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Notes:

Journal of Earth Science & Climatic Change | ISSN: 2157-7617 | Climate 2018 | Volume: 9

5

th

World Conference on

May 23-24, 2018 | New York, USA

Climate Change and Global Warming

Cause of the ice ages and climate change

I

ce ages and other significant climate changes show excellent correlations of global temperature with sunspot activity, total

solar irradiance, production of radiocarbon and beryllium isotopes in the upper atmosphere, and cosmic rays entering

the atmosphere. Periods of global cooling coincided with changes in these factors during the Oort, Wolf, Maunder, Dalton,

1880–1915, and 1945–1977 Solar Minimums. How are all of these factors interrelated? During the devastating cold of the little

ice age from 1650 to 1700, sun spot activity on the sun virtually ceased and total solar irradiance dropped. That this was not just

a coincidence, is shown by the same thing happening during each of five other cold periods. radiocarbon (

14

C) and beryllium

(

10

Be) are isotopes produced in the upper atmosphere by colliding cosmic rays, so the more cosmic radiation, the greater the

production of these isotopes. The amount of radiocarbon and beryllium produced can be measured and serves as an indicator

of the amount of incoming cosmic radiation. Isotope measurements show that cosmic ray incidence was greater during each

of the cold periods. Physicists have long known that cosmic rays passing through the atmosphere produce ions (charged

particles) that serve as nuclei for condensation of water vapor. In 1997, Svensmark and Friis-Christensen published the results

of experiments at the Cern nuclear laboratory showing that cosmic rays do indeed generate condensation and suggested that

increased cloudiness, produced by ionization in the atmosphere by cosmic rays, causes increased reflection of incoming solar

energy and results in enough cooling of the atmosphere to cause climate changes. The geologic evidence of the relationships

between global temperature, sunspot activity, total solar irradiance, production of radiocarbon and beryllium isotopes in the

upper atmosphere, and cosmic ray incidence, provides a satisfactory explanation for the cause of both long-term and short-

term climate changes.

Biography

Don J Easterbrook is Emeritus Professor of Geology at Western Washington University. He has conducted climate research in North America, New Zealand, and

Argentina, has written a dozen books, 185 professional papers, and has presented 30 papers at international meetings in 12 countries. He was Chairman of the

1977 national meeting of the Geological Society of America (GSA), President of the Quaternary Geology and Geomorphology Division of GSA, US Representative

to the UN International Geological Correlation Program, and the Director of Field Excursions for the 2003 International Quaternary Congress. He has received

awards for ‘Distinguished service to the Geological Society of America,’ ‘Lifetime Achievement Award,’ and Honorable mention by the American Men of Science

as one of “The Most Influential Scientists in North America.” He has been featured in the NY Times and has appeared on national TV network shows at MSNBC,

CNN, CBS and FOX.

don.easterbrook@wwu.edu

Don J Easterbrook

Western Washington University, USA

Don J Easterbrook, J Earth Sci Clim Change 2018, Volulme: 9

DOI: 10.4172/2157-7617-C1-039