Scientific Reports (Oct 2021)

Atmospheric ionization and cloud radiative forcing

  • Henrik Svensmark,
  • Jacob Svensmark,
  • Martin Bødker Enghoff,
  • Nir J. Shaviv

DOI
https://doi.org/10.1038/s41598-021-99033-1
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 13

Abstract

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Abstract Atmospheric ionization produced by cosmic rays has been suspected to influence aerosols and clouds, but its actual importance has been questioned. If changes in atmospheric ionization have a substantial impact on clouds, one would expect to observe significant responses in Earth’s energy budget. Here it is shown that the average of the five strongest week-long decreases in atmospheric ionization coincides with changes in the average net radiative balance of 1.7 W/m $$^2$$ 2 (median value: 1.2 W/m $$^2$$ 2 ) using CERES satellite observations. Simultaneous satellite observations of clouds show that these variations are mainly caused by changes in the short-wave radiation of low liquid clouds along with small changes in the long-wave radiation, and are almost exclusively located over the pristine areas of the oceans. These observed radiation and cloud changes are consistent with a link in which atmospheric ionization modulates aerosol's formation and growth, which survive to cloud condensation nuclei and ultimately affect cloud formation and thereby temporarily the radiative balance of Earth.