Daedalia Planum annotated nadir image

Daedalia Planum annotated nadir image
Daedalia Planum is a sparsely cratered, untextured plain that lies to the southeast of Arsia Mons, one of the largest volcanoes on Mars. It is 350 kilometres in diameter and rises 14 kilometres high. The plain is dominated by numerous lava flows of varying ages.
The images are centred at 21°S and 243°E. They cover about 150 by 75 kilometres or 11 250 square kilometres, an area approximately the size of Jamaica, and have a ground resolution of about 17 metres per pixel.
The map shows two lava flows (1): the younger flow (upper portion visible in nadir images) exhibits flow structures, pressure ridges as well as the central lava channel (upper right corner). An older flow visible in the lower portion has a smoother surface due to gradual accumulation of sediments.
Two striking depressions lying at right angles to the lava flow are also visible in the upper portion of the imaged region (2 and 3). These structures are related to grabens that existed earlier (grabens are depressional features formed by faults in the crust).
It is likely that the lava flows invaded the grabens partially or filled them up completely. Where a graben was only partially filled, the original dimensions are still recognisable.
In the upper left of the nadir image is a portion of this feature that remains unmodified by the younger lava flows.
Existing impact craters have also been transformed by the lava flows. The two larger craters show different stages of modification (visible in the 3D image). The largest crater (bottom) was not affected by the lava flow but the ejecta blanket formed during the impact is partially covered in lava.
The second largest crater has been flooded almost entirely, although minor portions of the rim are still preserved. It is likely that the lava entered through a breach in the rim, filling it up. Fully covered impact craters, whose outlines are still visible, are also known as ghost craters. One such ghost crater is located in the immediate vicinity of the second largest impact crater.
Credit:

ESA/DLR/FU Berlin, CC BY-SA 3.0 IGO.

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