In other words, the total heat accumulation won't abruptly rise (which is impossible per the above article), but abrupt climate change will
affect heat distribution, which will unbalance eco-systems, which will led to rapid global warming (i.e. rapid heat accumulation).
It also
affects the heat distribution in the atmosphere.
It also
affects the heat distribution in the atmosphere.
Not exact matches
Insufficient
heat distribution causes local overheating that massively
affects the service life of the lamp.
The UM Rosenstiel School researchers used historical observations of cloud cover as a proxy for wind velocity in climate models to analyze the Walker circulation, the atmospheric air flow and
heat distribution in the tropic Pacific region that
affects patterns of tropical rainfall.
Changes here have a long term effect,
affecting the strength of the north - ward horizontal flow of the Atlantic's upper warm layer, thereby altering the oceanic poleward
heat transport and the
distribution of sea surface temperature (SST — AMO), the presumed source of the (climate) natural variability.
In contrast, CO2 forcing by layers changes sign between the surface + troposphere and stratosphere (modulated by the effect of existing solar
heating of the stratosphere), and it may have a different
distribution of RF over the surface + troposphere layer (which would
affect convection) and is more evenly distributed horizontally and temporally.
Climate can also
affects the vertical
distribution of solar
heating.
Or how would a probability
distribution be
affected by using a correct formula for a latent
heat of water vaporization?
«The global mean climate responses to different forcings may differ because of the character of the forcings themselves (such as their geographical or vertical
distribution) and because different forcings induce different patterns of surface warming or cooling, thereby
affecting the net top - of - atmosphere radiation imbalance, and thus the ocean
heat uptake rate.»
Unless the
distribution of
heat is completely uniform, and the temperature sensor is in the exact center of that
distribution, then the direction from which the wind is blowing will have an
affect on the temperature at the sensor.
Both greenhouse gases and aerosols
affect the
distribution of
heat and rain on this planet, but they change the temperature and precipitation in different ways in different places.