It is a reminder that in a warming world, there is
also more evaporation to drive storms, which corresponds to heavier precipitation.
Not exact matches
I would think that the type of paper used for the sheet doesn't really matter as they all create a barrier against
evaporation and retaining moisture but I guess some
also absorb the product
more than leave it on the face!
Will
more evaporation enhance the CO2 greenhouse effect or can
more humidity
also reduce the lapse rate acting to dampen the GHE?
More importantly, as I've said several times now, in assessing the claim that the climate is hotter and drier you
also have to take account of
evaporation, which is now exacerbating droughts to the point that inflows to the Murray - Darling for 2006 are the lowest on record.
More importantly, as Iâ $ ™ ve said several times now, in assessing the claim that the climate is hotter and drier you
also have to take account of
evaporation
Also, what are the energy budget implications of the increased
evaporation from
more open ocean?
The process of
evaporation also requires energy from heat, and the warmer the temperatures are in the upper ocean and at the ocean surface, the
more energy is available.
Also, more evaporation or snow melting during the day can also limit the variation in temperat
Also,
more evaporation or snow melting during the day can
also limit the variation in temperat
also limit the variation in temperature.
LIA wasn't GLOBAL cooling; but colder in Europe, north America — because Arctic ocean had less ice cover - > was releasing
more heat / was accumulating - > radiating + spreading
more coldness — currents were taking that extra coldness to Mexican gulf — then to the Mediterranean — because Sahara was increasing creation of dry heat and evaporating extra water in the Mediterranean — to top up the deficit — gulf stream was faster / that was melting
more ice on arctic
also as chain reaction — Because Mediterranean doesn't have enough tributaries, to compensate for the
evaporation deficit.
In a world that is warming on the average, there will be
more evaporation and therefore
more precipitation; that is, a warming world will
also get wetter, on the average.
While the years with warm and wet weather extremes have
also become
more common in the state, increased temperatures accompanying the precipitation tend to lead to quicker
evaporation, Diffenbaugh said.
«With global temperatures warmer now than they were at the beginning of the last century, that means our temperatures are warmer too, which increases the rate of
evaporation and increases the demands on water, increases the stress on the water supply, and
also leaves us
more susceptible to breaking the high - temperature record, which we've been doing lately,» Nielsen - Gammon said.
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?
However DLR never gets past the skin layer so although it adds to the skin temperature it
also adds to the rate of
evaporation and as
evaporation has a net cooling effect (the enthalpy of vapourisation is GREATER than the energy required to provoke
evaporation)
more (formerly) DLR energy is pulled out of the local environment than is required to provoke that EXTRA
evaporation.
More DLR increases
Evaporation and that increases the amount of latent heat required and
also increases upward Convection because water vapour is lighter than air.
However, volunteer temperature observers were
also asked to take precipitation measurements from rain gauges, and starting around 1960 the U.S. Weather Service requested that observers start taking their measurements in the morning (between 7 and 9 AM), as that would minimize the amount of
evaporation from rain gauges and result in
more accurate precipitation measurements.
Those with larger surface would be
also subject to
more evaporation due higher temperature.
Warmer temperatures
also increase
evaporation in soil, which affects plant life and can reduce rainfall even
more.
He
also notes that it has a feedback effect, which it clearly does because heating of bodies of water increases
evaporation, putting
more WVP in the atmosphere, and increasing it's GH impact.
In addition to causing
more downpours, these enhanced
evaporation rates are
also leading to an increase in drought severity in places that are already dry, like California.
R. Gates (09:54:53): Steve, Good work... as the last 10 years were
also the warmest, and we know with
more heat we get
more evaporation, and thus, in the winter,
more snow.