Identification of possible recent water/lava source vents in the Cerberus plains: Stratigraphic and crater count age constraints

In order to investigate sources of lava and water to the Cerberus plains of Mars, geomorphological mapping on High Resolution Imaging Science Experiment (HiRISE) images was carried out to reveal the history of activity of fissures and pits which lie upstream of channels and deposits associated with...

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Bibliographic Details
Published in:Journal of geophysical research. Planets 2013-04, Vol.118 (4), p.789-802
Main Author: Thomas, Rebecca J.
Format: Article
Language:English
Subjects:
Amazonian outflows
Cerberus plains
Channels
Craters
Dating
Deposition
Lava
Mapping
Mars
Pits
source vents
Vents
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Summary:In order to investigate sources of lava and water to the Cerberus plains of Mars, geomorphological mapping on High Resolution Imaging Science Experiment (HiRISE) images was carried out to reveal the history of activity of fissures and pits which lie upstream of channels and deposits associated with a wrinkle ridge near Cerberus Fossae. The fissures and pits are superbly exposed and imaged, and flows and channels emanate directly from them, interpreted as clear evidence that these are vents. The mapping establishes stratigraphic relationships between the plains and the channels and deposits originating from the vents, establishing the vent history. For example, to the south of the wrinkle ridge, both incised channels and leveed flows extend onto the southern plain and are clearly the final phase of plains‐forming activity. Conversely, to the north, vent‐sourced channels only incise the plain close to the ridge—beyond that, they are overlain by large‐scale regional flows that appear to have originated from the direction of Athabasca Valles. In the southeast, there is evidence of contemporaneity between vent‐sourced activity and large‐scale plains‐forming flow that was not sourced from the vents, indicating that activity here was part of a broader process of Cerberus plains formation from multiple sources. Crater counts show all the activity to be Late Amazonian, with the latest activity tentatively dating to circa 11 Ma. Thus, this study implies that very recent outflows from these vents contributed to the formation of the Cerberus plains and constrains the timing and local flow direction of plains‐forming deposits from other sources. Key Points Stratigraphic mapping reveals Cerberus plains source vents Outflow activity was recent, tentatively dating up to 11Ma Dating constrains that of other large‐scale flows in the region
ISSN:2169-9097
2169-9100
DOI:10.1002/jgre.20071