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State of the Climate
Global Analysis
November 2004

National Oceanic and Atmospheric Administration

National Climatic Data Center

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Global Analysis Report
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Global Analysis Report

Global Highlights:

  • Based on preliminary data, global average combined land and sea surface temperature was warmest on record for both November and September-November 2004
  • September-November temperatures were above average across the eastern half of the U.S., Alaska, Asia and Europe, with below average temperatures in parts of the western U.S., southeastern Australia and the Caribbean
  • Precipitation during September-November was above average over the majority of the U.S., Japan, Scandinavia and the Caribbean, with drier than average conditions in southeastern Asia, western Australia and the northwestern U.S.
  • Sea Surface Temperatures (SSTs) continued to be above normal in the central equatorial Pacific
  

Contents of this Section:
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The data presented in this report are preliminary. Ranks and anomalies may change as more complete data are received and processed. The most current data may be accessed via the Global Surface Temperature Anomalies page.
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Top of Page Introduction

Temperature anomalies for the boreal fall are shown on the two maps* below. The dot map on the left uses anomalies that were calculated from the Global Historical Climatology Network (GHCN) data set of land surface stations using a 1961-1990 base period. The map on the right is a blended product which uses satellite and surface anomaly values of measured land and ocean temperatures as well as SSTs with the base period of 1988-2004. Both maps reflect conditions during boreal fall (September-November) 2004, indicating above average temperatures in the eastern half of the U.S., Japan, the majority of Asia, Europe and Alaska, with cooler than average temperatures over western Mongolia, parts of Australia, the northern Rockies in the U.S., and the Caribbean. During the month of November 2004, above average temperatures occurred in Russia, the United Kingdom, Alaska, the southeastern U.S. and Japan while cooler than average conditions occurred in the western U.S., Algeria and eastern Australia.

*The two maps below utilize different base periods and may reflect different anomaly values of land surface temperatures.
Click here for current month's Temperature Dot map
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 Click here for current month's Temperature blended SSMI map
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Above average sea surface temperatures are also evident in the blended product, above right. Warmer than average conditions covered large parts of the central and eastern Pacific in association with weak El Niño conditions. Sea surface temperatures were also warmer than average in much of the northern Pacific. The combination of anomalous warmth over many land and ocean areas led to a record warm November and boreal fall (September-November) for land surfaces and for the combined land and ocean surfaces as shown in the table a graphs below. Values for the Northern and Southern Hemisphere are also included.

The mean position of upper level ridges of high pressure and troughs of low pressure (depicted by positive and negative 500 millibar height anomalies on the September-November 2004 and November 2004 maps) are generally reflected by areas of positive and negative temperature anomalies at the surface, respectively. For other Global products see the Climate Monitoring Global Products page.


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Top of PageTemperature Rankings and Graphics

Current Month / Seasonal / Year-to-date
November Anomaly Rank Warmest Year on Record
Global
Land
Ocean
Land and Ocean		 +1.26°C (+2.27°F)
+0.50°C (+0.90°F)
+0.73°C (+1.31°F)		 warmest
2nd warmest
warmest		 2nd - 2001(+1.04°C/1.87°F)
1997 (+0.58°C/1.04°F)
2nd - 2001 (+0.64°C/1.15°F)
Northern Hemisphere
Land
Ocean
Land and Ocean		 +1.58°C (+2.84°F)
+0.60°C (+1.08°F)
+1.00°C (+1.80°F)		 warmest
warmest
warmest		 2nd - 2001(+1.42°C/2.56°F)
2nd - 2003 (+0.58°C/1.04°F)
2nd - 2001 (+0.84°C/1.51°F)
Southern Hemisphere
Land
Ocean
Land and Ocean		 +0.31°C (+0.56°F)
+0.43°C (+0.77°F)
+0.41°C (+0.74°F)		 17th warmest
7th warmest
7th warmest		 1990 (+0.90°C/1.62°F)
1941 (+0.70°C/1.26°F)
1941 (+0.61°C/1.10°F)

