Sentences with phrase «rss temperature»
However, satellite records, such as the RSS temperature trends at varying altitudes, agree with the radiosondes that the warming differential is not occurring: they show that not only absolute temperatures but also warming rates decline with altitude.
https://www.aps.org/
Data related to the solar climate driver is discussed and the solar cycle 22 low in the neutron count (high solar activity) in 1991 is identified as a solar activity millennial peak and correlated with the millennial peak - inversion point — in the RSS temperature trend in about 2003.
This month's RSS temperature shows a sharp uptick to warmer worldwide weather than for two years, shortening the period without warming by a month to 18...
Note by the way that each «skeptic» analysis relies on either HadCRUT or UAH / RSS temperature data, which are either known to or very possibly have a cool bias.
As RSS temperature continues its retreat from the natural ENSO - caused spike, the warming hiatus will resume and extend.
The 2007 RSS satellite temperature was 0.04 deg C higher than the 1987 RSS temperature and there was substantial divergence between Scenario B in 2007 and the RSS satellite temperature (and even the GISS temperature surface temperature series).
See the UAH and RSS temperature series and the Argos buoy oceanic temperatures.
«Scientists at the University of Washington -LCB- UW -RCB-, developed a method for quantifying the stratospheric contribution to the satellite record of tropospheric temperatures and applied an adjustment to the UAH and RSS temperature record that attempts to remove the satellite contribution (cooling influence) from the middle troposphere record.
The same can be said re the TLT UAH and RSS temperatures.
Not exact matches
To account for changes in observation times, the RSS group used a number of different approaches and models to try and estimate what the temperature would have been if the measurement time remained constant.
The figure above shows a comparison between the new RSS record and the global surface temperature record produced by NASA.
The new RSS v4 TLT record makes a number of changes to the time of observation correction, as well as corrections for the change in instruments that measure temperature from microwave sounding units (MSU) to advanced microwave sounding units (AMSU) sensors, which occurred around the year 2000.
Figure 4: Influence of exogenous factors on global temperature for GISS (blue) and RSS data (red).
Christy was in fact included; the ensuing period must have been uncomfortable for him, as it included a major correction to his UAH troposhere temperature record, and the ascendant credibility of the competing tropospheric analysis from RSS.
After removing the influence of temperatures above 6 miles in altitude, the University of Washington, using data analyzed by the UAH and RSS, calculated temperature departures from the 1981 — 2010 average to be 1.30 °F and 1.19 °F, respectively, both highest in the record.
After removing the influence of temperatures above 6 miles in altitude, the University of Washington, using data analyzed by the UAH and RSS, calculated temperature departures from the 1981 — 2010 average to be 1.04 °F and 0.94 °F, respectively, both second highest in the record.
After removing the influence of temperatures above 6 miles in altitude, the University of Washington, using data analyzed by the UAH and RSS, calculated temperature departures from the 1981 - 2010 average to be 1.03 °F (highest) and 0.92 °F (second highest), respectively.
After removing the influence of temperatures above 6 miles in altitude, the University of Washington, using data analyzed by the UAH and RSS, calculated temperature departures from the 1981 — 2010 average to be 0.88 °F and 0.77 °F, respectively, second and third highest in the record, respectively.
After removing the influence of temperatures above 6 miles in altitude, the University of Washington, using data analyzed by the UAH and RSS, calculated temperature departures from the 1981 — 2010 average to be 1.13 °F (highest) and 1.06 °F (second highest), respectively.
So am I right in assuming that the RSS data is likely to break the»98 peak temperature record sometime around April 2016?
The first graph, titled «various temperature measurements» has lines for rss and uah data which look nothing at all like those published from uah or rss.
Watts» attempted explanation of the differences between histograms generated from NASA GISS surface temperature data vs. those generated from HadCRUT, RSS, and UAH data is a particularly entertaining example.
And RSS have posted for December with a temperature anomaly at +0.59 ºC.
Measurements of global temperature (RSS, black curve) compared to the extreme lower (green curve) and upper (red curve) forecasts for global temperature by the IPCC First Assessment Report (1990).
RE: 15 Victor: As if most of us would not know that UAH and RSS do not report surface temperatures.
