1. Possible Roles of Permafrost Melting, Atmospheric Transport, and Solar Irradiance in the Development of Major Coronavirus and Influenza Pandemics
- Author
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Anne M. Hofmeister, Genevieve M Criss, and James M. Seckler
- Subjects
Atmospheric circulation ,Health, Toxicology and Mutagenesis ,Population ,lcsh:Medicine ,Cold storage ,Permafrost ,Solar irradiance ,Atmospheric sciences ,Article ,03 medical and health sciences ,0302 clinical medicine ,Influenza, Human ,Animals ,Humans ,climate and disease ,030212 general & internal medicine ,education ,Pandemics ,030304 developmental biology ,0303 health sciences ,education.field_of_study ,airborne transport ,pandemic emergence ,Arctic Regions ,SARS-CoV-2 ,lcsh:R ,Global warming ,Public Health, Environmental and Occupational Health ,COVID-19 ,Jet stream ,environment and health ,Coronavirus ,Arctic ,Sunlight ,permafrost melting ,ultraviolet immunosuppression ,historic influenzas - Abstract
Major pandemics involving respiratory viruses develop semi-regularly and require a large flux of novel viruses, yet their origination is equivocal. This paper explores how natural processes could give rise to this puzzling combination of characteristics. Our model is based on available data regarding the emergence of historic influenzas, early COVID-19 cases and spreading, the microbiome of permafrost, long-distance airborne transport of viruses reaching stratospheric levels, ultraviolet immunosuppression, sunlight variations, weather patterns, Arctic thawing, and global warming. Atmospheric conveyance is supported by hemispheric distribution disparities, ties of COVID-19 cases to air pollution particulate concentrations, and contemporaneous animal infections. The following sequence is proposed: (1) virus emergence after hot Arctic summers, predominantly near solar irradiance maxima or involving wildfires, indicates release of large amounts of ancient viruses during extensive permafrost melting, which are then incorporated in autumn polar air circulation, where cold storage and little sunlight permit survival. (2) Pandemics onset in winter to spring at rather few locations: from climate data on Wuhan, emergence occurs where the North Polar Jet stream hovers while intersecting warmer, moist air, producing rain which deposits particulates with the viral harvest on a vulnerable human population. (3) Spring and summer increases in COVID-19 cases link to high solar irradiance, implicating ultraviolet immune suppression as one means of amplification. (4) Viruses multiplied by infected humans at close range being incorporated in atmospheric circulation explains rapid global spread, periodic case surges (waves), and multi-year durations. Pollution and wind geography affect uptake and re-distribution. Our model can be tested, e.g., against permafrost stored in laboratories as well as Artic air samples, and suggests mitigating actions.
- Published
- 2021