Whether the formation of the Martian valley networks provides unequivocal evidence for drastically different climatic conditions remains debatable. Recent theoretical climate modeling precludes the existence of a temperate climate early in Mars' geological history. An alternative hypothesis suggests that Mars had a globally higher heat flow early in its geological history, bringing water tables to within 350 m of the surface. While a globally higher heat flow would initiate ground water circulation at depth, the valley networks probably required water tables to be even closer to the surface. Additionally, it was previously reported that the clustered distribution of the valley networks within terrain types, particularly in the heavily crate...
There is abundant geomorphic evidence to suggest that Mars once had a much denser and warmer atmosph...
Mars' surface bears the imprint of valley networks formed billions of years ago. Whether these netwo...
Fluvial erosion on Mars has been nonuniform in both time and space. Viking orbiter images reveal a v...
This dissertation investigates the possible role of hydrothermally driven groundwater outflow in the...
The valley networks may hold the key to unlocking the paleoclimatic history of Mars. These enigmatic...
The geological evidence for active water cycling early in the history of Mars (Noachian geological s...
The geomorphology of the Martian valley networks is examined from a hydrological perspective for the...
Given the geomorphic evidence for the widespread occurrence of water and ice in the early Martian cr...
[1] Valley networks provide compelling evidence that past geologic processes on Mars were different ...
The presence of valley networks (VN) on Mars suggests that early Mars was warmer and wetter than pre...
The conditions under which the valley networks on the ancient cratered terrain on Mars formed are st...
Morphologic similarities between the Martian valley networks and terrestrial runoff channel have bee...
The surface of Mars is incised with hundreds of ancient valley networks, the physical record of flow...
The surface of Mars is incised with hundreds of ancient valley networks, the physical record of flow...
Mars’ surface bears the imprint of valley networks formed billions of years ago. Whether these netwo...
There is abundant geomorphic evidence to suggest that Mars once had a much denser and warmer atmosph...
Mars' surface bears the imprint of valley networks formed billions of years ago. Whether these netwo...
Fluvial erosion on Mars has been nonuniform in both time and space. Viking orbiter images reveal a v...
This dissertation investigates the possible role of hydrothermally driven groundwater outflow in the...
The valley networks may hold the key to unlocking the paleoclimatic history of Mars. These enigmatic...
The geological evidence for active water cycling early in the history of Mars (Noachian geological s...
The geomorphology of the Martian valley networks is examined from a hydrological perspective for the...
Given the geomorphic evidence for the widespread occurrence of water and ice in the early Martian cr...
[1] Valley networks provide compelling evidence that past geologic processes on Mars were different ...
The presence of valley networks (VN) on Mars suggests that early Mars was warmer and wetter than pre...
The conditions under which the valley networks on the ancient cratered terrain on Mars formed are st...
Morphologic similarities between the Martian valley networks and terrestrial runoff channel have bee...
The surface of Mars is incised with hundreds of ancient valley networks, the physical record of flow...
The surface of Mars is incised with hundreds of ancient valley networks, the physical record of flow...
Mars’ surface bears the imprint of valley networks formed billions of years ago. Whether these netwo...
There is abundant geomorphic evidence to suggest that Mars once had a much denser and warmer atmosph...
Mars' surface bears the imprint of valley networks formed billions of years ago. Whether these netwo...
Fluvial erosion on Mars has been nonuniform in both time and space. Viking orbiter images reveal a v...
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