Those with larger surface would be also subject to
more evaporation due higher temperature.
Same precip,
more evaporation due to warmer surface temps.
Not exact matches
Rising temperatures pull
more moisture out of trees
due to higher
evaporation rates.
The river water reaching the Nile Delta does not contain a third
more salt than before the Aswan High Dam was built: it is the same amount of salt, only
more concentrated
due to the
evaporation from Lake Nasser.
Consequently, if there is
more rainfall [
due to greater
evaporation] where there is already a lot of rainfall, then the effect that rainfall has on the circulation will be increased.
Another process knows as a «runaway greenhouse» occurs
due to the increased greenhouse effect of water vapor in the lower atmosphere, which further drives
evaporation and
more warming.
Further, let's agree that this will on average cause
more precipitation
due to increased
evaporation at these higher temperatures (the best data I have seen say that the precipitation trend over the continental US — where we have the best long term records — is up 5 - 10 % over the last century).
a direct water to air heat exchanger is
more efficient in the WATER - > AIR direction partially
due to
evaporation but mainly
due to the air being
more mobile.
The natural temperature control reduces the heat by up to seven degrees in the summer (relative to outside temperatures),
due to cooling effects of
evaporation, resulting in
more stress - free chickens!
Increased
evaporation can dry out some regions while, at the same time, result in
more rain falling in other areas
due to the excess moisture in the atmosphere.
8 months of the year, the slowly decreasing Arctic sea ice actually allows
more heat to be lost from the Arctic ocean that it gains from the very low sunlight levels that are present
due to increased
evaporation, convection, conduction and radiation losses.
Decreased flows are projected in the summer months in both basins, with up to a 55 percent decrease in August in the
more southern Kootenay river basin
due to higher
evaporation rates.»
Is this point only about the radiative characteristics of the H2O vapour, and the assumption that relative and / or specific humidity should rise thanks to CO2 - induced increased
evaporation, which in turn would increase downwelling heat radiation — or just the part that slightly hotter surface (
due to CO2) also emits
more heat to be trapped by the vater vapour?
That is, if warming, say
due to increased CO2, produces
more evaporation and therefore
more water vapor and thus
more clouds, that will feed back and reduce the amount of warming somewhat.