Not exact matches
According to NOAA data analyzed by the Rutgers
Global Snow Lab, for the winter season, the contiguous U.S. snow cover extent was 62,000 square miles below the 1981 - 2010 average; this was the 23rd largest (27th smallest) winter snow cover extent for the contiguous U.S. and the smallest since the winter of 2011
Snow Lab, for the winter season, the contiguous U.S.
snow cover extent was 62,000 square miles below the 1981 - 2010 average; this was the 23rd largest (27th smallest) winter snow cover extent for the contiguous U.S. and the smallest since the winter of 2011
snow cover
extent was 62,000 square miles below the 1981 - 2010 average; this was the 23rd largest (27th smallest) winter
snow cover extent for the contiguous U.S. and the smallest since the winter of 2011
snow cover
extent for the contiguous U.S. and the smallest since the winter of 2011/12.
According to data from NOAA analyzed by the Rutgers
Global Snow Lab, the Northern Hemisphere snow cover extent during April was 890,000 square miles below the 1981 — 2010 aver
Snow Lab, the Northern Hemisphere
snow cover extent during April was 890,000 square miles below the 1981 — 2010 aver
snow cover
extent during April was 890,000 square miles below the 1981 — 2010 average.
Synopsis: The planet has cooled down to the
extent that it
snows even in July and people are dying of mysterious causes, while the
global economy is on the v...
There can / will be local and regional, latitudinal, diurnal and seasonal, and internal variability - related deviations to the pattern (in temperature and in optical properties (LW and SW) from components (water vapor, clouds,
snow, etc.) that vary with weather and climate), but the
global average effect is at least somewhat constrained by the
global average vertical distribution of solar heating, which requires the equilibrium net convective + LW fluxes, in the
global average, to be sizable and upward at all levels from the surface to TOA, thus tending to limit the
extent and magnitude of inversions.)
Figure 3: National
Snow and Ice Data Center (NSIDC) Antarctic, Arctic, and
global (sum of the two) sea ice
extents with linear trends.
The influence of anthropogenic forcing has also been detected in various physical systems over the last 50 years, including increases in
global oceanic heat content, increases in sea level, shrinking of alpine glaciers, reductions in Arctic sea ice
extent, and reductions in spring
snow cover (Hegerl et al., 2007).
Figure 4: Seasonal and annual (with a 12 - month running average) northern hemisphere
snow cover extent (data from Rutgers University Global Snow
snow cover
extent (data from Rutgers University
Global Snow Snow Lab)
Does anyone track
global snow / ice
extent and relate it to albedo?
Abrupt and severe temperature shifts have occurred on occasion in the past, typically separated by hundreds of years or more, but shifts of this magnitude that are
global in
extent have almost always occurred during glacial eras, when the
extent of
snow and ice allowed for great changes in feedback in response to only modest signals.
Whether it's a killer winter in South America, increased
snow cover globally, record Arctic sea ice recovery, recovering glaciers in the Alps, record high sea ice
extent in Antarctica, extreme cold in southeast Europe, or 5 consecutive colder than normal European winters, just to name a few, the ominous signs of
global cooling are compounding rapidly.
The Rutgers University
Global Snow Lab has daily, weekly and monthly data for snow extent as well as data for the monthly departure from aver
Snow Lab has daily, weekly and monthly data for
snow extent as well as data for the monthly departure from aver
snow extent as well as data for the monthly departure from average.
According to data from NOAA analyzed by the Rutgers
Global Snow Lab, the Northern Hemisphere snow cover extent during December was 17.5 million square miles, which is 550,000 square miles above the 1981 — 2010 aver
Snow Lab, the Northern Hemisphere
snow cover extent during December was 17.5 million square miles, which is 550,000 square miles above the 1981 — 2010 aver
snow cover
extent during December was 17.5 million square miles, which is 550,000 square miles above the 1981 — 2010 average.
Global sea level has risen, and there have been large reductions in
snow - cover
extent, glaciers, and sea ice.
For example, additional evidence of a warming trend can be found in the dramatic decrease in the
extent of Arctic sea ice at its summer minimum (which occurs in September), decrease in spring
snow cover in the Northern Hemisphere, increases in the
global average upper ocean (upper 700 m or 2300 feet) heat content (shown relative to the 1955 — 2006 average), and in sea - level rise.
The report tracks patterns, changes, and trends of the
global climate system, including: greenhouse gases; temperatures throughout the atmosphere, ocean, and land; cloud cover; sea level; ocean salinity; sea ice
extent; and
snow cover.
Advance research on the interactions between arctic sea ice and
global physical systems such
snow cover
extent, ocean and atmospheric circulation patterns, and mid-latitude effects.
Northern hemisphere winter
snow extent is growing in size, Ruters University Global Snow
snow extent is growing in size, Ruters University
Global Snow Snow Lab.
Washington Post: Data from Rutgers University
Global Snow Lab show the fall Northern Hemisphere snow cover extent exceeded 22 million square kilometers, exceeding the previous greatest fall extent recorded in 1
Snow Lab show the fall Northern Hemisphere
snow cover extent exceeded 22 million square kilometers, exceeding the previous greatest fall extent recorded in 1
snow cover
extent exceeded 22 million square kilometers, exceeding the previous greatest fall
extent recorded in 1976.