NASA's Newest Maps Reveal A Continent's Grandeur And A Secret

DEEP IMPACT

This shaded relief image of Mexico�s Yucatan Peninsula show a subtle, but unmistakable, indication of the Chicxulub impact crater. Most scientists now agree that this impact was the cause of the Cretatious-Tertiary Extinction, the event 65 million years ago that marked the sudden extinction of the dinosaurs as well as the majority of life then on Earth. In this computer-enhanced image the topography has been greatly exaggerated to highlight a semicircular trough, the darker green arcing line at the upper left corner of the peninsula. This trough is only about 3 to 5 meters (10 to 15 feet) deep and is about 5 km. wide (3 miles), so subtle that if you walked across it you probably would not notice it, and is a surface expression of the crater's outer boundary. Scientists believe the impact, which was centered just off the coast in the Caribbean, altered the subsurface rocks such that the overlying limestone sediments, which formed later and erode very easily, would preferentially erode on the vicinity of the crater rim. This formed the trough as well as numerous sinkholes (called cenotes) which are visible as small circular depressions. Shuttle Radar Topography Mission based image

Bethesda - Mar 07, 2003
From Canada to Central America, the many grandeurs of North America's diverse topography star in a just-released high-resolution map from NASA's Shuttle Radar Topography Mission (SRTM). But a relatively obscure feature, all but hidden in the flat limestone plateau of Mexico's Yucatan Peninsula, is what emerges as the initial showstopper from the mission's first released continental data set.

The existence of the impact crater, Chicxulub, was first proposed in 1980. In the 1990s, satellite data and ground studies allowed it to gain prominence among most scientists as the long sought-after "smoking gun" responsible for the demise of the dinosaurs and more than 70 percent of Earth's living species 65 million years ago.

The SRTM has provided the most telling visible evidence to date of a 180-kilometer (112-mile) wide, 900-meter (3,000-foot) deep impact crater, the result of a collision with a giant comet or asteroid on one of Earth's all-time worst days.

"This new, complete North American data set greatly expands our topographic knowledge of Canada, southern Alaska and its Aleutian Islands, Mexico and Central America," said Dr. Michael Kobrick, SRTM project scientist at NASA's Jet Propulsion Laboratory (JPL), Pasadena, Calif.

"There are spectacular features that pop out in these maps as never before, and more subtle features, like Chicxulub, become apparent for the first time. In fact, much of the surface expression of Chicxulub is so subtle; if you walked across it you probably wouldn't notice it. That's where the view from space becomes invaluable, " Kobrick said.

The Chicxulub data show a subtle, yet unmistakable, topographic indication of the impact crater's outer boundary: a semicircular trough 3 to 5 meters (10 to 15 feet) deep and 5 kilometers (3 miles) wide. Scientists believe the impact, centered off Yucatan's coast in the Caribbean, disturbed the subsurface rocks, making them unstable.

The rocks were subsequently buried by limestone sediments, which erode easily. The crater rim's instability caused the limestone to fracture along the rim, forming the trough. In addition, the collapse of numerous limestone caverns above the crater rim resulted in an arcing chain of sinkholes, called cenotes, that are visible as small, circular depressions.

Exactly how the Chicxulub impact caused Earth's mass extinctions is not known. Some scientists think it threw massive quantities of dust into the atmosphere, blocking the sun and stopping plants from growing. Others believe sulfur released by the impact lead to global sulfuric acid clouds that blocked the sun and also fell as acid rain. Another possibility is global wildfires triggered by atmospheric reentry of red-hot debris.

The remainder of the North American data paints a dynamic portrait of a geologically complex continent. Active structural deformations of Earth's crust along and near the Pacific/North American tectonic plate boundary create the diverse topographic relief of the Pacific coast.

Across the Great Plains, erosional patterns dominate, with stream channels surrounding and penetrating remnants of older smooth slopes. In Canada and the northern U.S., evidence of glaciers from the last ice age abounds.

In February, NASA finished processing the mission's data and delivered it to the National Imagery and Mapping Agency (NIMA). More than eight terabytes of data recorded aboard the Space Shuttle Endeavour were refined into 200 billion research-quality measurements of Earth's landforms. The NIMA will perform additional data finishing and send it to the U.S. Geological Survey's Earth Resources Observation Systems Data Center, Sioux Falls, S.D., for final archiving and distribution. South America will be the next continental dataset.

The SRTM, flown Feb. 11 to 22, 2000, made 3-D measurements of the more than 80 percent of Earth's landmass located between 60 degrees north and 56 degrees south of the equator; areas home to nearly 95 percent of the world's population. SRTM is a cooperative project of NASA, NIMA, the Department of Defense, the German and Italian space agencies. Fulfilling part of NASA's mission to understand and protect our home planet, it is managed by JPL for NASA's Earth Science Enterprise, Washington. The California Institute of Technology in Pasadena manages JPL for NASA.

DEEP IMPACT

The Human Dimensions Of A Near-Earth Object Impact

New Brunswick - Feb 17, 2003
Recently Lee Clarke, a sociology professor at Rutgers, The State University of New Jersey, discussed "Responding to Panic in a Global Impact Catastrophe" during a symposium at the American Association for the Advancement of Science (AAAS) annual meeting in Denver.

Correlation Found Between Impacts And Increased Volcanic Activity

New York - Jan 28, 2003
Supporting the theory that catastrophic events significantly influence major Earth processes, researchers have determined that comet and meteorite impacts on Earth occurring over the last 4 billion years have directly correlated with the activity of strong and normal mantle plumes - heated mantle rock causing volcanic eruptions (e.g. Hawaii, Iceland).

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