From Science Matters
By Ron Clutz
Clintel Presentation by John Christy https://clintel.org/new-presentation-by-john-christy-models-for-ar6-still-fail-to-reproduce-trends-in-tropical-troposphere/
Ross McKitrick reports on a new study confirming the chart above. His Financial Post article is The important climate study you won’t hear about. Excerpts in italics with my bolds and added images
The study is Mid-Tropospheric Layer Temperature Record Derived From Satellite Microwave Sounder Observations With Backward Merging Approach by Cheng-Zhi Zou at JGR Atmospheres.
In the end the two (satellite) series were similar but RSS has consistently exhibited more warming than UAH. Then a little more than a decade ago, the group at NOAA headed by Zou produced a new data product called STAR (Satellite Applications and Research). They used the same underlying microwave retrievals but produced a temperature record showing much more warming than either UAH or RSS, as well as all the weather balloon records. It came close to validating the climate models, although in my paper with Christy we included the STAR data in the satellite average and the models still ran too hot. Nonetheless it was possible to point to the coolest of the models and compare them to the STAR data and find a match, which was a lifeline for those arguing that climate models are within the uncertainty range of the data.
Until now. In their new paper Zou and his co-authors rebuilt the STAR series based on a new empirical method for removing time-of-day observation drift and a more stable method of merging satellite records. Now STAR agrees with the UAH series very closely — in fact it has a slightly smaller warming trend. The old STAR series had a mid-troposphere warming trend of 0.16 degrees Celsius per decade, but it’s now 0.09 degrees per decade, compared to 0.1 in UAH and 0.14 in RSS. For the troposphere as a whole they estimate a warming trend of 0.14 C/decade.
Figure 14 Global mean Temperature Total Troposphere (TTT, TMT adjusted by TLS) time series (blue lines) and its smoothed time series (red lines). The locally weighted regression method (Cleveland, 1979) is used for the smoothing. Both TMT and TLS for TTT generation are from STAR V5.0.
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