• Title of article

    Evidence of gully formation by regional groundwater flow in the Gorgonum–Newton region (Mars)

  • Author/Authors

    Mلrquez، نويسنده , , Alvaro and de Pablo، نويسنده , , Miguel ءngel and Oyarzun، نويسنده , , Roberto and Viedma، نويسنده , , Cristَbal، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    17
  • From page
    398
  • To page
    414
  • Abstract
    The discovery of gullies on Mars suggests liquid water activity near the surface of the planet in recent times. Since liquid water is unstable under the present-day P–T martian conditions, the formation mechanisms of the gullies, and the source of the putative water, have been a matter of debate for the last years. To provide new insights into these matters, we have approached the problem studying the gullies in relation to their regional setting. A major point in our study relates to the geographic orientation of gullies, an aspect that has been previously regarded as a crucial matter in different models, and has profound implications regarding their origin. We present a comprehensive and detailed survey of the Gorgonum–Newton region, and a study of the Dao and Nirgal Vallis regions. The survey was carried out with the aid of 965 high-resolution MOC images (752 for Gorgonum–Newton, 102 for Nirgal Vallis and 111 for Dao Vallis regions), and MOLA-derived DEMs. We found that gullies display a clear regional pattern, geographically and topographically consistent with a decreasing regional slope. We interpret the results in terms of the existence of several groundwater flow systems operating at different scales, which ultimately may have led to gully formation by seepage at the slopes of craters and canyons. We suggest that aquifers discharging at gully systems may have recharged from the surface, in response to the melting of young partially eroded ice-rich deposits.
  • Keywords
    Mars , geological processes
  • Journal title
    Icarus
  • Serial Year
    2005
  • Journal title
    Icarus
  • Record number

    2373833