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For more information contact:
Krishna Ramanujan
NASA Goddard Space Flight Center
phone: 607-273-2561
Scott Harris
United States Geological Survey
703-648-4054
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| Viewable Images |
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Caption for Item 1: Band Iron Formations
These Band Iron formations are precambrian sedimentary rocks. They are highly magnetic. Band Iron Formations like this one were responsible for prominent variations in Earth's magnetic field, like the Kursk Magnetic Anomaly that was remotely sensed by satellites. Kursk is located in western Russia, at the confluence of the Seym and Tuskar rivers. Credit: Photo courtesy of P.Hoffman
Caption for Item 2: Lithospheric Magnetic Anomalies
This image shows variations in magnetic fields in the upper layer of Earth's surface known as the lithosphere. The data were acquired by satellites passing over at an altitude of 400 km. The satellite data were run through a model to produce this image. The units are in nanoteslas, the common unit for measuring magnetic fields. The color bar indicates areas with positive and negative magnetic fields. Credit: Terrence Sabaka et al./NASA GSFC
Caption for Item 3: NASA Map for Rock Magnetic Data Locations
This image shows a map for rock magnetic data locations found in the NASA Goddard Space Flight Center magnetic database. NASA's database contains 19,000 samples. Credit: K. Nazarova/NASA GSFC
Caption for Item 4: USGS Rock Magnetic Data Locations
This image shows a map for rock magnetic data locations found in the USGS magnetic database. USGS's database contains 17,000 samples. Credit: J. Glen/USGS
Higher resolution image
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The Top Story Archive listing can be found by clicking on this link.
All stories found on a Top Story page or the front page of this site have been archived from most to least current on this page.
For a list of recent press releases, click here.
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May 17, 2004 - (date of web publication)
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NASA WEB FEATURE
NASA AND USGS MAGNETIC DATABASE "ROCKS" THE WORLD
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Item 1
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NASA and the United States Geological Survey (USGS) are teaming up to create one of the most complete databases of magnetic properties of Earth’s rocks ever assembled. The partnership demonstrates ongoing interagency collaboration.
Satellite data of Earth's magnetic field combined with rock magnetic data collected on the ground will provide more complete insight into Earth's geology, gravity and magnetism.
Satellites, including NASA’s Magsat, have detected magnetic signals in the upper layer of the Earth, called the lithosphere. With over 36,000 rock samples, the combined database will help researchers determine the origin of these signals in Earth's crust.
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Item 2
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The database will be available to the public via the Internet. A clickable map of the world will include locations where detailed rock magnetic data were collected.
Open access to specific properties and locations of each type of rock will allow researchers to more accurately model Earth’s gravity and magnetic fields. This should improve our understanding of the structure and development of Earth’s crust.
“The information in this database will allow more realistic interpretations of satellite magnetic data and will contribute to a variety of studies such as groundwater, mineral resource, and earthquake hazard investigations,” said Katherine Nazarova, a researcher at NASA Goddard Space Flight Center (GSFC) who is coordinating the collaborative effort with Jonathan Glen from the USGS.
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Item 3
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The NASA GSFC database contains magnetic properties of 19,000 samples. The samples come from all over the world including the Ukrainian and Baltic shields, Kamchatka, the Ural Mountains and Iceland.
2000 Icelandic rocks in the database have helped explain the source of unusual magnetic activity in Iceland recorded by both Magsat and German Champ missions. Database records revealed the magnetic shifts in Iceland were caused by ferrobasalts, analogues to Martian rocks. As researchers continue to study Mars, these findings may shed light on Mars’ geology.
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Item 4
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The USGS database contains rock densities and magnetic properties for some 17,000 entries. Many of these data were taken from surface outcrops in the Western U.S. They span a broad range of rock types.
Researchers collect rock specimens and data in a variety of ways. Research vessels are used to dredge samples from the ocean floor. Ships may also carry huge deep-sea drills that pull cores of sediment and rock from the beneath the ocean. The database includes rock magnetic data from the deepest borehole in the world. It was drilled in northern Russia in the Baltic Shield. Researchers drilled and extracted cores from the continental crust as deep as 12.26 kilometers (7.62 miles).
On land, scientists may collect samples from rock outcrops. When rocks have been exposed to the elements, researchers use small hand drills to uncover fresh material under a rock's surface.
Satellites that have detected unexplained variations in Earth's magnetic field include NASA's Magsat and Polar Orbiting Geophysical Observatory, Germany’s Champ satellite, and the Danish Oersted satellite.
The combined USGS and GSFC databases and future updates will eventually be available and maintained through the National Oceanic and Atmospheric Administration at the World Data Center A in Boulder, Colorado.
Nazarova will present a poster describing the database at the 2004 Joint Assembly of the American Geophysical Union taking place this week in Montreal, Canada.
The mission of NASA's Earth Science Enterprise is to develop a scientific understanding of the Earth System and its response to natural or human-induced changes to enable improved prediction capability for climate, weather, and natural hazards.
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