GISS Surface Temperature Analysis (GISTEMP)

The GISS Surface Temperature Analysis (GISTEMP) is an estimate of global surface temperature change. Graphs and tables are updated around the middle of every month using current data files from NOAA GHCN v3 (meteorological stations), ERSST v4 (ocean areas), and SCAR (Antarctic stations), combined as described in our December 2010 publication (Hansen et al. 2010). These updated files incorporate reports for the previous month and also late reports and corrections for earlier months.

News

July 19, 2016: The Graphs page has been redesigned to use interactive features like moving/scaling the image or zooming on a specific time interval. Running-means smoothing was replaced by lowess smoothing.

A related Plotter page may be used to graphically display individual columns of the table data, overlaid by an adjustable smoothing to examine the medium- and long-term trends.

See the article index for a list of NASA news and features related to the GISTEMP analysis.

See the Updates to Analysis page for detailed update information.

Contacts

Before contacting us, please check if your question about the GISTEMP analysis is answered in the FAQ.

If the FAQ does not answer your question, please address your inquiry to Dr. Reto Ruedy.

Other researchers participating in the GISTEMP analysis are Avi Persin, Dr. Makiko Sato, and Dr. Ken Lo. This research was initiated by Dr. James E. Hansen, now retired. It is currently led by Dr. Gavin Schmidt.

Citation

When referencing the GISTEMP data provided here, please cite both this webpage and also our most recent scholarly publication about the data. In citing the webpage, be sure to include the date of access.

+ GISTEMP Team, 2016: GISS Surface Temperature Analysis (GISTEMP). NASA Goddard Institute for Space Studies. Dataset accessed 20YY-MM-DD at http://data.giss.nasa.gov/gistemp/.
+ Hansen, J., R. Ruedy, M. Sato, and K. Lo, 2010: Global surface temperature change, Rev. Geophys., 48, RG4004, doi:10.1029/2010RG000345.

Background of GISS analysis method

The basic GISS temperature analysis scheme was defined in the late 1970s by James Hansen when a method of estimating global temperature change was needed for comparison with one-dimensional global climate models. The scheme was based on the finding that the correlation of temperature change was reasonably strong for stations separated by up to 1200 km, especially at middle and high latitudes. This fact proved sufficient to obtain useful estimates for global mean temperature changes.

Temperature analyses were carried out prior to 1980, notably those of Murray Mitchell, but most covered only 20-90°N latitudes. Our first published results (Hansen et al. 1981) showed that, contrary to impressions from northern latitudes, global cooling after 1940 was small, and there was net global warming of about 0.4°C between the 1880s and 1970s.

The early analysis scheme went through a series of enhancements that are listed and illustrated on the History Page.

Documentation and assessment of results

The analysis method was fully documented in Hansen and Lebedeff (1987), including quantitative estimates of the error in annual and 5-year mean temperature change. This was done by sampling at station locations a spatially complete data set of a long run of a global climate model, which was shown to have realistic spatial and temporal variability. This however only addresses the error due to incomplete spatial coverage of measurements.

As there are other potential sources of error, such as urban warming near meteorological stations, many other methods have been used to verify the approximate magnitude of inferred global warming. These methods include inference of surface temperature change from vertical temperature profiles in the ground (bore holes) at many sites around the world, rate of glacier retreat at many locations, and studies by several groups of the effect of urban and other local human influences on the global temperature record. All of these yield consistent estimates of the approximate magnitude of global warming, which reached about 0.8°C in 2010, twice the magnitude reported in 1981.

Further affirmation of the reality of the warming is its spatial distribution, which has largest values at locations remote from any local human influence, with a global pattern consistent with that expected for response to global climate forcings (larger in the Northern Hemisphere than the Southern Hemisphere, larger at high latitudes than low latitudes, larger over land than over ocean).

