Earth’s Dynamic Surface as Viewed From Space: Using Space Shuttle and International Space Station photographs to observe earth system interactions and environmental changes Joseph.
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Earth’s Dynamic Surface as Viewed From Space: Using Space Shuttle and International Space Station photographs to observe earth system interactions and environmental changes Joseph F. Reese Department of Geosciences, Edinboro University of Pennsylvania, Edinboro, PA 16444; [email protected]; 814-732-2814 Looking out the window of Space Shuttle Columbia, 1/03 1 Space flight allows humans to view the Earth and the large-scale systems operating on its surface. “Houston, Apollo 11… I have the world in my window.” -- Michael Collins, NASA astronaut 2 Space Shuttle and International Space Station photographs are excellent observational data that document large-scale earth-system processes and interactions. They also show natural and humaninduced environmental changes and hazards working on short time scales. 3 FOCUS ON: GEOSPHERE – Solid Earth PEDOSPHERE – Soils EARTH SYSTEMS, SYSTEM HYDROSPHERE – Water INTERACTIONS, and CRYOSPHERE – Ice ENVIRONMENTAL CHANGES ATMOSPHERE – Air as observed from Space Shuttle BIOSPHERE – Life and International Space Station ANTHROSPHERE – Humans photographs. 4 (All photos used are from NASA Space Shuttle Earth Observations Photography database) GEOSPHERE HYDROSPHERE ATMOSPHERE ANTHROSPHERE BIOSPHERE 5 What do you see? Identify as many features as you can on this International Space Station photo of the San Francisco Bay area! Look for: • San Andreas and Hayward faults • forests, beaches, mountains • urban areas • Alcatraz! • parks, bridges, roadways • internal waves in the Pacific Ocean • tidal channels in the bay • salt collection areas • outflow from bay • what else? 6 Riyadh, Saudi Arabia PROCESSING OF PHOTOGRAPHS -- STEPS: 1. Sharpen, or Unsharp Mask 2. Despeckle (if sharpened…) 3. Alter Color Contrast and / or Brightness 4. Alter Color Level EDITING DONE USING ADOBE PHOTOSHOP 7 PHOTOGRAPHS OBTAINED FROM: EARTH SCIENCES AND IMAGE ANALYSIS LAB “The Gateway to Astronaut Photography of Earth” http://eol.jsc.nasa.gov (several captions are from this source) RELATED INTERNET SITES: EARTH FROM SPACE http://earth.jsc.nasa.gov EARTH OBSERVATORY http://earthobservatory.nasa.gov VISIBLE EARTH http://visibleearth.nasa.gov NASA HUMAN SPACEFLIGHT http://spaceflight.nasa.gov SE Alaska Thunderstorms New York, NY 8 Yellowstone area Klyuchevskaya volcano Mt. Fuji INTERNAL EARTH PROCESSES: Volcanism and Deformation, primarily of plate-tectonic origin (but not entirely!) 9 Volcanoes in eruption: Rabaul volcano, New Britain, Papua New Guinea (upper left); Mt. Etna, Sicily, Mediterranean Sea (left); Klyuchevskaya, Kamchatka Peninsula, Russia (above) 10 PYROCLASTIC FLOWS and LAHARS, Mt. Pinatubo, Philippines CALDERA, RESURGENT DOME, and RING INTRUSIONS Jemez Mountains, NM PRODUCTS OF EXPLOSIVE VOLCANISM (unseen are the atmospheric-climatic impacts of these eruptions…) 11 Mt. St. Helens, WA, post-1980 eruption Mt. St. Helens Mt. Adams Mt. Rainier CASCADE VOLCANIC ARC, resulting from subduction of the Juan de Fuca Plate beneath the western margin of the North American Plate. 12 Cascadia subduction zone Cascade accreted terranes and volcanic arc Olympic accretionary complex “Pacific Northwest” – tectonic products of a long lived, complex convergent margin. 