«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»
«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.
Not exact matches
Analysis of physical and
dynamical processes that initiate, maintain, and modulate
atmospheric mesoscale phenomena
«Our climate simulations, using a simplified three - dimensional climate model to solve the fundamental equations for conservation of water,
atmospheric mass, energy, momentum and the ideal gas law, but stripped to basic radiative, convective and
dynamical processes, finds upturns in climate sensitivity at the same forcings as found with a more complex global climate model»
Our climate simulations, using a simplified three - dimensional climate model to solve the fundamental equations for conservation of water,
atmospheric mass, energy, momentum and the ideal gas law, but stripped to basic radiative, convective and
dynamical processes, finds upturns in climate sensitivity at the same forcings as found with a more complex global climate model [66].
(SW - CLR is related to the distribution of
atmospheric water vapour and aerosol which has a close link to the model
dynamical processes).