This grand solar minimum increases the risk of a pandemic influenza outbreak

This grand solar minimum increases the risk of a pandemic influenza outbreak

Grand solar minimum periods associated with a colder climate pose increased risks for pandemic infuenza outbreaks. In fact, half of all pandemic influenza outbreaks between 1600 and 2000 CE occurred when both the Northern Hemisphere temperature and total solar irradiance levels were below the 1600-2000 CE average, which corresponded with the grand solar minimum periods of the Little Ice Age.

Figure B) above. Historical pandemic influenza outbreak data was extracted from six scientific publications reviewing the history of influenza, providing a general consensus on pandemic flu outbreaks (and major regional epidemics) back to 1500. These were plotted against the total solar irradiance and Northern Hemisphere temperature data reconstructions. See the citation for all the data.[i] Between 1610 and 2000, eighty-two percent of influenza pandemics and epidemics (37/45) occurred at or within one year of a peak or trough in the total solar irradiance anomaly. At the same time, sixty-four percent (29/45) of influenza pandemics and epidemics occurred during a negative Northern Hemisphere temperature anomaly.

Half of outbreaks (22/45) between 1600 and 2000 CE occurred when both the Northern Hemisphere temperature and total solar irradiance anomaly were negative, which corresponded with the trough of grand solar minimum periods (during the Little Ice Age). Negative anomalies resulted when the temperature or irradiance value was less than the 1610-2000 average for that parameter.

The obvious conclusion is that grand solar minimum periods associated with a colder climate pose increased risks for pandemic flu outbreaks. The sun is plummeting into the depths of this grand solar minimum and in 2016 the Northern Hemisphere temperatures started to decline.[ii]

We should be VERY WORRIED that governments, the vaccine industry, and WHO will not be able to immunize the world before the peak of a pandemic, or supply sufficient vaccine in an equitable manner. We have the vaccine technology to solve this problem but this has not been implemented since 2009’s swine flu pandemic. Read Chapter 14 to find out why we are left fully vulnerable to a bad pandemic outbreak.

Click on this page and download a free copy of my book “Revolution: Ice Age Re-Entry,” and read more about this topic in Chapter 14.

 

[i] Data: (1) Figure 14.1.B: T. Kobashi et al., 2013. Causes of Greenland temperature variability over the past 4000 year: implications for northern hemispheric temperature changes. Climate of the Past, 9(5), 2299-2317. doi: 10.5194/cp-9-2299-2013. National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce. Northern Hemisphere 4000 Year Temperature Reconstructions. https://www.ncdc.noaa.gov/paleo/study/15535. Downloaded 05/05/2018. (2) The total solar irradiance (TSI) reconstruction was based on NRLTSI2 (Coddington et al., BAMS, 2015 doi: 10.1175/BAMS-D-14-00265.1). http://spot.colorado.edu/~koppg/TSI/TIM_TSI_Reconstruction.txt. (3) Influenza pandemic and epidemic publications: (a) B. Lina, 2008, History of Influenza Pandemics. In: Raoult D., Drancourt M. (eds) Paleomicrobiology. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-75855-6_12. (b) E. Tognotti, 2009, Influenza pandemics: a historical retrospect. Journal of Infection in Developing Countries, 3:331-334. doi: https://doi.org/10.3855/jidc.239. (c) C. Potter, 2001, A history of influenza. Journal of Applied Microbiology, 91: 572-579. doi:10.1046/j.1365-2672.2001.01492.x. (d) J.K. Taubenberger and D.M. Morens, 1918 Influenza: the Mother of All Pandemics. Emerging Infectious Diseases. 2006;12(1):15-22. doi:10.3201/eid1201.050979. (e) Edwin D. Kilbourne, Influenza. Chapter 1; History of Influenza. Springer Science & Business Media, 6/12/2012 – Medical. ISBN 978-1-4684-5239-6. (f) Svenn-Erik Mamelund, Influenza, Historical. December 2008. International Encyclopedia of Public Health, First Edition (2008), vol. 3, pp. 597-609. DOI: 10.1016/B978-012373960-5.00372-5.

