Not exact matches
Processes internal to the atmosphere including the Madden - Julian Oscillation (MJO) and low - frequency
atmospheric patterns of variability also contribute significantly to the predictability.
Some of the
processes driving the circulation patterns are
internal to the
atmospheric circulation and therefore can not be predicted.
«Analysis of observations indicate that this heat wave was mainly due to
internal atmospheric dynamical
processes that produced and maintained a strong and long - lived blocking event, and that similar
atmospheric patterns have occurred with prior heat waves in this region.
They openly acknowledge the importance of the GHG - GHE in establishing the disequilibrium conditions that lead to a lapse rate and
atmospheric heat transport in the first place, but then analyze that motion to argue that the overall feedbacks of this
process are negative, not positive, something that actually explains the remarkable stability of our atmosphere in the face of
internal variability that (in a chaotic system) could easily drive it to catastrophe.
«A study published in 2011 in Geophysical Research Letters on causes of the 2010 Russian heat wave deduced that it «was due to
internal atmospheric dynamical
processes» — Paging Al Gore: Peer - reviewed Study: «It is unlikely that the warming attributable to increasing greenhouse gas concentrations contributed significantly to the magnitude of the [Russian] heat wave»