13 Shield volcanoes on Hawaii are the result of “hotspot” volcanism above a mantle plume. Mauna Loa and Kilauea, with steam plumes Pu’u O’o Mauna Loa Kilauea steam BIG ISLAND OF HAWAII 14 INDIA Himalaya and Tibet Plateau ASIA (south) INDO-GANGETIC PLAIN Continental collision between India and Asia has formed one of the largest mountain ranges in the last billion years of Earth history. (above view to west, right view to south) 15 HIGH HIMALAYA TIBETAN PLATEAU (north) Mt. Everest… can you find it? 16 Deformation related to convergentboundary tectonic processes (foreland fold and thrust belt) Canadian Rockies Glacier NP, MT 17 Blue Ridge and Shenandoah Valley, VA Monterrey Bend, Mexico Valley and Ridge, PA FOLDED SEDIMENTARY ROCKS, “Thin-skinned” crustal deformation related to layer-parallel shortening 18 Transform plate boundary between Pacific Plate and North American Plate NORTH AMERICAN PLATE PACIFIC PLATE SAN ANDREAS FAULT Pt. Reyes, CA 19 SIERRA NEVADA and the BASIN AND RANGE Block faulting related to extension Owens Valley, CA (looking west) Central Sierra MONO LAKE WESTERN EDGE OF THE BASIN AND RANGE EXTENSIONAL PROVINCE LAKE TAHOE Northern and Central Sierra Nevada, Mono Lake, Lake Tahoe, and Central Valley, CA-NV 20 Northern Sierra Los Angeles Basin San Francisco Bay Area SAN ANDREAS FAULT, CA (transform plate boundary) 21 Ganges River RIVERS and DELTAS 22 Paraná River Mississippi River Brahmaputra River MISSISSIPPI RIVER DELTA 23 Rio de la Plata, estuary of Paraná and Uruguay Rivers Mixing of sediment and nutrient laden freshwaters with seawater. 24 GRAND CANYON and the KAIBAB PLATEAU, AZ The Colorado Plateau has been uplifted in the last few million years. As regional uplift occurred, river systems such as the Colorado River were rejuvenated, resulting in stream erosion and highly dissected plateaus. Argentina EROSION Glaciated terrains reveal modification of the geosphere by a channelized, flowing (and retreating!) cryosphere. 25 Malaspina Glacier (piedmont glacier) and Yakutat Bay, SE Alaska The Seward Ice Field in the St. Elias Mountains is the main source of ice for the glacier. The glacier moves in surges that internally deform the ice, crumpling medial moraines. 26 EFFECTS OF PLEISTOCENE GLACIATION Fjords along coastline, southern tip of Greenland (drowned glacial valleys) 27 Raised shorelines, James Bay, Canada (isostatic rebound) Iceberg, South Atlantic Ocean, southeast of the tip of South America This iceberg, ~43 mi long and ~21 mi wide, broke away from the Antarctic ice sheet. Is it, and the break up of this ice sheet, an indicator of global climate change? 28 Lake Poopó, Altiplano, Bolivia Lake with naturally fluctuating water levels (linked with El Niño) 1990 Short-term environmental changes 1995 29 1995 Kara-Bogaz Gol and Caspian Sea, Turkmenistan Reflooded “natural” evaporation basin (with salt deposition) 1985 Artificially enhanced inlet! 30 Namib Desert, Namibia dust blow, Mauritania (above) Hot, dry winds blowing dust out of western Africa and into the Atlantic Ocean. Fine dust can carry many toxins. Dunes! Atmospheric currents and geologic products 31 Dust blowing from Rio Grande channelway, Bolivia 32 Coastal Dunes, Brazil Interaction of wind, water, and sand… Small part of an active dune field on Brazil’s north coast. Dunes are built by persistent easterly winds off of the equatorial Atlantic and have interspersed freshwater ponds. 33 Hurricane Claudette, along the Gulf Coast of Texas (Category I, 7/15/03) Solar energy drives wind and water currents on the Earth’s surface, accounting for circulation patterns, climate, and weather phenomena such as this cyclone. 