File:Pedestal Crater and ridge.JPG

Pedestal_Crater_and_ridge.JPG (470 × 463像素,文件大小:22 KB,MIME类型:image/jpeg


摘要

描述
English: Flat-Topped Sinuous Ridge Contacting Pedestal Crater. Location 7.8 degrees north latitude and 348.2 degrees east longitude. Image was taken by the Mars Reconnaissance Orbiter's HiRISE.

Description from source: "This image shows part of a pedestal crater overlying a flat-topped ridge several degrees north of the Martian equator and just west of Meridiani Planum, the landing site of the Mars Exploration Rover, Opportunity. Part of a crater and its ejecta blanket (the deposit of debris that surrounds the crater, created by a meteorite impact on the surface of Mars) is visible in this image. The ejecta blanket is composed of materials which are resistant to erosion and coat surface material around the crater causing it to erode more slowly than the rest of the region. Eventually, erosion of the topmost layers of the surrounding plains cause the crater and ejecta to appear as if standing upon a raised platform or pedestal. Features such as this on Mars are called pedestal craters. In this example, the eroding ejecta has ragged edges with some detached mesas and buttes and resistant layers in the ejecta are forming steep and overhanging cliffs. Emerging from the rock beneath the pedestal crater is an inverted flat-topped channel. Similar to the pedestal craters, inverted channels occur when former channel depressions become elevated because materials that fill the depressions are more resistant to erosion than the surrounding terrain. For example, a depression may become filled with lava that is more resistant to erosion than the surrounding surface, or gravel or boulders transported in a high energy flow that protect underlying material from erosion, or sediments deposited by a flowing stream that have become cemented. In this image, the pedestal crater superposes the flat-topped ridge indicating that it is younger and formed after the channel. Therefore the channel formed first, possibly a result of water flowing on the surface. Resistant materials were deposited on the flat channel floor and the channel was later filled and buried by sediments.

Even later, a meteorite impacted the surface of sediments above the channel forming a crater and ejecta blanket of resistant materials that protected underlying materials from being blown away and eroded. Over time, the topmost layers of the surrounding plains eroded due to winds or climate change or other factors leaving the crater and ejecta raised above the surrounding surface. Continued erosion also eventually exhumed and inverted the flat-topped channel in the rock layers beneath the crater."
日期
来源 http://www.uahirise.org/PSP_010829_1880
作者 Jim Secosky modified NASA image.

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Public domain 本文件完全由NASA创作,在美国属于公有领域。根据NASA的版权方针,NASA的材料除非另有声明否则不受版权保护。(参见Template:PD-USGov/zhNASA版权方针页面JPL图片使用方针。)
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  • 2009-04-13 18:32 Jimmarsmars 470×463× (22987 bytes) {{Information |Description = Pedestal Crater and finverted flat-topped ridge, as seen by hirise. Location is 7.8 degrees north latitude and 348.2 degrees east longitude. |Source = http://hirise.lpl.arizona.edu?PSP_010829_1880 |Date

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