[ii]       Global mean surface temperature data, commonly referred to as HadCRUT4. https://www.metoffice.gov.uk/hadobs/hadcrut4/data/current/download.html. [Exposé: Look at the bottom left hand or first column for the current year-to-date temperature. Subtract that from the 2016 total to see the magnitude of the fall. Global Data: https://bit.ly/2nCgctz. Northern Hemisphere Data: https://bit.ly/2MRt75G, Southern Hemisphere Data: https://bit.ly/2nBfYTA. Tropics Data: https://bit.ly/2nFXJMM. [last downloaded 25/07/2018].

This grand solar minimum increases the risk of a pandemic influenza outbreak (increased cosmic rays)

This grand solar minimum increases the risk of a pandemic influenza outbreak (increased cosmic rays)

Low solar activity, typical of grand solar minimum periods, is associated with increased cosmic ray intensity levels and more pandemic influenza outbreaks. The majority (80%) of pandemics since 1700 took place when the cosmic ray intensity (CRI) level was above the average for the 1961-1990 period. This corresponded with a phase of relatively low solar activity and numerous grand solar minimum periods. Additonally, during this three century period more than half of pandemics occurred at or within one year of a peak or trough in cosmic ray intensity levels. Cosmic ray intensity anomaly and pandemic flu outbreaks are highlighted in the figure above (Figure C).[i]

Cosmic rays that enter earth’s atmosphere from space represent a well-established proxy for determining solar activity (see the citation for details).[ii] In addition to sunspot numbers, total solar irradiance, and Beryllium-10, the cosmic ray intensity offers a fourth solar activity parameter associated with pandemic influenza outbreaks. Four different solar activity parameters all showing peak and trough associations with pandemic outbreaks add strong support to the hypothesis that solar activity extremes portend increased risk for pandemic influenza outbreaks.

Click on this page and download a free copy of my book “Revolution: Ice Age Re-Entry,” and read more about this topic in Chapter 14—and why we should be very worried about a pandemic influenza outbreak this grand solar minimum.

[i] Data: (1) Usoskin, I.G., et al. 2008. Cosmic Ray Intensity Reconstruction. IGBP PAGES/World Data Center for Paleoclimatology. Data Contribution Series # 2008-013. NOAA/NCDC Paleoclimatology Program, Boulder CO, USA. Original References: 1) I.G. Usoskin et al., 2002, A physical reconstruction of cosmic ray intensity since 1610. Journal of Geophysical Research, 107(A11), 1374. Downloaded May 2018. ftp://ftp.ncdc.noaa.gov/pub/data/paleo/climate_forcing/solar_variability/usoskin-cosmic-ray.txt. (2) Influenza pandemic and epidemic publications: (a) B. Lina, 2008, History of Influenza Pandemics. In: Raoult D., Drancourt M. (eds) Paleomicrobiology. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-75855-6_12. (b) E. Tognotti, 2009, Influenza pandemics: a historical retrospect. Journal of Infection in Developing Countries, 3:331-334. doi: https://doi.org/10.3855/jidc.239. (c) C. Potter, 2001, A history of influenza. Journal of Applied Microbiology, 91: 572-579. doi:10.1046/j.1365-2672.2001.01492.x. (d) J.K. Taubenberger and D.M. Morens, 1918 Influenza: the Mother of All Pandemics. Emerging Infectious Diseases. 2006;12(1):15-22. doi:10.3201/eid1201.050979. (e) Edwin D. Kilbourne, Influenza. Chapter 1; History of Influenza. Springer Science & Business Media, 6/12/2012 – Medical. ISBN 978-1-4684-5239-6. (f) Svenn-Erik Mamelund, Influenza, Historical. December 2008. International Encyclopedia of Public Health, First Edition (2008), vol. 3, pp. 597-609. DOI: 10.1016/B978-012373960-5.00372-5.