But despite that which part of Fig. 3: Measurements of global temperature (RSS, monthly values, last data point October 2016) compared to the forecast for global temperature til 2030 by Vahrenholt & Lüning (2012: Figure 73).
Sorry I should have been more precise in my previous post and given UAH SH land temperature anomalies: Jul: +0.26 C Aug: -0.56 C Sep: +0.24 C http://vortex.nsstc.uah.edu/data/msu/t2lt/uahncdc.lt I don't have the RSS figures to hand but they won't be very different in any event.
The point about heating (adding energy) vs warming (temperatures going up) is a very good one — it might help if the scientists involved with the major temperature series people look at (GISS, RSS, etc) also produced a global surface energy change index that accounted for things like melting ice, which absorb heat without raising temperatures.
As far as I know, the 2 main sources of satellite data for temperatures in the lower troposphere are UAH and RSS, and they vastly differ in their trends in the tropical troposphere, with RSS's trend being twice as warming as the UAH trend, although they show the same trends in the remaining troposphere, resulting in a Global difference of only 0.035 C / d trend.
I however was able to easily test the robustness of their calculations to changes in the satellite data source (RSS vs. UAH) or to updates in the surface temperature products.
On your further claim that the RSS data is consistent with the models, please provide us with GISS plots of the tropospheric and lower stratospheric layer average temperature data trends (corresponding to their weighting functions TLS; TTS; TMT and TLT).
If one plots the records from GISS, HADCru, RSS and UAH; GISS is the outlier, and three of the four primary global temperature measuring systems show a decrease over the most recent six years and a downward trend over the past decade; not that this establishes a significant trend yet.
If you're talking about global mean temperature I would advise you to compare the projections of the IPCC to the actual measurements of GISS as well as HadCRUT, RSS MSU, and UAH MSU measured data.
The way to transform it into temperatures is unclear enough as to give temperature trends from UAH and RSS that differ in 0.035 C per decade.
Yet RSS states that one of their goals is «to provide a complete and independent analysis as a check of these [satellite temperature] important results.»
John Wegner wrote: > The RSS MSU Lower Troposphere temperature trend might now > be going down versus 1998.
Figure 3: Comparison of temperature anomalies from RSS satellite data (red) over the Moscow region (35ºE — 40ºE, 54ºN — 58ºN) versus Moscow station data (blue).
There are 5 best - known global temperature estimates, surface data from GISS, HadCRU, and NCDC, and lower - troposphere estimates from RSS and UAH.
And other estimates of tropospheric temperature (Fu, Vinnikov) are even higher than RSS.
(Note: UAH and RSS data does not exist before 1980) It is quite obvious that global temperatures have been increasing since 1880 and at a faster rate in the past two decades!
1 (kim) Watch the Argos bouys for dropping sea temperatures, the RSS and UAH satellite thermometers for cooling tropospheric temperatures, Bob B's links for sea level dropping, and cryosphere for polar ice anomalies.
But, if we take 0.28 °C / dec for land, the difference with RSS TLT temperature is greater.
GISS, HadCRU, RSS, and UAH represent the four organizations that publish online the global average temperature estimates.
«All four major global temperature tracking outlets (Hadley, NASA's GISS, UAH, RSS) have released updated data.
UAH, RSS and HadCRUt all show either flattening or a downtrend in temperatures, but you chose Gistemp — that's cherry picking.
RSS are first off the mark posting a TLT anomaly for November with a temperature anomaly at +0.55 ºC.
So, big news this week: The latest update to the RSS lower troposphere temperatures (Zeke at Carbon Brief, J. Climate paper) and, of course, more chatter about the red team / blue team concept.
Update 2/27: The graph for HadCRUT (above), as well as the linked graphs for RSS and UAH are generated month - to - month; the temperature declines span a full 12 months of data.
I went ahead and plotted the normalized (HadCRU + GISS) / 2 --(RSS + UAH) / 2 to show the variance between satellite and land - based temperatures.
Although there is no possibility of a calibration standard for global temperature, the MSU (i.e. RSS and UAH) measurements are almost global in coverage and the radiosondes provide independent measurements for comparison.