UAH: 2017 was third warmest year in satellite record
From the University of Alabama, Huntsville.
Global Temperature Report: December 2017
Global climate trend since Nov. 16, 1978: +0.13 C per decade
December temperatures (preliminary)
Global composite temp.: +0.41 C (about 0.74 degrees Fahrenheit) above 30-year average for December.
Northern Hemisphere: +0.50 C (about 0.90 degrees Fahrenheit) above 30-year average for December.
Southern Hemisphere: +0.33 C (about 0.59 degrees Fahrenheit) above 30-year average for December.
Tropics: +0.26 C (about 0.47 degrees Fahrenheit) above 30-year average for November.
November temperatures (revised):
Global Composite: +0.36 C above 30-year average
Northern Hemisphere: +0.33 C above 30-year average
Southern Hemisphere: +0.38 C above 30-year average
Tropics: +0.26 C above 30-year average
(All temperature anomalies are based on a 30-year average (1981-2010) for the month reported.)
Notes on data released Jan. 3, 2018:
Globally averaged, 2017 was the third warmest year in the 39-year satellite temperature record, according to Dr. John Christy, director of the Earth System Science Center (ESSC) at The University of Alabama in Huntsville. The average temperature in the lower troposphere over the globe in 2017 was 0.375 C (about 0.67 degrees Fahrenheit) warmer than seasonal norms.
Warmest years (global) 1979 to 2017
2016 +0.513 C
1998 +0.484 C
2017 +0.375 C
2010 +0.336 C
Since the satellite-based global temperature record began in November 1978, the fastest warming region on Earth has been around the North Pole. The troposphere over the Arctic Ocean has warmed at the rate of 0.28 C per decade, or more than twice the global rate of warming. By comparison, the Antarctic continent is warming at the rate of about 0.07 C per decade, while the air above the ocean around the Antarctic is cooling about 0.04 C per decade. (The satellite instruments that collect temperature data do not see all the way to the poles. The satellite orbits miss about the top five degrees latitude in both the Arctic and the Antarctic.)
The continental U.S. (both contiguous 48 and the continental 49) have been warming at the rate of about 0.18 C (about 0.32 degrees F) per decade. That means that in the 39 years since satellite instruments started collecting atmospheric temperature data, the air temperature above the U.S. has warmed an average of about 1.25 degrees Fahrenheit.
Compared to seasonal norms, the coldest spot on the globe in December was near Timmins, in eastern Ontario. Temperatures there were 3.51 C (about 6.32 degrees Fahrenheit) cooler than seasonal norms.
Compared to seasonal norms, the warmest place on Earth in December was near Qambo, in the Eastern Tibet autonomous region of China. Tropospheric temperatures there averaged 5.27 C (about 9.49 degrees Fahrenheit) warmer than seasonal norms.
Christy and Dr. Richard McNider, a professor emeritus at UAH, recently published in the Asia-Pacific Journal of Atmospheric Sciences a study that mathematically removed from the satellite temperature record the effects of volcanic eruptions and of El Nino and La Nina Pacific Ocean heating and cooling events. This was done in an attempt to identify that part of the overall warming during the 39-year period that might be attributed to human influences. The 0.155 C per decade trend reported in that study differs from the 0.13 C per decade trend reported here in the Global Temperature Report. That is because this most recent research in the APJAS was done using an earlier version of the satellite microwave sounding unit dataset. That dataset was revised and updated, and the revisions published (Spencer et al., APJAS 2017) while the research looking at the effects of natural climatic events was under peer review.
As part of an ongoing joint project between UAH, NOAA and NASA, Christy and Dr. Roy Spencer, an ESSC principal scientist, use data gathered by advanced microwave sounding units on NOAA and NASA satellites to get accurate temperature readings for almost all regions of the Earth. This includes remote desert, ocean and rain forest areas where reliable climate data are not otherwise available.
The satellite-based instruments measure the temperature of the atmosphere from the surface up to an altitude of about eight kilometers above sea level. Once the monthly temperature data are collected and processed, they are placed in a “public” computer file for immediate access by atmospheric scientists in the U.S. and abroad.
The complete version 6 lower troposphere dataset is available here:
Archived color maps of local temperature anomalies are available on-line at:
Neither Christy nor Spencer receives any research support or funding from oil, coal or industrial companies or organizations, or from any private or special interest groups. All of their climate research funding comes from federal and state grants or contracts.
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