Surface
temperatures over land regions have warmed at a faster rate than over the oceans in both hemispheres.
Not exact matches
The experiments showed that, if Antarctica's
land height is reduced,
temperatures in the
region respond more strongly to a rise in the concentration of greenhouse gases
over the continent.
Thus, small changes of global average air
temperature are associated with very large changes in some
regions, particularly
over land, at mid - to high latitudes, in mountain
regions.
Notably, by studying the clouds
over a limited
region of the atmosphere
over the eastern Pacific Ocean, as well as
over nearby
land masses, the team at the university's International Pacific Research Centre have declared themselves firmly in the latter camp, warning that, as
temperatures continue to creep steadily upwards
over the next 100 years, cloud cover will become thinner and more - sparse, thereby serving to exacerbate the problem.
While consistent with the IPCC assessments of historical warming, it lacks coverage of much of the fast - warming Arctic
region and blends surface air
temperatures over land with slower - warming sea surface
temperatures over the ocean.
Climate Claim: «Arctic heat,
Temperatures over land are rising faster in the Arctic than in other
regions of the planet.
Along with increasing
temperatures over all
regions of the U.S., the pattern of precipitation change is one of general increases at higher northern latitudes and drying in the tropics and subtropics
over land.
Analyzes LST from the thermal band of a Landsat image and produce a high - resolution surface
temperature map (30 m) for the lowlands of the Jambi province in Sumatra (Indonesia), a
region which suffered large
land transformation towards oil palm and other cash crops
over the past decades
To test this, I would like to compute the trend integrated
over latitude bands («zonally averaged») for
regions that are
land - only for the various
temperature field reconstruction methods.
As a result, only 1 out of 7 Global or
Land / Ocean (ie, global less polar
regions)
temperature indices shows a negative trend
over that period (HadCRUT4 -0.002 + / - 0.059 C / decade).
By 2090, average annual air
temperatures are projected to rise across the entire Arctic
region by roughly 3 to 5 °C
over land areas and up to 7 °C
over the oceans.
Sampling biases are easy to see in the difference between the GISTEMP surface
temperature data product (which extrapolates
over the Arctic
region) and the HADCRUT3v product which assumes that Arctic
temperature anomalies don't extend past the
land.
To produce, from incident Energy within Infrared (
region) Radiation (IrR) such a rise in median
temperature that could present a total rise allowing for this current ~ 0.7 degree C residual (after Conduction / Convection), with notice of the actual materials involved, would require more ENERGY to be presented within IrR than can be either observed, or survived by
land surface life (
over 90 % saline water) as it is seen bio-formed.