Click here for Global Land and Ocean Triad plot
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 Click here for Global Hemisphere Triad plot
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September-November Anomaly Rank Warmest Year on Record
Global
Land
Ocean
Land and Ocean		 +0.95°C (+1.71°F)
+0.48°C (+0.86°F)
+0.62°C (+1.12°F)		 warmest
3rd warmest
warmest		 2nd - 2003 (+0.83°C/1.50°F)
1997 (+0.54°C/0.97°F)
2nd - 2003 (+0.61°C/1.10°F)
Northern Hemisphere
Land
Ocean
Land and Ocean		 +1.05°C (+1.89°F)
+0.59°C (+1.06°F)
+0.78°C (+1.40°F)		 warmest
2nd warmest
warmest		 2nd - 2001 (+0.93°C/1.67°F)
2003 (+0.62°C/1.12°F)
2nd - 2003 (+0.74°C/1.33°F)
Southern Hemisphere
Land
Ocean
Land and Ocean		 +0.67°C (+1.21°F)
+0.42°C (+0.76°F)
+0.47°C (+0.85°F)		 3rd warmest
6th warmest
5th warmest		 2002 (+0.73°C/1.31°F)
1997 (+0.55°C/1.00°F)
1997 (+0.58°C/1.04°F)

Click here for Global Land and Ocean Triad plot
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 Click here for Global Hemisphere Triad plot
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January-November Anomaly Rank Warmest Year on Record
Global
Land
Ocean
Land and Ocean		 +0.87°C (+1.57°F)
+0.41°C (+0.74°F)
+0.55°C (+1.00°F)		 3rd warmest
3rd warmest
4th warmest		 1998 (+1.00°C/1.80°F)
1998 (+0.49°C/0.88°F)
1998 (+0.64°C/1.15°F)
Northern Hemisphere
Land
Ocean
Land and Ocean		 +0.96°C (+1.73°F)
+0.50°C (+0.90°F)
+0.68°C (+1.22°F)		 3rd warmest
tied warmest
2nd warmest		 2002 (+1.05°C/1.90°F)
1998 (+0.50°C/0.90°F)
1998 (+0.72°C/1.30°F)
Southern Hemisphere
Land
Ocean
Land and Ocean		 +0.55°C (+1.00°F)
+0.36°C (+0.65°F)
+0.40°C (+0.72°F)		 4th warmest
8th warmest
5th warmest		 1998 (+0.81°C/1.46°F)
1998 (+0.49°C/0.88°F)
1998 (+0.55°C/1.00°F)

Click here for Global Land and Ocean Triad plot
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 Click here for Global Hemisphere Triad plot
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The most current data may be accessed via the Global Surface Temperature Anomalies page.

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Top of Page Precipitation

The maps below represent anomaly values based on the GHCN data set of land surface stations using a base period of 1961-1990. The map to the left is precipitation anomalies measured in millimeters, the map to the right is the percentage of average (1961-1990) precipitation. During September-November 2004, much above average precipitation fell in the southeastern quarter of the U.S., Alaska, Japan, Iceland, and the Caribbean. Below average precipitation was observed in southeastern Asia, northwestern U.S., France, Spain and parts of Brazil. During the month of November 2004, above average precipitation occurred in the southern U.S., the Caribbean, Norway and parts of eastern Australia while drier than average conditions were observed in India, Thailand, northwestern U.S. and western Europe.
Click here for Precipitation Dot map in Millimeters
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 Click here for Percent Precipitation Dot map
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The satellite images below were acquired from SSM/I satellite data using a base period of 1988-2004. The map on the left reflects surface liquid wetness conditions, while the map on the right reflects snow cover conditions for the month. Snow covered areas that are normally snow-free during this month will appear drier than average on the wetness image since a wetness value cannot be determined for regions that are snow covered. Data in these areas that are normally snow covered are displayed as missing. This is due to the snow crystalline structure which produces a considerable amount of scatter and makes it difficult for the SSM/I to accurately detect the surface conditions. The SSM/I products are experimental and are under continuing review and development. Additional data and information can be found on the SSM/I Browser.

