An intense terminal epoch of widespread fluvial activity on early Mars: 2. Increased runoff and paleolake development

An intense terminal epoch of widespread fluvial activity on early Mars: 2. Increased runoff and paleolake development

To explain the much higher denudation rates and valley network development on early Mars (>∼3.6 Gyr ago), most investigators have invoked either steady state warm/wet (Earthlike) or cold/dry (modern Mars) end‐member paleoclimates. Here we discuss evidence that highland gradation was prolonged, bu...

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Bibliographic Details
Published in:Journal of Geophysical Research - Planets Vol. 110; no. E12; pp. E12S15 - n/a
Main Authors: Irwin III, Rossman P., Howard, Alan D., Craddock, Robert A., Moore, Jeffrey M.
Format: Journal Article Conference Proceeding
Language:English
Published: Washington, DC American Geophysical Union 01-12-2005
Blackwell Publishing Ltd
Subjects:
early Mars
Earth sciences
Earth, ocean, space
Erosion and weathering
Exact sciences and technology
fluvial
Mars
Noachian
Planetary Sciences
Solar System Objects
Solid Surface Planets
Surface materials and properties
Noachian
early Mars
fluvial
terrains
denudation
Drainage basins
Hesperian
Crater Lake
crater lakes
recovery
networks
paleoclimate
landforms
Mars
modern
channels
interpretation
Runoff
erosion
scarps
deltas
valleys
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Summary:To explain the much higher denudation rates and valley network development on early Mars (>∼3.6 Gyr ago), most investigators have invoked either steady state warm/wet (Earthlike) or cold/dry (modern Mars) end‐member paleoclimates. Here we discuss evidence that highland gradation was prolonged, but generally slow and possibly ephemeral during the Noachian Period, and that the immature valley networks entrenched during a brief terminal epoch of more erosive fluvial activity in the late Noachian to early Hesperian. Observational support for this interpretation includes (1) late‐stage breaching of some enclosed basins that had previously been extensively modified, but only by internal erosion and deposition; (2) deposition of pristine deltas and fans during a late stage of contributing valley entrenchment; (3) a brief, erosive response to base level decline (which was imparted as fretted terrain developed by a suite of processes unrelated to surface runoff) in fluvial valleys that crosscut the highland‐lowland boundary scarp; and (4) width/contributing area relationships of interior channels within valley networks, which record significant late‐stage runoff production with no evidence of recovery to lower‐flow conditions. This erosion appears to have ended abruptly, as depositional landforms generally were not entrenched with declining base level in crater lakes. A possible planetwide synchronicity and common cause to the late‐stage fluvial activity are possible but remain uncertain. This increased activity of valley networks is offered as a possible explanation for diverse features of highland drainage basins, which were previously cited to support competing warm, wet and cold, dry paleoclimate scenarios.
Bibliography:ArticleID:2005JE002460
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ark:/67375/WNG-H8JBK2SW-8
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ISSN:0148-0227
2156-2202
DOI:10.1029/2005JE002460