34 Hurricane Isabel, 9/13/03 Eye of Isabel 35 SUPERCELLS Great Plains, Canada MONSOONAL Bangladesh and India THUNDERSTORMS convection, overshoot tops, outflow, and anvil formation 36 Hydrospheric currents and geologic products Sediment transport and shoreline features (barrier islands, etc.) Oyashio Current sea ice, showing southward flow of cold Arctic waters meeting warmer waters to produce spiral eddies that move the sea ice (above) 37 Cape Hatteras, NC POTENTIAL SOURCES OF BIOGENIC SEDIMENT … (Productive waters that may support regional fisheries) Algal Whitings, Little Bahama Bank (Suspensions of lime mud produced by blooms of algae) Plankton Bloom, Southern Atlantic Ocean … PRODUCED BY MICROSCOPIC ORGANISMS 38 BARRIER, PATCH and FRINGING REEFS, and ATOLLS Bora-Bora, Society Islands, French Polynesia, Pacific Ocean (looking north) Great Barrier Reef, Queensland, Australia 39 Atolls of the Maldives, Indian Ocean (looking south) 40 Fires, sediment plumes, Borneo Tierras Bajas deforestation, Bolivia LARGE-SCALE HUMAN-INDUCED ENVIRONMENTAL IMPACTS AND CHANGES Photos show rapid modification of the Earth’s surface by humans. 41 1985 1992 TROPICAL RAIN FOREST DESTRUCTION Southern Amazon River Basin, Rondônia, Brazil Photos provide a visual indication of the rate of deforestation occurring. The amount of clear-cut area now exceeds the area of remaining rain forest timber stands. 42 2001 1983 Betsiboka River Delta, Bombetoka Bay, Madagascar Removal of native forest, massive soil losses, rapid delta expansion 43 Etosha Pan, dry salt lake, Namibia Angola Namibia Nation boundary revealed because of differing grazing practices. Soil in Namibia is much more reflective because of de-vegetation due to overgrazing. 44 Israel Egypt Mexico USA Other international boundaries viewed from Space… 45 1985 1992 Aral Sea, Kazakhstan and Uzbekistan (top to north) (~46% water level decrease since 1960; level continues to fall) Development of agricultural irrigation projects impedes recharge. With reduced fresh water quantities and constant evaporation, the sea has become more saline and shrunk drastically. It has also become polluted with pesticides and fertilizers. 46 Aral Sea, bisected, 2002 (top to northeast) 47 Pivot irrigation, Saudi Arabia, is leading to groundwater depletion from deep aquifers and to further desertification. Water reserves are finite. Center pivot irrigation systems are ~0.6 mi (1 km) in diameter. 48 Mono Lake, Sierra Nevada, CA Water drawn to supply LA has resulted in lowered lake levels, increased salinity, and an endangered ecosystem. Las Vegas, NV Rapid urbanization in a desert setting stresses surface and ground water resources. 49 Lake Powell and the Colorado River, Colorado Plateau, UT-AZ “The building of Glen Canyon Dam ushered in the modern environmental movement…” -- David Brower, Sierra Club “The canyonlands did have a heart, a living heart, and that heart was Glen Canyon and the wild Colorado.” -- Edward Abbey Glen Canyon Dam 50 Agricultural landscape, Uzbekistan, 2002 51 LIVING AND WORKING ON FLOOD PLAINS Transformation of steppe-desert into productive farmlands along Yellow River, NW China (below) Confluence of the Mississippi, Missouri and Illinois Rivers, post-1993 flood, St Louis area, MO-IL (above) 52 Sunglint and smog layer over Upstate New York (looking southwest) Air pollution layer is capped by an atmospheric inversion, marked by top cloud layer. Po River Valley smog, northern Italy (looking west) The Alps provide a natural barrier to smog migration, thus trapping it in this heavily industrialized area. 53 54 Southern California wildfires, 10/26/03 Fires in San Bernardino Mountains are being driven by Santa Ana winds Galapagos Islands, Pacific Ocean SUMMARY Manicouagan Reservoir Impact Site, Quebec PHOTOS FROM SPACE: 1. Are excellent observational data to observe Earth’s dynamic surface and its systems. 