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NASA'S live tropical sea surface temperature Web site gives climate, hurricane clues
October 13, 2006Sea surface temperatures give scientists information about ocean currents, climate, climate change and how a hurricane may evolve. Now, NASA has a web page that provides frequent updates on changing ocean temperatures.
There are two primary types of sea surface temperature data that scientists use. The first is the actual temperature readings from the ocean water surface. The second is called a sea surface temperature anomaly that compares present temperatures to the long-term average.
Visualizers at NASA's Scientific Visualization Studio at NASA's Goddard Space Flight Center, Greenbelt, Md. have created two products. The first is a daily update of actual sea surface temperatures. Whenever clouds in the satellite data block the sea surface, the product interpolates the data. Interpolation is a calculation method for estimating data in regions that fall between points of actual measurement.
The second product is a 10-day average of sea surface temperatures over specific areas. This 10-day average helps to show or calculate the temperature anomaly.
"Climate and weather are great dances between the oceans and the global atmosphere," says Bill Patzert, climatologist at NASA's Jet Propulsion Laboratory, Pasadena, Calif. "Sea surface temperature changes control whether these dances are slow and graceful, as with climate, or stormy and violent, as with wild hurricanes and winter storms. Floods, droughts, hurricanes or balmy weather can often be foretold by shifting sea surface temperatures. Sea surface temperatures are a crystal ball that helps us see and plan for the future."
The web page graphics are the result of data from the Advanced Microwave Scanning Radiometer (AMSR-E) instrument that flies aboard NASA's Aqua satellite.
Big climate events like El Nino and La Nina in the eastern Pacific Ocean are directly related to ocean temperatures and can be seen in the sea surface temperature anomaly product. If the Eastern Pacific ocean temperatures deviate from average, this product will show that. El Nino and La Nina are also connected to changes in air pressure systems.
In a normal year, steady winds blow westward and push warm surface water toward the western Pacific Ocean. In contrast, during an El Niño year, weakened winds allow warm water to occupy the entire tropical Pacific, so scientists look at sea surface temperatures for a signal of El Nino's return. Usually sea surface temperature readings off South America's west coast range from 60 to 70 degrees Fahrenheit (15-21 degrees Celsius), while they exceed 80 degrees Fahrenheit (27 degrees Celsius) in the "warm pool" located in the central and western Pacific. Rainfall tends to follow the warm water eastward, causing drought in Indonesia and Australia and also altering the path of the jet stream-a region of strong winds high in the atmosphere-that helps control weather patterns and storm paths.
La Niña is characterized by unusually cold ocean temperatures in the central Equatorial Pacific. Sea-surface temperatures along the equator can fall as much as 7 degrees Fahrenheit (4 degrees Celsius) below normal. During La Niña, the easterly trade winds strengthen and cold upwelling-the transport of colder, deeper waters to the ocean's surface-intensifies along the equator and the West coast of South America. Like her counterpart El Nino, La Nina also changes weather patterns around the world.
La Niña tends to bring nearly opposite effects of El Niño to the United States - wetter than normal conditions across the Pacific Northwest and drier and warmer than normal conditions across much of the southern tier. Both La Niña and El Niño tend to have the most profound influence in the winter. During El Niño years, temperatures in the winter are typically warmer than normal in the North-Central States, and cooler than normal in the Southeast and the Southwest. During a La Niña year, winter temperatures are warmer than normal in the Southeast and cooler than normal in the Northwest.
Hurricane forecasters rely on daily sea surface temperatures to determine the behavior of tropical cyclones, the general name for tropical depressions, tropical storms, typhoons and hurricanes. Sea surface temperatures must be at least 82 degrees Fahrenheit (28 degrees Celsius) for a tropical cyclone to develop and maintain itself. If there are no winds to tear a storm apart, warm ocean waters often allow a tropical cyclone to strengthen, since it is the primary "fuel" for development.
Maps of sea surface temperatures and anomalies are highly valuable to ocean and atmospheric scientists. They are one the primary tools climatologists use to monitor and forecast El Nino and La Nina events, and to forecast the frequency and intensity of hurricanes in all oceans.
For NASA's New Sea Surface Temperature Page, please visit on the Web: http://svs.gsfc.nasa.gov/vis/a000000/a003300/a003376/
NASA/Goddard Space Flight Center
The second product is a 10-day average of sea surface temperatures over specific areas. This 10-day average helps to show or calculate the temperature anomaly.
"Climate and weather are great dances between the oceans and the global atmosphere," says Bill Patzert, climatologist at NASA's Jet Propulsion Laboratory, Pasadena, Calif. "Sea surface temperature changes control whether these dances are slow and graceful, as with climate, or stormy and violent, as with wild hurricanes and winter storms. Floods, droughts, hurricanes or balmy weather can often be foretold by shifting sea surface temperatures. Sea surface temperatures are a crystal ball that helps us see and plan for the future."
The web page graphics are the result of data from the Advanced Microwave Scanning Radiometer (AMSR-E) instrument that flies aboard NASA's Aqua satellite.
Big climate events like El Nino and La Nina in the eastern Pacific Ocean are directly related to ocean temperatures and can be seen in the sea surface temperature anomaly product. If the Eastern Pacific ocean temperatures deviate from average, this product will show that. El Nino and La Nina are also connected to changes in air pressure systems.
