig. 1) howling winds and grounding lightning (Fig. 2), tracked Caribbean mantle circuits along the tectonic trenches of Puerto Rico and Cuba. Mantle circuit trends can be mapped with mantle gravity signatures (Fig. 3). Irma turned north from Cuba making south Florida landfall, 30 miles southeast of Ft. Meyers, precisely where concentration of lightning hotspot activity shifted to in 2016 [2]. Previously the North American lightning hotspot was located in the Tampa Bay region. This lightning shift to Ft. Meyers correlates to a global shift of lighting activity from the African Congo to Lake Maracaibo in Venezuela. Our research indicates the shift in lighting activity signals a charging phase of the East Pacific Rise (EPR). the Earth's largest mantle circuit [3]. This circuit grounds and modulates lighting activity to the South Pole. EPR mantle circuits activate in phase with increases in Venezuelan and Florida lightning as well as a seismic activation [4] of El Niño Southern Oscillation (ENSO). The Southeast Indian Ridge mantle circuit provides the South Polar grounding link to lighting activity in the Congo. Solar magnetic space weather activates Stellar Transformer mantle induction circuits during large variations in magnetism. This episodic activation modulates hurricane frequency, lightning hotspot activity influences earthquake and volcanic activity and has links to certain types of wildfire outbreak [5].
关键词:Wildfires; Mitigation; Geomagnetic Induction;
Solar Coupling; Tectonics.