2. Document large-scale earth-system processes and interactions. 3. Show natural and human-induced, short-term environmental changes and hazards. 4. Reveal the effects humans have on the Earth’s environment. 5. Are readily accessible and easily downloadable from various NASA websites. 55 56 By using Space Shuttle and International Space Station photographs in the classroom… 1. Increases our understanding of how remote sensing is used to document, interpret, and monitor the surface of the Earth. 2. Incorporates a vast, impressive visual resource under-utilized in geoscience education. 3. Provides a valuable, alternative electronic data set that enhances student learning, especially in technology based activities. (Digital photos from STS-107, Space Shuttle Columbia, before it was lost on 2/1/03) Dhaulagiri Himal, Nepal Laguna Superior, Mexico Tokyo Bay, Japan THE END STS 109 landing, 03/12/02 57 58 Appendix – A Catalog of the Photographs Slide # 1. 1. 1. 1. 1. 2. 2. 2. 3. 3. 3. 4. 4. 5. 6. 7. 8. 8. 8. 9. 9. 9. 10. 10. 10. 11. 11. Photo description (position) Earth limb, sun, windows (C) Klyuchevskaya, volcano, Russia (uL) Frontal system (lL) Cape Cod, MA (uR) Southern Florida (lR) Shuttle blast off (R) Earth rise (L) Astronaut (inset) Mt. Everest, Himalaya (uR) Nile River delta (uL) Von Karman vortices, Canary Islands (lL) Cosmonaut with camera (uL) International Space Station (uR) Florida Peninsula San Francisco Bay area Riyadh, Saudi Arabia (L & R) Thunderstorms (lL) New York City area, NY (lC) St. Elias Mountains, AK (lR) Klyuchevskaya volcano, Russia (L) Yellowstone area, WY-ID-MT (R) Mt. Fujiyama, Japan (lL) Rabaul volcano, New Britain (uL) Mt. Etna, Sicily (lL) Klyuchevskaya volcano, Russia (uR) Mt. Pinatubo, Philippines (L) Jemez Mountains, NM (R) Photo # (mission-roll-frame) STS 107-E-5485 STS 068-150-045 STS 41C-040-2130 STS 106-710-060 STS 51C-143-0032 STS 108-S-013 AS 11-44-6549 STS 109-E-5247 STS 066-208-025 STS 101-717-004 STS 101-706-022 STS 108-371-019 STS 108-371-031 STS 095-743-033 ISS 004-E-10288 STS 059-225-044 STS 41B-041-2347 STS 058-081-038 STS 028-097-085 STS 068-273-033 STS 112-707-043 STS 107-E-5689 STS 064-116-064 ISS 005-E-19024 STS 068-214-043 STS 046-075-079A STS 062-100-195 59 Slide # Photo description (position) 12. 12. 13. 14. 14. 15. 15. 16. 17. 18. 18. 18. 19. 19. 20. 20. 21. 21. 22. 22. 22. 22. 23. 24. 25. 25. 26. 27. 27. 28. Cascades, WA (R) Mt. St. Helens, WA, post-1980 eruption (L) Pacific Northwest Big Island of Hawaii (L) Mauna Loa and Kilauea, HI (R) Himalaya (uL) Himalaya and Tibet Plateau (R) Mt. Everest Canadian Rockies Blue Ridge and Shenandoah, VA (L) Sierra Madre Oriental, Mexico (uR) Susquehenna Valley, PA (lR) Pt. Reyes, CA (L) Owens Valley, CA (R) Central Sierra, CA-NV (L) Northern Sierra, CA-NV (R) San Francisco Bay Area, CA (L) Los Angeles Basin, CA (R) Ganges River delta (uL) Mississippi River delta (lL) Parana and Paraguay Rivers, Argentina (uR) Brahmaputra River braids (lR) Mississippi River delta region Rio de la Plata, Argentina-Uruguay Grand Canyon, AZ, with snow (L) Upsala Glacier, Argentina (R) Malaspina Glacier, AK Fjorded