Click here for SSM/I Wetness map
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 Click here for SSM/I snowcover map
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Top of Page ENSO SST Analysis




Click Here for the last week of the month's ENSO condtions Map
Click here for animated loop
  • Sea Surface Temperatures (SSTs) continued to be above normal the central equatorial Pacific during November (as shown in the adjacent animation of weekly sea surface temperature anomalies), suggesting ENSO is in a weak warm phase. A comprehensive summary of November 2004 ENSO conditions can be found on the ENSO monitoring page. For the latest advisory on ENSO conditions go to NOAA's Climate Prediction Center (CPC) and the CPC ENSO Diagnostic Discussion

  • Images of sea surface temperature conditions are available for all months to date during 2004 at the weekly SST page

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Top of Page Troposphere

Current Month / Seasonal
The tables below summarize mid-tropospheric conditions for November and September-November 2004. These temperatures are for the atmospheric layer centered in the mid-troposphere (approximately 2-6 miles above the Earth's surface) which also includes a portion of the lower stratosphere. (The MSU channel used to measure mid-tropospheric temperatures receives about 25 percent of its signal above 6 miles.) Analysis of the satellite record that began in 1979 indicates that global temperatures are increasing in the mid-troposphere, but the magnitude of the trend differs based on the analysis methods used in adjusting for factors such as orbital decay and inter-satellite differences. The 1979-2004 trend for November is 0.02°C/decade and September-November is 0.06°C/decade based on data from the University of Alabama at Huntsville (UAH). Based on data provided by Remote Sensing Systems (RSS) the trend for November is 0.12°C/decade and September-November is 0.15°C/decade. The base period used in both data sets is 1979-1998.

November Anomaly Rank Warmest Year on Record
UAH mid-troposphere 0.01°C (0.02°F) 16th warmest 2002 (+0.21°C/0.38°F)
RSS mid-troposphere +0.22°C (+0.40°F) 5th warmest 2002 (+0.32°C/0.58°F)
Click here for UAH mid-trop image
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 Click here for RSS mid-trop image
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September-November Anomaly Rank Warmest Year on Record
UAH mid-troposphere 0.08°C (0.14°F) 10th warmest 1998 (+0.29°C/0.52°F)
RSS mid-troposphere +0.27°C (+0.49°F) 4th warmest 1998 (+0.36°C/0.65°F)
Click here for UAH mid-trop image
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 Click here for RSS mid-trop image
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Top of PageStratosphere

Current Month / Seasonal
The tables below summarize stratospheric conditions for November and September-November 2004. The stratosphere is located between 10-14 miles above the Earth's surface. Over the last decade, stratospheric temperatures have been below average in large part due to the depletion of ozone. The large increase in temperature in 1982 was caused by the volcanic eruption of El Chichon in Mexico, and the increase in 1991 was a result of the eruption of Mt. Pinatubo in the Philippines. Therefore the base period used in both data sets is 1984-1990 which was chosen to avoid contamination by these eruptions.

November Anomaly Rank Warmest Year on Record
UAH stratosphere -0.49°C (-0.88°F) 9th coolest 1982 (+1.28°C/2.30°F)
RSS stratosphere -0.41°C (-0.74°F) 10th coolest 1982 (+1.11°C/2.00°F)
Click here for UAH lower-strat image
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 Click here for RSS lower-strat image
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September-November Anomaly Rank Warmest Year on Record
UAH stratosphere -0.43°C (-0.77°F) 9th coolest 1991 (+1.31°C/2.36°F)
RSS stratosphere -0.36°C (-0.65°F) 10th coolest 1991 (+1.18°C/2.12°F)
Click here for UAH lower-strat image
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 Click here for RSS lower-strat image
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Mid-tropospheric and lower stratospheric temperature data are collected by NOAA's TIROS-N polar-orbiting satellites and adjusted for time-dependent biases by NASA and the Global Hydrology and Climate Center at the University of Alabama in Huntsville (UAH). An independent analysis is also performed by Remote Sensing Systems (RSS).

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For additional details on precipitation and temperatures in November, see the Global Hazards page .
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References:

Peterson, T.C. and R.S. Vose, 1997: An Overview of the Global Historical Climatology Network Database. Bull. Amer. Meteorol. Soc., 78, 2837-2849.

Questions?

For questions on technical or scientific content of this report, please contact:

Ahira Sánchez-Lugo:
Ahira.Sanchez-Lugo@noaa.gov

For general climate monitoring questions, please contact:

CMB.Contact@noaa.gov

For climate data orders, please contact the National Climatic Data Center's Climate Services and Monitoring Division:

NCDC.Orders@noaa.gov

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