...the who's who,
and the what's what 
of the space industry

Space Careers

news Space News

Search News Archive

Title

Article text

Keyword

  • Home
  • News
  • Differences of cloud top height between satellites and ground-based radar revealed

Differences of cloud top height between satellites and ground-based radar revealed

Written by  Monday, 12 April 2021 07:08
Write a comment
Beijing, China (SPX) Apr 13, 2021
Clouds play a key role in balancing incoming and outgoing solar and thermal radiation. This is a critical process in the earth-atmosphere system. Monitoring cloud height, particle size, particle concentration, etc. are integral to understanding climate dynamics and global climate change. These physical attributes determine the radiative forcing effect of a cloud, or how much incoming radia

Clouds play a key role in balancing incoming and outgoing solar and thermal radiation. This is a critical process in the earth-atmosphere system. Monitoring cloud height, particle size, particle concentration, etc. are integral to understanding climate dynamics and global climate change.

These physical attributes determine the radiative forcing effect of a cloud, or how much incoming radiation that a cloud reflects back to space. Satellites and ground-based radar can measure the cloud top height (CTH). However, inconsistencies exist between various satellites and radar data due to different detection methods and algorithms used to process raw information.

To quantify these conflicts, Bo Liu, jointly supervised by Dr. Juan Huo and Prof. Daren Lyu from Institute of Atmospheric Physics, Chinese Academy of Sciences, compared CTH data between the FY-4A and Himawari-8 satellites as well as data from ground-based millimeter-wave radar sites in Yangbajing, Tibet (YBJ) and in Beijing. Known as the "Roof of the World", the Tibet Plateau provides an ideal location for satellite meteorologists to study.

The vast region features high elevation, ideal atmospheric conditions to observe CTH, and sparse weather reporting stations, which is optimal for testing large quantities of satellite data. China's meteorological satellite FY-4A and Japan's Himawari-8 satellite are geostationary satellites both equipped with an advanced radiation imager, which provides a wealth of CTH data.

Results from high-level cloud analysis suggests that the observed CTH difference between radar and satellite data increases gradually with an increase of surface temperature. This indicates that surface temperature, which affects satellite data retrieval accuracy, may be a key factor causing the regional discrepancy between Beijing and YBJ, which is 4300m above sea level.

The average CTH differences, measured in kilometers, between radar and satellite data at YBJ were 0.06 km and ?0.02 km, compared to 0.93 km and 0.99 km at Beijing, for FY-4A and Himawari-8, respectively. Thin high-level cirrus clouds show the most CTH variation.

Additionally, at YBJ, the study showed that Himawari-8 missed more nighttime CTH data than FY-4A. That said, statistical results show little difference between FY-4A and Himawari-8 data, although both satellites have different retrieval algorithms.

This study presents an initial quantitative comparison of CTH between satellite and ground-based radar over the Tibet Plateau and provides a scientific guidance for application of CTH data.

Research paper


Related Links
Institute Of Atmospheric Physics, Chinese Academy Of Sciences
Earth Observation News - Suppiliers, Technology and Application

Tweet

Thanks for being there;
We need your help. The SpaceDaily news network continues to grow but revenues have never been harder to maintain.

With the rise of Ad Blockers, and Facebook - our traditional revenue sources via quality network advertising continues to decline. And unlike so many other news sites, we don't have a paywall - with those annoying usernames and passwords.

Our news coverage takes time and effort to publish 365 days a year.

If you find our news sites informative and useful then please consider becoming a regular supporter or for now make a one off contribution.

SpaceDaily Monthly Supporter
$5+ Billed Monthly

SpaceDaily Contributor
$5 Billed Once

credit card or paypal



EARTH OBSERVATION
SOFIA offers new way to study Earth's atmosphere
Moffett Field CA (SPX) Apr 02, 2021
The Stratospheric Observatory for Infrared Astronomy, a joint project of NASA and the German Aerospace Center, DLR, has been used extensively to look many objects in the universe, from black holes to galaxies and even the Moon. A decade ago, German researcher Heinz Hubers led a team to improve one of SOFIA's infrared instruments - the German Receiver for Astronomy at Terahertz Frequencies, or GREAT - with a new laser technology. He realized that the upgrade would not only help to study the distant ... read more


Read more from original source...

You must login to post a comment.
Loading comment... The comment will be refreshed after 00:00.

Be the first to comment.

Interested in Space?

Hit the buttons below to follow us...