Not exact matches
Using global
climate models and NASA satellite observations of Earth's energy budget
from the last 15 years, the study finds that a
warming Earth is able to restore its temperature equilibrium through complex and seemingly paradoxical changes in the atmosphere and the way radiative heat is
transported.
Actually, there is some interesting work being done by Matt Huber of Purdue, following up on some earlier ideas of Emanuel's, suggesting that the role of TCs in
transporting heat
from equator towards the poles may be more significant than previously thought — it also allows for some interesting, though admittedly somewhat exotic, mechanisms for explaining the «cool tropics paradox» and «equable
climate problem» of the early Paleogene and Cretaceous periods, i.e. the problem of how to make the higher latitudes
warm without
warming the tropics much, something that appears to have happened during some past
warm epochs in Earth's history.
Dr. Czimczik cautioned that her study was a small one conducted only in Southern California, an area where water has to be
transported from afar and lawns have to be maintained year - round because of the
warm climate.
Oil — >
Transport, Electricity — > 1) C02 and 10x stronger or so CH4 in air — > Global
Warming — > Draughts, Hurricanes, Floods — > Lost crops, forests, homes — > CO2 fixing potential lost, Starvation, Diseases, More ressources / energy needed 2) C02 and 10x stronger or so CH4 in air — > Global
Warming — > Ice caps and glaciers metling — > Earth natural
climate stabilizers lost + massive CH4 release
from pergelisoils & ancient ice melt 3) CO2 in water — > Oceans acidification — > Destruction of centennial / millenial coral reefs — > Loss of oceans» filters / pulmons / incubators / biodiversity reservoir — > Food shortage
AGW
climate scientists seem to ignore that while the earth's surface may be
warming, our atmosphere above 10,000 ft. above MSL is a refrigerator that can take water vapor scavenged
from the vast oceans on earth (which are also a formidable heat sink), lift it to cold zones in the atmosphere by convective physical processes, chill it (removing vast amounts of heat
from the atmosphere) or freeze it, (removing even more vast amounts of heat
from the atmosphere) drop it on land and oceans as rain, sleet or snow, moisturizing and cooling the soil, cooling the oceans and building polar ice caps and even more importantly, increasing the albedo of the earth, with a critical negative feedback determining how much of the sun's energy is reflected back into space, changing the moment of inertia of the earth by removing water mass
from equatorial latitudes and
transporting this water vapor mass to the poles, reducing the earth's spin axis moment of inertia and speeding up its spin rate, etc..
Scientists interviewed for this story say that the Arctic
warming event, technically known as a
warm air intrusion, may be a common feature of the Arctic
climate, as comparatively mild and moist air
from the midlatitudes is
transported north by storm systems.