An updated documentation (Hansen et al. 2010) compares alternative analyses and addresses questions about perception and reality of global warming; various choices for the ocean data are tested; it is also shown that global temperature change is sensitive to estimated temperature change in polar regions, where observations are limited. A multi-year smoothing is applied to fully remove the annual cycle and improve information content in temperature graphs. Despite large year-to-year fluctuations associated with the El Niño-La Niña cycle of tropical ocean temperature, the conclusion could be made that global temperature continued to rise rapidly in the 21st century, new record heights being reached in every decade.

GISS homogenization (urban adjustment)

One of the improvements — introduced in 1998 — was the implementation of a method to address the problem of urban warming: The urban and peri-urban (i.e., other than rural) stations are adjusted so that their long-term trend matches that of the mean of neighboring rural stations. Urban stations without nearby rural stations are dropped. This preserves local short-term variability without affecting long term trends. Originally, the classification of stations was based on population size near that station; the current analysis uses satellite-observed night lights to determine which stations are located in urban and peri-urban areas.

We maintain a running record of any modifications made to the analysis, available on our Updates to Analysis page.

Graphs and tables are updated around the middle of every month using the current adjusted GHCN and SCAR files. The new files incorporate reports for the previous month as well as late reports and corrections for earlier months.

Programs used in the GISTEMP analysis and documentation on their use are available for download. The programs assume a Unix-like operating system and require familiarity with FORTRAN, C and Python for installation and use.

News, Features and Special Topics

Further reading about the GISTEMP analysis is available in the following:

+ NASA news and features related to the GISTEMP analysis
+ Frequently Asked Questions, and Answers
+ The Elusive Absolute Surface Air Temperature

Table Data: Global and Hemispheric Monthly Means and Zonal Annual Means

Plain text files in tabular format of temperature anomalies, i.e. deviations from the corresponding 1951-1980 means.

Combined Land-Surface Air and Sea-Surface Water Temperature Anomalies (Land-Ocean Temperature Index, LOTI)

  • Global-mean monthly, seasonal, and annual means, 1880-present, updated through most recent month: TXT, CSV
  • Northern Hemisphere-mean monthly, seasonal, and annual means, 1880-present, updated through most recent month: TXT, CSV
  • Southern Hemisphere-mean monthly, seasonal, and annual means, 1880-present, updated through most recent month: TXT, CSV
  • Zonal annual means, 1880-present, updated through most recent complete year: TXT, CSV

Note: LOTI provides a more realistic representation of the global mean trends than dTs below; it slightly underestimates warming or cooling trends, since the much larger heat capacity of water compared to air causes a slower and diminished reaction to changes; dTs on the other hand overestimates trends, since it disregards most of the dampening effects of the oceans that cover about two thirds of the earth's surface.

Global Mean Estimates Based on Land-Surface Air Temperature Anomalies Only (Meteorological Station Data, dTs)

  • Global-mean monthly, seasonal, and annual means, 1880-present, updated through most recent month: TXT, CSV
  • Northern Hemisphere-mean monthly, seasonal, and annual means, 1880-present, updated through most recent month: TXT, CSV
  • Southern Hemisphere-mean monthly, seasonal, and annual means, 1880-present, updated through most recent month: TXT, CSV
  • Zonal annual means, 1880-present, updated through most recent complete year: TXT, CSV

Gridded Monthly Maps of Temperature Anomaly Data

Users interested in the entire gridded surface air temperature anomaly data may download netcdf files containing selected series on a regular 2°×2° grid or the basic SBBX binary files. Note: These files are large.

Compressed NetCDF files (regular 2x2 degree grid)

Compressed basic subbox grid series (equal-area grid)

Also available are various FORTRAN programs and instructions to create (time series of) regular gridded anomaly maps from the basic files. Be sure to read the README file for discussion of the files' binary format.

SCAR data used in analysis:

References

Please see the GISTEMP references page for citations to publications related to this research. Copies of many of our papers are available in the GISS publications database.