1 / 18

Thermal RS for Geologic Applications

Thermal RS for Geologic Applications. Volcanology , Earthquakes, etc . Geologic Applications of Thermal RS. Two general approaches: Use differences in emissivity and/or thermal lag of rocks and minerals to map their surface distribution (covered in previous lectures)

eunice
Download Presentation

Thermal RS for Geologic Applications

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Thermal RS for Geologic Applications Volcanology, Earthquakes, etc.

  2. Geologic Applications of Thermal RS • Two general approaches: • Use differences in emissivity and/or thermal lag of rocks and minerals to map their surface distribution (covered in previous lectures) • Use thermal remote sensing to detect thermal anomalies (kinetic temperature changes) that might be associated with geologic activity (e.g., volcanoes, geothermal areas, earthquakes, etc.)

  3. Earthquake precursors • May observe thermal anomalies prior to earthquakes • Controversial – still a subject of debate among researchers. • These have been observed anywhere from several weeks to just before an earthquake releases (but are they related??). • Example: Bhuj earthquake in Gujarat, India (2001) • >20,000 people killed • Some anomalous heating observed prior to quake using AVHRR thermal band (with the benefit of hindsight to look for the anomaly after the quake happened) • Temperature peaked 3 days before quake

  4. Earthquake in Bam, Iran • Thermal anomaly peaked 5 days before the quake • Temperature as much as 8 – 10 degrees C higher than normal • Temperature normal again 3 days before quake

  5. Volcanology • Volcanic activity includes the movement of magma beneath the surface and eventually onto the surface. Understanding this process is critical for: • Predicting eruptions • Tracking lava flows • Tracking ash plumes • Studying volcanic “plumbing”

  6. Chiliques Volcano in Chile Hasn’t erupted in 10,000 yrs but is now showing signs of a potential eruption Bright spots in thermal image show location of magma just under the surface (not visible in optical remotely sensed images).

  7. Popocatepetl, Mexico Side by side “chips” show 2 thermal wavelengths on 4 different days Images from ASTER

  8. Lava flow in western Russia

  9. Ash plume from Mt. Cleveland in the Aleutian Islands Visible MIR/FIR combination FIR FIR Ash Subsurface Magma

  10. Geothermal Studies • Can identify geothermal resources using combinations of hyperspectral and thermal RS • Certain mineral associated with geothermal areas can be detected with hyperspectral data • Hot spots can be detected with thermal • Offers tools for finding new geothermal areas that can be used for power generation, etc. • Example: Brady Hot Spring area in Nevada • Thermal data aided in discovery of geothermal area along fault line that was previously unmapped.

  11. Other Thermal RS Applications • Archaeology (e.g., finding old roads) • Atmospheric Science • Marine Science • Pollution monitoring • Search and Rescue • Etc., etc.

  12. Summary • Thermal remote sensing adds another dimension to our ability to gather information about the earth’s surface • Important to have an ongoing thermal remote sensing program (e.g., Landsat thermal band) in the U.S.

More Related