Our Warming World - how much it got warmer in Israel

נשלח 8 בפבר׳ 2014, 11:47 על ידי Sustainability Org   [ עודכן 8 בפבר׳ 2014, 12:02 ]
NewScientist, 28 January 2014

The heat is on for the planet as a whole, but what has been happening where you live? Click on the map to find out, or enter a location in the search box at top right.

The initial map shows average temperatures over the past 20 years; use the drop-down menu to see maps for earlier periods.

Example: Tel-Aviv, Israel

The average temperature in Tel-Aviv during 2010 was 2.40C above the 1951-1980 average. 

The five-year-average temperature in Tel-Aviv during 2010 was 1.120C above the 1951-1980 average.

Press the image to enlarge the graph for Tel-Aviv, Israe:

how much it got warmer in Israel


This interactive graphic displays results from a global analysis of surface temperatures from 1880 to the present called GISTEMP, produced by a team at NASA’s Goddard Institute for Space Studies in New York City.

The graphs and maps all show changes relative to average temperatures for the three decades from 1951 to 1980, the earliest period for which there was sufficiently good coverage for comparison. This gives a consistent view of climate change across the globe. To put these numbers in context, the NASA team estimates that the global average temperature for the 1951-1980 baseline period was about 14 °C.

The analysis uses land-based temperature measurements from some 6000 monitoring stations in the Global Historical Climatology Network, plus records from Antarctic stations recorded by the Scientific Committee on Antarctic Research. Temperatures at the ocean surface come from a measurements made by ships from 1880 to 1981, plus satellite measurements from 1982 onwards.

Surface temperature measurements are not evenly distributed across the globe. So the NASA team interpolates from the available data to calculate average temperatures for cells in a global grid, with each cell measuring 2 degrees latitude by 2 degrees longitude. The analysis extrapolates up to 1200 kilometres from any one station, which allows for more complete coverage in the Arctic – where monitoring stations are sparsely distributed, but where the warming trend is especially strong.

The NASA team also corrects the data to remove local heating caused by dense human settlements – a phenomenon known as the urban heat island effect. Temperature stations in urban areas are identified by referring to satellite images of the light they give off at night, and their records are adjusted to reflect the average trend of nearby rural stations.

Update, 4 April 2013: In some locations, monitoring stations were very sparsely distributed for parts of the historical record. When the number of stations in a given region is very low, reporting errors from individual stations may distort the temperature data. For example, the West African nation of Cameroon appears to have been unusually warm in the 1920s and 30s, but the records used to estimate the temperature for this area during that period came from just six stations. At such locations, a detailed investigation into the history of the stations involved would be required to draw specific conclusions about the historical temperature record.


Interactive built by Chris Amico and Peter Aldhous.

NASA GISTEMP analysis by James Hansen, Reto Ruedy, Makiko Sato and Ken Lo. Thanks to Robert Schmunk for help in obtaining data.

First published: 15 January 2013; Updated 28 January 2014

More: Read our climate change topic guide and learn about the data and graphic.