Global humidity data at very high altitudes in the stratosphere and above.
Not exact matches
In the central United States, for example, observational
data indicate that rainfall increased, surface air temperature decreased, and surface
humidity increased during the summer over the course of the 20th century concurrently with increases in both agricultural production and
global GHG emissions.
However, the available
data now show evidence for
global increases in upper - tropospheric specific
humidity over the past two decades (Figure TS.8).
Gather Detailed
Global Data: The first step is an unprecedented effort to aggregate highly localized historical data across key social, economic, and climate indicators, including sea - level rise, temperature, precipitation, and humid
Data: The first step is an unprecedented effort to aggregate highly localized historical
data across key social, economic, and climate indicators, including sea - level rise, temperature, precipitation, and humid
data across key social, economic, and climate indicators, including sea - level rise, temperature, precipitation, and
humidity.
A slight change of ocean temperature (after a delay caused by the high specific heat of water, the annual mixing of thermocline waters with deeper waters in storms) ensures that rising CO2 reduces infrared absorbing H2O vapour while slightly increasing cloud cover (thus Earth's albedo), as evidenced by the fact that the NOAA
data from 1948 - 2008 shows a fall in
global humidity (not the positive feedback rise presumed by NASA's models!)
It is of course possible that the observed
humidity trends from the NCEP
data are simply the result of problems with the instrumentation and operation of the
global radiosonde network from which the
data are derived.
«Working with
data pertaining to 7450 cardiovascular - related deaths that occurred within Budapest, Hungary, between 1995 and 2004 — where the deceased were «medico - legally autopsied» — Toro et al. looked for potential relationships between daily maximum, minimum and mean temperature, air
humidity, air pressure, wind speed,
global radiation and daily numbers of the heart - related deaths... scientists report and restate their primary finding numerous times throughout their paper, writing that (1) «both the maximum and the minimum daily temperatures tend to be lower when more death cases occur in a day,» (2) «on the days with four or more death cases, the daily maximum and minimum temperatures tend to be lower than on days without any cardiovascular death events,» (3) «the largest frequency of cardiovascular death cases was detected in cold and cooling weather conditions,» (4) «we found a significant negative relationship between temperature and cardiovascular mortality,» (5) «the analysis of 6 - hour change of air pressure suggests that more acute or chronic vascular death cases occur during increasing air pressure conditions (implying cold weather fronts),» (6) «we found a high frequency of cardiovascular death in cold weather,» (7) «a significant negative relationship was detected between daily maximum [and] minimum temperature [s] and the number of sudden cardiovascular death cases,» and (8) «a significant negative correlation was detected between daily mean temperature and cardiovascular mortality.»
Also,
global weather models quickly spin up their own
humidity fields and lose the signal from assimilated
humidity data.
A)- Cloud cover is reduced B)- Winds are reduced C)- Higher temperature water upwells D)- Upwelling is reduced or stopped E) Surface winds are reduced while winds aloft are strong enough to carry away
humidity and prevent clouds and precipitation The occurences of el Nino seem to affect the
global temperature even more than adjusting
data or pretending tree rings are ancient thermometers.