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What is a Radiosonde?
For over 60 years, upper air observations have been made by the National Weather Service (NWS) with radiosondes. The radiosonde is a small, expendable instrument package that is suspended below a 2 meter (6 feet) wide balloon filled with hydrogen or helium. As the radiosonde is carried aloft, sensors on the radiosonde measure profiles of pressure, temperature, and relative humidity. These sensors are linked to a battery powered, 300 milliwatt radio transmitter that sends the sensor measurements to a sensitive ground receiver on a radio frequency ranging from 1668.4 - 1700.0 MHz. By tracking the position of the radiosonde in flight, information on wind speed and direction aloft is also obtained. Observations where winds aloft are also obtained are called "rawinsonde" observations.
The radiosonde flight can last in excess of two hours, and during this time the radiosonde can ascend to over 35 km (about 115,000 feet) and drift more than 200 km (about 125 miles) from the release point. During the flight, the radiosonde is exposed to temperatures as cold as -90 o C (-130 o F) and an air pressure only few thousandths of what is found on the Earth's surface. When the balloon has expanded beyond its elastic limit and bursts (about 6 m or 20 feet in diameter), a small parachute slows the descent of the radiosonde, minimizing the danger to lives and property.
Only about 20 percent of the approximately 75,000 radiosondes released by the NWS each year are found and returned to the NWS for reconditioning. These rebuilt radiosondes are used again, saving the NWS the cost of a new instrument. If you find a radiosonde, follow the mailing instructions printed on the side of the instrument.
Although all the data from the flight are used, data from the surface to the 400 hPa pressure level (about 7 km or 23,000 feet) are considered minimally acceptable for NWS operations. Thus, a flight may be deemed a failure and a second radiosonde is released if the balloon bursts before reaching the 400 hPa pressure level or if more than 6 minutes of pressure and/or temperature data between the surface and 400 hPa are missing.
Worldwide, there are nearly a 900 upper-air observation stations. Most are located in the Northern Hemisphere and all observations are usually taken at the same time each day (00:00 and/or 12:00 UTC), 365 days a year. Observations are made by the NWS at 92 stations - 69 in the conterminous United States, 13 in Alaska, 9 in the Pacific, and 1 in Puerto Rico. NWS supports the operation of 10 other stations in the Carribean. Through international agreements data are exchanged between countries.
How Are Radiosonde Data Used?
Understanding and accurately predicting changes in the atmosphere requires adequate observations of the upper atmosphere. Radiosonde observations are the primary source of upper-air data and will remain so into the foreseeable future.
Radiosonde observations are applied to a broad spectrum of efforts. Data applications include:
Input for computer-based weather prediction models;
Local severe storm, aviation, and marine forecasts;
Weather and climate change research;
Input for air pollution models;
Ground truth for satellite data
• The Weather Balloon - Learn about weather balloons - what they are, how they take observations, and how the information is used to predict the weather. Your machine will need to have the "RealVideo" plug-in and a sound card with speakers to access this information.
• Weather Balloon Video (Small Image) - Watch a weather balloon being inflated and released, then listen to the signal from the instrument (radiosonde) attached to the weather balloon as it transmits data back to the ground where the data is plotted on a computer. This is a stamp-sized version at 390kb. Your machine will need to have the "RealVideo" plug-in and a sound card to access this information.
• Weather Balloon Video (Large Image) - Watch a weather balloon being inflated and released, then listen to the signal from the instrument (radiosonde) attached to the weather balloon as it transmits data back to the ground where the data is plotted on a computer. This is a large size version at 3.2 mb. Your machine will need to have the "RealVideo" plug-in and a sound card to access this information.