coastline, Greenland (uL) Raised shorelines, James Bay, Canada (R) Iceberg, South Atlantic Ocean Photo # (mission-roll-frame) STS 085-707-055 STS 064-051-025 ISS 004-E-10921 STS 61A-050-0057 STS 051-102-085 STS 41G-120-0022 STS 076-727-080 ISS 008-E-6150 STS 028-074-070 STS 062-104-029 STS 080-704-022 STS 068-173-103 STS 073-726-004 STS 058-073-083 STS 040-077-057 STS 040-609-040 STS 062-098-156 STS 060-114-080 STS 087-707-092 STS 062-081-065 STS 41B-042-2483 ISS 003-ESC-6632 STS 51C-143-0027 ISS 008-E-5983 STS 060-083-005 ISS 004-E-7700 STS 028-097-081 STS 085-713-074 STS 099-706-090 STS 048-073-00Q 60 Slide # Photo description (position) 29. 29. 30. 30. 30. 31. 31. 32. 33. 34. 35. 35. 36. 36. 37. 37. 38. 38. 39. 39. 40. 41. 41. 42. 42. 43. 43. 44. 45. 45. Lake Poopo, Bolivia, 1990 (L) Lake Poopo, Bolivia, 1995 (lR) Kara-Bogaz Gol, Caspian Sea, 1995 (L) Kara-Bogaz Gol, Caspian Sea, 1985 (lR) Kara-Bogaz Gol, Caspian Sea, inlet (inset) Dust blow, Mauritania (L) Namib Desert, Namibia (R) Rio Grande dust plumes, Bolivia coastal dunes, Brazil Hurricane Claudette, Gulf Coast, TX Hurricane Isabel eye of Isabel (inset) Supercell thunderstorms, Canada (L) Monsoonal thunderstorms, Bangladesh & India (R) Oyashio Current sea ice (uL) Cape Hatteras, NC (R) Plankton bloom, South Atlantic Ocean (L) Algal whitings, Little Bahama Bank (R) Great Barrier Reef, Australia (L) Bora-Bora, Pacific Ocean (uR) Maldives, Indian Ocean Fires, sediment plumes, Borneo (L) Radial deforestation, Tierras Bajas, Bolivia (R) Deforestation, Rondonia Brazil, 1985 (L) Deforestation, Rondonia, Brazil, 1992 (R) Betsiboka River delta, Madagascar, 1983 (lL) Betsiboka River delta, Madagscar, 2001 (uR) Etosha Pan, Namibia-Angola Egypt-Israel border (L) USA (CA)-Mexico border (R) Photo # (mission-roll-frame) STS 032-088-069 STS 073-735-047 STS 073-701-033 STS 51F-040-0064 STS 111-E-5485 STS 103-734-020 STS 103-732-005 ISS 004-715-040 ISS 007-E-15177 ISS 007-E-10244 ISS 007-E-14750 ISS 007-E-14745 STS 064-205-050 STS 51F-031-069 STS 045-079-00N STS 034-083-069 STS 088-720-020 STS 088-719-029 STS 046-077-031 STS 068-258-042 STS 056-152-160 STS 093-708-062 ISS 002-ESC-5654 STS 51G-034-060 STS 046-078-026 STS 007-003-058 ISS 003-ESC-5073 STS 51G-046-078 STS 111-712-008 STS 111-E-5224 61 Slide # Photo description (position) 46. 46. 47. 48. 49. 49. 50. 50. 51. 52. 52. 53. 53. 54. 55. 55. 56. 56. 56. 57. 58. Aral Sea, 1985 (L) Aral Sea, 1992 (R) Aral Sea, bisected, 2002 Pivot irrigation, Saudi Arabia Mono Lake, Sierra Nevada, CA (L) Las Vegas area, NV (R) Lake Powell, UT-AZ Glen Canyon Dam (inset) agricultural landscape, Uzbekistan St. Louis area, MO (L) Yellow River, NW China (R) Po River Valley smog, Italy (uL) Smog layer, Upstate NY (lR) southern California wildfires, 2003 Galapagos Islands, Pacific Ocean (uL) Manicouagan Reservoir, Quebec (uR) Laguna Superior, Mexico (lL) Tokyo Harbor, Japan (lC) Dhaulagiri Himal, Nepal (lR) STS 109 (Space Shuttle) landing “Blue Marble”, whole Earth (R) Photo # (mission-roll-frame) STS 051F-036-059 STS 047-079-083 STS 112-703-157 STS 083-747-033 STS 41G-044-019 STS 073-706-020 ISS 003-E-7751 ISS 006-E-28359 STS 111-340-017 STS 062-081-002 STS 068-239-083 NASA 6-703-044 STS 092-713-032 ISS 007-E-18088 STS 099-753-032 STS 099-749-063 STS 107-E-5180 STS 107-E-5240 STS 107-E-5308 KSC 02PD-0264 AS 17-148-22721 Position of Photograph on the Slide: L = left; R = right; uL = upper left; lL = lower left; uR = upper right; lR = lower right; C = center; inset = within other photo; lC = lower center 62