James Ross Island
| James Ross Island | |
| ö/ögrupp | |
 1 Trinityhalvön, 2 James Ross Island, 3 D'Urville Island, 4 Joinvilleön, 5 Dundee Island, 6 Snow Hill Island, 7 Vega Island, 8 Seymourön, 9 Andersson Island, 10 Pauletön, 11 Lockyer Island, 12 Eagle Island, 13 Jonassen Island, 14 Bransfield Island, 15 Astrolabe Island, 16 Zigzag Island | |
| Land |  Antarktis |
|---|---|
| Läge | James Ross Island |
| - koordinater | 64°10′0″S 57°45′0″V / 64.16667°S 57.75000°V |
| Längd | 75 km |
| Bredd | 64 km |
| Höjd | 1 630 m |
| Area | 2 378 km² |
| Geonames | 6620713 |
James Ross Island är en stor ö öster om Trinityhalvön, som är den norra delen av den Antarktiska halvön.[1] Prince Gustav Channel separerar ön från fastlandet. Ön sträcker sig 65 kilometer i nord-sydlig riktning, och är 2598 km2 stor. Dess högsta punkt, Mount Haddington, befinner sig 1640 m ö.h.
Ön blev kartlagd i november 1903 av den första svenska Antarktisexpeditionen 1901-1903 under ledning av Otto Nordenskjöld. Han namngav ön efter James Clark Ross, som ledde en brittisk expedition till Antarktis 1842. Fram till 1995 förband shelfis ön med fastlandet, men sedan den kollapsat är Prince Gustav Channel färdbar.
Den tjeckiska forskningsstationen Mendel ligger på James Ross Island. Det första fyndet av dinosaurier gjordes på ön 1986.
Källor
- Den här artikeln är helt eller delvis baserad på material från norska Wikipedia (bokmål/riksmål), James Ross Island, 2 april 2013.
- Den här artikeln är helt eller delvis baserad på material från tyskspråkiga Wikipedia, James Ross Island, 22 februari 2015.
- ^ James Ross Island at GeoNames.Org (cc-by); post uppdaterad 2008-01-20; databasdump nerladdad 2015-11-07
Media som används på denna webbplats
Islands near the north end of the Antarctic Peninsula (1 Trinity Peninsula, 2 James Ross Island, 3 D'Urville Island, 4 Joinville Island, 5 Dundee Island, 6 Snow Hill Island, 7 Vega Island, 8 Seymour Island, 9 Andersson Island, 10 Paulet Island, 11 Lockyer Island, 12 Eagle Island, 13 Jonassen Island, 14 Bransfield Island, 15 Astrolabe Island, 16 Tower Island)
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Författare/Upphovsman: Tobias Jakobs (in the public domain)., Licens: CC0
One of several flag proposals for Antarctica.
Författare/Upphovsman: Tobias Jakobs (in the public domain)., Licens: CC0
One of several flag proposals for Antarctica.
James Ross Island from NASA's DC-8 aircraft during an AirSAR 2004 mission over the Antarctic Peninsula.
James Ross Island captured by NASA photographer James Ross (no relation), from NASA's DC-8 aircraft during an AirSAR 2004 mission over the Antarctic Peninsula. James Ross Island, named for 19th century British polar explorer Sir James Clark Ross, is located at the northern tip of the Antarctic Peninsula. The island is about 1500 m high and 40-60 km wide. In recent decades, the area has experienced significant atmospheric warming (about 2 degrees C since 1950), which has triggered a vast and spectacular retreat of its floating ice shelves, glacier reduction, a decrease in permanent snow cover and a lengthening of the melt season. AirSAR 2004 is a three-week expedition in Central and South America by an international team of scientists that is using an all-weather imaging tool, called the Airborne Synthetic Aperture Radar (AirSAR), located onboard NASA's DC-8 airborne laboratory. Scientists from many parts of the world are combining ground research with NASA's AirSAR technology to improve and expand on the quality of research they are able to conduct. These photos are from the DC-8 aircraft while flying an AirSAR mission over Antarctica. The Antarctic Peninsula is more similar to Alaska and Patagonia than to the rest of the Antarctic continent. It is drained by fast glaciers, receives abundant precipitation, and melts significantly in the summer months. This region is being studied by NASA using a DC-8 equipped with the Airborne Synthetic Aperture Radar developed by scientists from NASA’s Jet Propulsion Laboratory. AirSAR will provide a baseline model and unprecedented mapping of the region. This data will make it possible to determine whether the warming trend is slowing, continuing or accelerating. AirSAR will also provide reliable information on ice shelf thickness to measure the contribution of the glaciers to sea level.
AirSAR collects multi-frequency and multi-polarization radar data for a variety of science applications. It also acquires data in interferometric modes, providing topographic information (cross-track mode) or ocean current information (along-track interferometry). This March 2004 deployment was planned to:
- Study the extent and distribution of archeological Mayan civilization (using foliage-penetrating radar)
- Study the glaciers of Patagonia and the Antarctic peninsula
- Investigate new techniques for the measurement of the forest structure of dense tropical forests
- Fill in the largest "void" in the SRTM-derived map of South American topography
- Collect additional data for various research initiatives
During the deployment data is collected over Central and South America and Antarctica. During the approximately 100 flight hours, AirSAR is acquiring polarimetric and/or interferometric data along a 20,000 km track, or about 200,000 sq. km of data over 40 sites for 30 scientists. AirSAR will collect data related to the following NASA Code YS science programs: - Cryospheric Science
- Land Cover/Land Use Change
- Natural Hazards
- Physical Oceanography
- Terrestrial Ecology
- Hydrology
NASA used a DC-8 aircraft as a flying science laboratory. The platform aircraft, was based at NASA's Dryden Flight Research Center, Edwards, Calif., collected data for many experiments in support of scientific projects serving the world scientific community. Included in this community were NASA, federal, state, academic and foreign investigators. Data gathered by the DC-8 at flight altitude and by remote sensing has been used for scientific studies in archeology, ecology, geography, hydrology, meteorology, oceanography, volcanology, atmospheric chemistry, soil science and biology.