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Satellite Remote Sensing for Environmental Advocacy

Satellite Remote Sensing for Environmental Advocacy. Presented to Earthworks. Washington, DC – March 26, 2004. John F. Amos, SkyTruth. What Is SkyTruth?. A 501(c)(3) nonprofit organization exemption in March 2002 Based in Shepherdstown, West Virginia

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Satellite Remote Sensing for Environmental Advocacy

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  1. Satellite Remote Sensing for Environmental Advocacy Presented to Earthworks Washington, DC – March 26, 2004 John F. Amos, SkyTruth

  2. What Is SkyTruth? • A 501(c)(3) nonprofit organization • exemption in March 2002 • Based in Shepherdstown, West Virginia • A distributed network of remote sensing and GIS experts and partner organizations • Providing remote sensing and GIS assistance and training to environmental advocates and government agencies

  3. Sand waves, Bahamas

  4. Burning oil wells, Kuwait

  5. Owl Creek Mountains, Wyoming

  6. What Is Remote Sensing? • Collecting information from a distance, by measuring energy coming from the target • Energy reflected off the target from a natural source (sunlight) • Energy reflected off the target from an artificial source (examples: sonar, seismic, radar) • Energy emitted by the target (example: infrared “heat”)

  7. REFLECTED ENERGY, NATURAL SOURCEVisible – Infrared Image Landsat ETMsatellite image Northern California 180x180 km

  8. REFLECTED ENERGY, NATURAL SOURCE Visible – Infrared Image Aster satellite image US – Mexico border

  9. REFLECTED ENERGY, NATURAL SOURCE Visible – Infrared Image Probe airborne scanner image Santa Barbara, California

  10. REFLECTED ENERGY, ARTIFICIAL SOURCE Radar Image RADARSAT radar satellite image Natural oil slicks Gulf of Mexico

  11. EMITTED ENERGYThermal Image Landsat ETMthermal infrared satellite image Wildfire (yellow line) and burned area (dark red) Kazakhstan

  12. Trends in Remote Sensing Decreasing Data Cost Landsat, 1990s: $4,400 Landsat, today: $ 600 Desktop Mapping Improved GIS software Powerful desktop PCs Demonstrated applications Rapid Internet distribution New Platforms/Sensors High-resolution, Radar, Hyperspectral

  13. High-Resolution Imagery Ikonos high-resolution satellite image 1 meter detail (50 cm in 2004?) Precision mapping, monitoring

  14. Tanker salvage operation, Brazil Ikonos high-resolution satellite image

  15. APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY Upper Green River valley, Wyoming Pinedale BLM jurisdiction, black Jonah natural gas field, red Landsat TM

  16. APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY Well pad with working drill rig Pad ~4 acres Jonah gas field

  17. APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY Jonah field – aerial view looking west, June 2001

  18. 7 miles APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY 1986 Landsat TM

  19. 7 miles APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY 1999 Landsat ETM

  20. 7 miles APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY 2001 Landsat ETM

  21. 7 miles APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY 2002 Landsat ETM

  22. Products • Poster-size maps, images, image collages • Page-size information handouts • Digital graphics • Slide shows • Web publishing • Brochures and flyers

  23. Products • GIS Data Layers • Map oriented, enhanced imagery • Analyses derived from imagery • Land use / land cover • Change detection • Pollution detection • Forward-looking simulations

  24. Brochure

  25. APPLICATION EXAMPLEGas Field Infrastructure – Jonah, WY Elk and Pronghorn migration corridor

  26. APPLICATION EXAMPLEMining

  27. APPLICATION EXAMPLEMining - Rudnyi, Kazakhstan

  28. APPLICATION EXAMPLEMining - Rudnyi, Kazakhstan

  29. APPLICATION EXAMPLEMining - Rudnyi, Kazakhstan Tailings pond dimensions calculated on-screen Length (E-W) is 5.4 km Area is 950 ha Tailings volume is 190M m3 (assuming 20m thickness)

  30. APPLICATION EXAMPLEMining – Mountaintop Removal, WV Valley fill operation Kayford Mtn West Virginia

  31. 1987 Marfork complex, WV

  32. 2000 Marfork complex, WV

  33. Washington DC

  34. Washington DC Marfork complex

  35. 1987 – View to west, future Marfork mining area. Image draped on topography data.

  36. 2000 – View to west, Marfork mine complex. Topography data modified to average elevation calculated within mining area.

  37. APPLICATION EXAMPLEMining – Mountaintop Removal, WV Regional impact of mining practices Marfork complex in upper right Other MTRM areas pink

  38. APPLICATION EXAMPLEMining – Carlin Trend, NV • Betze-Post Mine • Largest gold mine in U.S. • 3rd largest in world • Surface and underground operations • Cyanide heap-leaching

  39. 1984 Betze-Post gold mine 2 years after surface ore discovery (Post deposit) Total surface area impact: 3,226 acres

  40. 1991 Betze-Post gold mine 4 years after acquisition by Barrick and discovery of Betze deposit Total surface area impact 6,812 acres 512 acres/yr

  41. 2000 Betze-Post gold mine 4 years after Barrick opens underground Meikle deposit Total surface area impact 14,036 acres 803 acres/yr

  42. 1984

  43. 2000

  44. What if? San Francisco

  45. Hmmm… 20 years after gold is discovered in Mission District

  46. VIEW TO WEST FROM PROPOSED ROCK CREEK MINE MINE SITE

  47. WHAT IF…? CARLIN-SIZED MINING COMPLEX

  48. New Perspectives

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