Bibcode
Laken, B. A.; Čalogović, Jasa
Bibliographical reference
Geophysical Research Letters, Volume 38, Issue 24, CiteID L24811
Advertised on:
12
2011
Journal
Citations
11
Refereed citations
11
Description
Although over centennial and greater timescales solar variability may be
one of the most influential climate forcing agents, the extent to which
solar activity influences climate over shorter time periods is poorly
understood. If a link exists between solar activity and climate, it is
likely via a mechanism connected to one (or a combination) of the
following parameters: total solar irradiance (TSI), ultraviolet (UV)
spectral irradiance, or the galactic cosmic ray (GCR) flux. We present
an analysis based around a superposed epoch (composite) approach
focusing on the largest TSI increases and decreases (the latter
occurring in both the presence and absence of appreciable GCR
reductions) over daily timescales. Using these composites we test for
the presence of a robust link between solar activity and cloud cover
over large areas of the globe using rigorous statistical techniques. We
find no evidence that widespread variations in cloud cover at any
tropospheric level are significantly associated with changes in the TSI,
GCR or UV flux, and further conclude that TSI or UV changes occurring
during reductions in the GCR flux are not masking a solar-cloud
response. However, we note the detectability of any potential links is
strongly constrained by cloud variability.