[ii] I.G.M. Usoskin et al., “Solar activity, cosmic rays, and Earth’s temperature: A millennium-scale comparison.” Journal of Geophysical Research, 110, A10102, doi:10.1029/2004JA010946. [Exposé: See page 1. This tells us cosmogenic isotopes (Beryllium-10, Carbon-14) are used as proxies for solar activity, and that their production is caused by galactic cosmic ray flux, which is influenced by the solar system’s (heliospheric) magnetic field and is modulated by solar activity. Comment: Magnetized solar wind modulates the solar system’s magnetic shield (i.e., the heliosphere) and the earth’s magnetic shield (i.e. the magnetosphere), thereby regulating cosmic ray entry into the solar system and the earth system respectively. Cosmic ray entry into the upper atmosphere from space is modulated by solar activity and geomagnetism. Lower solar activity and lower geomagnetism permit more cosmic ray entry into the atmosphere, and conversely. Increased cosmic ray levels are associated with increased low-cloud formation, which is associated with planetary cooling, and conversely. The cosmic ray and low-cloud cooling effect are concentrated into the polar regions. Cosmogenic isotopes (Carbon-14, Beryllium-10) are generated by cosmic rays in the atmosphere, with more cosmic rays generating more cosmogenic isotopes, and conversely. Cosmogenic isotopes are then embedded in earth repositories (i.e., tree rings, ice cores) and therefore indirectly tell us about solar activity and the resulting magnetized solar wind that contacts the earth’s magnetosphere. By utilizing cosmogenic isotopes to assess relationships between the sun and earth systems (i.e., climate, volcanism) we know that the solar activity that is being assessed is magnetism based, and not electromagnetism (i.e. not solar irradiance).].

Extremes of Arctic sea ice are associated with pandemic influenza outbreaks

Extremes of Arctic sea ice are associated with pandemic influenza outbreaks

The majority (94%) of all pandemics since 1500 CE occurred when the proxy used to determine the Arctic sea ice cover was lower the 1961-1990 average. Sea ice cover is derived from measuring the growth of underwater algae (proxy). Lower levels of algae growth happens when it is colder and there is more sea ice blocking the sun’s penetration below the surface. Likewise, half of all pandemics occurred at a trough in this algae growth.[i] 

Click on this page and download a free copy of my book “Revolution: Ice Age Re-Entry,” and read more about this topic in Chapter 14—and find out why we should be very worried about a pandemic influenza outbreak this grand solar minimum.

 

[i] Data: (1) Jochen Halfar et al., 2013, Arctic sea-ice decline archived by multicentury annual-resolution record from crustose coralline algal proxy. Proceedings of the National Academy of Sciences. doi: 10.1073/pnas.1313775110. National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce. Arctic Northwest Atlantic 646 Year Coralline Algae Sea Ice Record. https://www.ncdc.noaa.gov/paleo/study/15454. (2) Influenza pandemic and epidemic publications: (a) B. Lina, 2008, History of Influenza Pandemics. In: Raoult D., Drancourt M. (eds) Paleomicrobiology. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-75855-6_12. (b) E. Tognotti, 2009, Influenza pandemics: a historical retrospect. Journal of Infection in Developing Countries, 3:331-334. doi: https://doi.org/10.3855/jidc.239. (c) C. Potter, 2001, A history of influenza. Journal of Applied Microbiology, 91: 572-579. doi:10.1046/j.1365-2672.2001.01492.x. (d) J.K. Taubenberger and D.M. Morens, 1918 Influenza: the Mother of All Pandemics. Emerging Infectious Diseases. 2006;12(1):15-22. doi:10.3201/eid1201.050979. (e) Edwin D. Kilbourne, Influenza. Chapter 1; History of Influenza. Springer Science & Business Media, 6/12/2012 – Medical. ISBN 978-1-4684-5239-6. (f) Svenn-Erik Mamelund, Influenza, Historical. December 2008. International Encyclopedia of Public Health, First Edition (2008), vol. 3, pp. 597-609. DOI: 10.1016/B978-012373960-5.00372-5.

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