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Atmospheric Applications of Multi and Hyperspectral Remote Sensing

Atmospheric Applications of Multi and Hyperspectral Remote Sensing. Climate, Meteorology and Atmospheric Chemistry . Applications of satellites for atmospheric studies. Weather monitoring and forecasting Cloud type identification Climate studies Atmospheric contributions to climate

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Atmospheric Applications of Multi and Hyperspectral Remote Sensing

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  1. Atmospheric Applications of Multi and Hyperspectral Remote Sensing Climate, Meteorology and Atmospheric Chemistry

  2. Applications of satellites for atmospheric studies • Weather monitoring and forecasting • Cloud type identification • Climate studies • Atmospheric contributions to climate • Land-atmosphere interactions • Ocean-atmosphere interactions • Atmospheric chemistry • Pollution monitoring • Volcanic ash, other aerosols • Active Remote Sensing (Radar) – many weather apps.

  3. Von Karman Vortices

  4. Hurricane Fran, 1996

  5. MODIS Image Saharan dust moving across Mediterranean to Turkey

  6. Sulfur Dioxide Plume – Kahlua

  7. Meteorological RS: Early History (Review) • Earliest man-made satellites were designed for weather observations • Vanguard 2 (1959) – designed to measure cloud cover but didn’t work well • TIROS 1 (1960) – crude weather observations allowed scientists to view earth’s weather as a system • Application Technology Satellites (1966) – full disk view of earth • Nimbus satellites (1964 – 78) – atmospheric temperature and ozone profiles and other atmospheric properties • Nimbus set the stage for modern satellite remote sensing

  8. Types of weather satellites • Defined by orbital characteristics • Polar orbiting – travel roughly over poles on each orbit • Typically two views/day of each place on earth • Relatively high spatial resolution due to lower altitude than geostationary • Geostationary – orbit parallel to the equator at an altitude of 22,300 miles; always over one place. • Full hemisphere or large area viewing but usually at lower resolution due to altitude

  9. Modern weather satellites • GOES – Geostationary Operational Environmental Satellites • GOES 12 also called GOES East – over Brazil but captures imagery for our entire hemisphere • GOES 11 also called GOES West – over eastern Pacific Ocean • NOAA operates several polar orbiting weather satellites (NPOES) • Many other countries have their own weather satellites that are either polar orbiting and geostationary

  10. GOES Composite Image of US Warm (low) clouds white, Cold (high) clouds yellow and red.

  11. GOES West Image

  12. GOES East full disk

  13. How are weather satellites used? • Interpretation of visible (panchromatic) images • Cloud and aerosol thicknesses • Interpretation of infrared images • Cloud temperatures and heights • Prognostication (prediction) • Time-lapse views that show movement of systems • Hurricane tracking and monitoring • Data inputs for weather models

  14. Visible wavelength satellite imagery • Can see clouds (bright) and relative cloud thickness (brighter = thicker until saturation) • Can see haze and aerosol (relatively bright) • Cannot distinguish cloud heights (low, middle and high altitude clouds all look the same) Visible can only be used in the daytime

  15. IR satellite imagery • Long-wave IR allows sensing of the temperature of the cloud tops which is related to height • Higher cloud tops colder than low cloud tops IR Weather images are processed so that coldest places appear BRIGHT and warmest appear DARK Opposite of normal thermal imagery!! Can be used day or night.

  16. Water vapor images • IR Satellite imagery can also be used to create images of the amount of water vapor in the atmosphere

  17. Remote sensing for monitoring atmospheric chemistry • Several satellites have bands that are useful for atmospheric chemistry (e.g., MODIS) or are completely dedicated to the atmosphere (e.g., AURA) • Aura flies “in formation” about 15 minutes behind MODIS • Aura carries several instruments that measure different constituents of the atmosphere • Other satellites • TOMS – Total Ozone Mapping Spectrometer • UARS – Upper Atmosphere Research Satellite

  18. Human activities have changed the composition of the atmosphere since the pre- industrial era

  19. Ground based sensors • Note: Ground based sensors are used more than satellite sensors for atmospheric chemistry (and pollution) • Can look outwards just as a satellite looks downwards and measure amount of light in various wavelengths • Atmospheric absorption of particular wavelengths indicative of particular chemicals • Strength of absorption relates to concentration of chemical • Value of space based sensors is more in getting whole-atmosphere view; Ground based sensors limited spatially

  20. Air pollution monitoring with satellites • Satellites can measure and track plumes of air pollution • E.g., MOPITT – Measurements Of Pollution In The Troposphere • Measures amount of carbon monoxide and methane in the atmosphere • Many satellites for atmospheric chemistry can also measure some pollutants

  21. Photo by Mark Gocke, Casper Star Tribune.

  22. Global carbon monoxide during MOPITT’s first year of operation CO produced by burning of fossil fuels, volcanoes, wildfire, etc.

  23. Summary • Satellites are critical for weather forecasting and climate studies • Optical data primarily used for cloud studies • Thermal IR data also extremely useful (will discuss thermal later in semester) • Atmospheric chemists use satellites for global and local monitoring • Atmospheric pollution is a subset of atmospheric chemistry • Satellites allow mapping of general pattern of pollutant concentration and tracking of plumes, etc.

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