metr 415/715
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Metr 415/715
Monday May 13 2013
Today’s Agenda
1. Basics of LIDAR- Ground based LIDAR (pointing up)- Air borne LIDAR (pointing down)- Space borne LIDAR (pointing down)
---- Break ----2. Ground-based GPS measurements of precipitable water
Aerosols and Climate
Saharan Dust Storms
Detecting dust storms
The Sahara contributes about half of all of the dust carried into Earth's atmosphere every year. The dust in the atmosphere looks very much like the surface below it. Only in the past few years have new instruments and new techniques been developed that help scientists "see" which is dust and which is desert.
NASA’s Earth Observatory Pictures
• http://earthobservatory.nasa.gov/NaturalHazards/view.php?id=81092
Article on aerosols• http://earthobservatory.nasa.gov/Features/Ae
rosols/page5.php
LIDAR Links
General LIDAR Informationhttp://www.lidar-uk.com/lidar-links/
Airborne LIDAR uses by USGS – Coastal Processes
http://lidar.cr.usgs.gov
Ground-based High Spectral Resolution LIDAR
Space Borne LIDAR• The CALIPSO Mission – Part of the A-train of Satellites• The A- Train currently consists of five active satellites:• GCOM-W1 (SHIZUKU), lead spacecraft in formation, launched by
JAXA on May 18, 2012• Aqua, runs 4 minutes behind GCOM-W1, launched by
NASA on May 4, 2002• CloudSat, a cooperative effort between NASA and the
Canadian Space Agency, runs 2 minutes and 30 seconds behind Aqua, launched with CALIPSO on April 28, 2006
• CALIPSO, a joint effort of CNES and NASA, follows CloudSat by no more than 15 seconds, launched on April 28, 2006
• Aura, a multi-national satellite, lags Aqua by 15 minutes, crossing the equator 8 minutes behind due to different orbital track to allow for synergy with Aqua, launched by NASA on July 15, 2004
CALIPSO Mission
Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO) mission, developed and managed by NASA's Langley Research Center in Hampton, VACALIPSO is an Earth observing satellite that provides new insight into the role that clouds and atmospheric aerosols play in air qualityAqua was the first member launched of a group of satellites termed the Afternoon Constellation, or A-Train, a group of satellites that travel in line, one behind the other, along the same track, as they orbit Earth.
Article written before CALIPSO was launched
Current uncertainties in the effects of aerosols and clouds on the Earth radiation budget limit our understanding of the climate system and the potential for global climate change. The CALIPSO satellite will use an active lidar together with passive instruments to provide vertical profiles of aerosols and clouds and their properties which will help address these uncertainties. CALIPSO will fly in formation with the EOS Aqua and CloudSat satellites and the other satellites of the Aqua constellation. The acquisition of simultaneous and coincident observations will allow numerous synergies to be realized by combining CALIPSO observations with complementary observations from other platforms. In particu-lar, cloud observations from the CALIPSO lidar and the CloudSat radar will be complementary, together encompassing the variety of clouds found in the atmosphere, from thin cirrus to deep convective clouds. CALIPSO is being developed within the framework of a collaboration between NASA and CNES and is scheduled for launch in 2004.
LIDAR Instrument in CALIPSO
The CALIPSO satellite's instruments include a lidar, which shoots a laser into the atmosphere, then catches light that bounces off particles in the air to learn more about aerosols. CALIPSO is a collaboration between NASA and France's Centre National d'Etudes Spatiales
Aerosols captured by CALIPSO
Recent LIDAR Browse Images
• Available dates• http://www-calipso.larc.nasa.gov/products/lid
ar/browse_images/show_calendar.php• GOES East Archive pictures• http://www.goes.noaa.gov/srcheast.html
IR picture 4-30-13 0015Z
The following are full-disk satellite images
• Can we use the CALIPSO browse images to estimate the height of the clouds in these IR pictures?
Today’s Geostationary Satellite Pictures Indian Ocean 5/13/13 1230Z
Today’s Geostationary Satellite Pictures MTSAT Ocean 5/13/13 1232Z
Today’s Geostationary Satellite Pictures GOES West 5/13/13 1200Z
Today’s Geostationary Satellite Pictures GOES East 5/13/13 1145 Z
Today’s Geostationary Satellite Pictures Meteosat 5/13/13 1200 Z
Ground-based GPS measurements of precipitable water
Basic physical principle: Integrated amount of water vapor in the atmospheric column affects the time travel of GPS signals to ground stations at fixed well-known stations
US and Global real-time ground-based precipitable water GPS network
• http://www.suominet.ucar.edu
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