TY - JOUR
T1 - Erosion by catastrophic floods on Mars and Earth
AU - Baker, Victor R.
AU - Milton, Daniel J.
N1 - Funding Information:
Preliminary versions of this paper were read by W. D. Manley, Jr., and R. G. Sheperd, C. A. Hodges and M. H. Carr. Work by D. J. Milton was supported by Planetology Programs, NASA Headquarters, under contract W-13204, and Mariner Mars 1971 Project, Jet Propulsion Laboratory, California Institute of Technology, under contract WO-8122. Financial aid to V. R. Baker was provided by National Science Foundation grant GA-21478 and by The Geological Foundation of The University of Texas at Austin.
PY - 1974/9
Y1 - 1974/9
N2 - The large Martian channels, especially Kasei, Ares, Tiu, Simud, and Mangala Valles, show morphologic features strikingly similar to those of the Channeled Scabland of eastern Washington, produced by the catastrophic breakout floods of Pleistocene Lake Missoula. Features in the overall pattern include the great size, regional anastomosis, and low sinuosity of the channels. Erosional features are streamlined hills, longitudinal grooves, inner channel cataracts, scour upstream of flow obstacles, and perhaps marginal cataracts and butte and basin topography. Depositional features are bar complexes in expanding reaches and perhaps pendant bars and alcove bars. Scabland erosion takes place in exceedingly deep, swift floodwater acting on closely jointed bedrock as a hydrodynamic consequence of secondary flow phenomena, including various forms of macroturbulent votices and flow separations. If the analogy to the Channeled Scabland is correct, floods involving water discharges of millions of cubic meters per second and peak flow velocities of tens of meters per second, but perhaps lasting no more than a few days, have occurred on Mars.
AB - The large Martian channels, especially Kasei, Ares, Tiu, Simud, and Mangala Valles, show morphologic features strikingly similar to those of the Channeled Scabland of eastern Washington, produced by the catastrophic breakout floods of Pleistocene Lake Missoula. Features in the overall pattern include the great size, regional anastomosis, and low sinuosity of the channels. Erosional features are streamlined hills, longitudinal grooves, inner channel cataracts, scour upstream of flow obstacles, and perhaps marginal cataracts and butte and basin topography. Depositional features are bar complexes in expanding reaches and perhaps pendant bars and alcove bars. Scabland erosion takes place in exceedingly deep, swift floodwater acting on closely jointed bedrock as a hydrodynamic consequence of secondary flow phenomena, including various forms of macroturbulent votices and flow separations. If the analogy to the Channeled Scabland is correct, floods involving water discharges of millions of cubic meters per second and peak flow velocities of tens of meters per second, but perhaps lasting no more than a few days, have occurred on Mars.
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U2 - 10.1016/0019-1035(74)90101-8
DO - 10.1016/0019-1035(74)90101-8
M3 - Article
AN - SCOPUS:49549150008
SN - 0019-1035
VL - 23
SP - 27
EP - 41
JO - Icarus
JF - Icarus
IS - 1
ER -