July Temperature Recovers Slightly from Previous Free-Fall
NOTE: This is the sixteenth monthly update with our new Version 6.0 dataset. Differences versus the old Version 5.6 dataset are discussed here. Note we are now at “beta5” for Version 6, and the paper describing the methodology is still in peer review.
The Version 6.0 global average lower tropospheric temperature (LT) anomaly for July 2016 is +0.39 deg. C, up a little from the June, 2016 value +0.34 deg. C (click for full size version):
The global, hemispheric, and tropical LT anomalies from the 30-year (1981-2010) average for the last 19 months are:
YEAR MO GLOBE NHEM. SHEM. TROPICS
2015 01 +0.30 +0.44 +0.15 +0.13
2015 02 +0.19 +0.34 +0.04 -0.07
2015 03 +0.18 +0.28 +0.07 +0.04
2015 04 +0.09 +0.19 -0.01 +0.08
2015 05 +0.27 +0.34 +0.20 +0.27
2015 06 +0.31 +0.38 +0.25 +0.46
2015 07 +0.16 +0.29 +0.03 +0.48
2015 08 +0.25 +0.20 +0.30 +0.53
2015 09 +0.23 +0.30 +0.16 +0.55
2015 10 +0.41 +0.63 +0.20 +0.53
2015 11 +0.33 +0.44 +0.22 +0.52
2015 12 +0.45 +0.53 +0.37 +0.61
2016 01 +0.54 +0.69 +0.39 +0.84
2016 02 +0.83 +1.17 +0.50 +0.99
2016 03 +0.73 +0.94 +0.52 +1.09
2016 04 +0.71 +0.85 +0.58 +0.94
2016 05 +0.55 +0.65 +0.44 +0.72
2016 06 +0.34 +0.51 +0.17 +0.38
2016 07 +0.39 +0.48 +0.30 +0.48
The July pause in cooling as La Nina approaches also happened during the 1997-98 El Nino. I’ve examined a daily time series of satellite data for 2016, and this behavior is due to intra-monthly variations in temperature, probably mostly driven by episodic deep convective activity in the tropics. Depending upon how the calendar months line up with the resulting peaks and troughs in temperature, the result is a rather irregular monthly temperature time series. It can be viewed not so much as a variation in radiative cooling to outer space, but a variation in convective heating of the troposphere.
To see how we are now progressing toward a record warm year in the satellite data, the following chart shows the average rate of cooling for the rest of 2016 that would be required to tie 1998 as warmest year in the 38-year satellite record:
Given the behavior of previous El Ninos as they transitioned to La Nina, at this point I would say that it is unlikely that the temperatures will remain above that projection for the rest of the year, and so it is unlikely that 2016 will be a record warm year in the satellite data. Only time will tell.
The “official” UAH global image for July, 2016 should be available in the next several days here.
The new Version 6 files (use the ones labeled “beta5”) should be updated soon, and are located here:
Lower Troposphere: http://vortex.nsstc.uah.edu/data/msu/v6.0beta/tlt/uahncdc_lt_6.0beta5.txt
Mid-Troposphere: http://vortex.nsstc.uah.edu/data/msu/v6.0beta/tmt/uahncdc_mt_6.0beta5.txt
Tropopause: http://vortex.nsstc.uah.edu/data/msu/v6.0beta/ttp/uahncdc_tp_6.0beta5.txt
Lower Stratosphere: http://vortex.nsstc.uah.edu/data/msu/v6.0beta/tls/uahncdc_ls_6.0beta5.txt