In a normal year, steady winds blow westward and push warm surface water toward the western Pacific Ocean. In contrast, during an El Niño year, weakened winds allow warm water to occupy the entire tropical Pacific, so scientists look at sea surface temperatures for a signal of El Nino's return. Usually sea surface temperature readings off South America's west coast range from 60 to 70 degrees Fahrenheit (15-21 degrees Celsius), while they exceed 80 degrees Fahrenheit (27 degrees Celsius) in the "warm pool" located in the central and western Pacific. Rainfall tends to follow the warm water eastward, causing drought in Indonesia and Australia and also altering the path of the jet stream-a region of strong winds high in the atmosphere-that helps control weather patterns and storm paths.
La Niña is characterized by unusually cold ocean temperatures in the central Equatorial Pacific. Sea-surface temperatures along the equator can fall as much as 7 degrees Fahrenheit (4 degrees Celsius) below normal. During La Niña, the easterly trade winds strengthen and cold upwelling-the transport of colder, deeper waters to the ocean's surface-intensifies along the equator and the West coast of South America. Like her counterpart El Nino, La Nina also changes weather patterns around the world.
La Niña tends to bring nearly opposite effects of El Niño to the United States - wetter than normal conditions across the Pacific Northwest and drier and warmer than normal conditions across much of the southern tier. Both La Niña and El Niño tend to have the most profound influence in the winter. During El Niño years, temperatures in the winter are typically warmer than normal in the North-Central States, and cooler than normal in the Southeast and the Southwest. During a La Niña year, winter temperatures are warmer than normal in the Southeast and cooler than normal in the Northwest.
Hurricane forecasters rely on daily sea surface temperatures to determine the behavior of tropical cyclones, the general name for tropical depressions, tropical storms, typhoons and hurricanes. Sea surface temperatures must be at least 82 degrees Fahrenheit (28 degrees Celsius) for a tropical cyclone to develop and maintain itself. If there are no winds to tear a storm apart, warm ocean waters often allow a tropical cyclone to strengthen, since it is the primary "fuel" for development.
Maps of sea surface temperatures and anomalies are highly valuable to ocean and atmospheric scientists. They are one the primary tools climatologists use to monitor and forecast El Nino and La Nina events, and to forecast the frequency and intensity of hurricanes in all oceans.
For NASA's New Sea Surface Temperature Page, please visit on the Web: http://svs.gsfc.nasa.gov/vis/a000000/a003300/a003376/
NASA/Goddard Space Flight Center
Sea Surface Temperature Current Events and Sea Surface Temperature News RSS2008 was Earth's coolest year since 2000
Climatologists at the NASA Goddard Institute for Space Studies (GISS) in New York City have found that 2008 was the coolest year since 2000. The GISS analysis also showed that 2008 is the ninth warmest year since continuous instrumental records were started in 1880.
China monsoon rainfall prediction and Pacific surface-subsurface sea temperature anomalies
The Monsoon and Environment Research Group of Peking University submitted a report to Chinese Science Bulletin, recently, showed that regional summer monsoon rainfall in China can be predicted by 1-2 seasons ahead by using the signals of the sea surface temperature anomaly (SSTA) and the subsurface temperature anomaly (STA) in the central equatorial Pacific (CEP). Several new facts have been revealed as follows.
It's relative: Contrasting hurricane theories heat up
In a paper published in the journal Science today, scientists Gabriel A. Vecchi of NOAA's Geophysical Fluid Dynamics Laboratory, Kyle L. Swanson of the University of Wisconsin - Milwaukee Atmospheric Sciences Group and Brian J. Soden from the University of Miami's Rosenstiel School of Marine and Atmospheric Science teamed up to study hurricane data observed over more than 50 years.
Water table depth tied to droughts
Will there be another "dust bowl" in the Great Plains similar to the one that swept the region in the 1930s?
Hurricanes and climate change: A sharper view
n a study published in the July 2008 issue of Geophysical Research Letters, Drs. David S. Nolan and Eric D. Rappin from the University of Miami's Rosenstiel School of Marine and Atmospheric Science describe a new method for evaluating the frequency of hurricane formation in present and future tropical climates.
Climate change causing significant shift in composition of coastal fish communities
A detailed analysis of data from nearly 50 years of weekly fish-trawl surveys in Narragansett Bay and adjacent Rhode Island Sound has revealed a long-term shift in species composition, which scientists attribute primarily to the effects of global warming.
New study shows extent of harmful human influences on global ecosystems
More than 40 percent of the world's oceans are heavily impacted by human activities, including overfishing and pollution, according to a new study that will appear in tomorrow's peer-reviewed journal Science.
Recipe for a storm: The ingredients for more powerful Atlantic hurricanes
As the world warms, the interaction between the Atlantic Ocean and atmosphere may be the recipe for stronger, more frequent hurricanes.
Climatic variations influence the emergence of cholera in Africa
In studies aiming to understand better the emergence and persistence of cholera in Africa, IRD and CNRS researchers showed the strong correlation that exists between outbreaks and the different parameters linked to climate changes in West Africa.
Hurricane Dean tracked from space
ESA satellites are tracking the path of Hurricane Dean as it rips across the Caribbean Sea carrying winds as high as 260 km/h. The hurricane, which has already claimed eight lives, is forecast to slam into Mexico's Yucatan Peninsula on Tuesday morning.
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