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Voluminous volcanism on early Mars revealed in Valles Marineris

Author

Listed:
  • Alfred S. McEwen

    (Lunar and Planetary Laboratory, University of Arizona)

  • Michael C. Malin

    (Malin Space Science Systems)

  • Michael H. Carr

    (US Geological Survey)

  • William K. Hartmann

    (Planetary Science Institute)

Abstract

The relative rates and importance of impact cratering, volcanism, erosion, and the deposition of sediments to the early geological history of Mars are poorly known. That history is recorded in the upper crust of the planet, which is best exposed along the 4,000-km-long canyon system called Valles Marineris. Previous studies of the stratigraphy of this region have assumed that it consists of megabreccia and fractured bedrock resulting from impacts, overlain by or interbedded with relatively thin layers of lava, and with the layering restricted to the uppermost level of the crust1,2,3,4,5,6. Here we report new high-resolution images that reveal ubiquitous horizontal layering to depths of at least 8 km in the canyons. Megabreccia should be only coarsely layered and fractured bedrock should be unlayered, so these observations indicate that volcanic or sedimentary processes were much more important in early martian history than previously believed. Morphological and compositional data suggest that the layers were formed mainly by volcanic flood lavas. Mars was therefore probably very volcanically active during at least the first billion years and after the period when the heaviest impact bombardment had ended.

Suggested Citation

  • Alfred S. McEwen & Michael C. Malin & Michael H. Carr & William K. Hartmann, 1999. "Voluminous volcanism on early Mars revealed in Valles Marineris," Nature, Nature, vol. 397(6720), pages 584-586, February.
    • Handle: RePEc:nat:nature:v:397:y:1999:i:6720:d:10.1038_17539
    DOI: 10.1038/17539
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    Cited by:

    1. Dariusz Knez & Mohammad Ahmad Mahmoudi Zamani, 2021. "A Review of the Geomechanics Aspects in Space Exploration," Energies, MDPI, vol. 14(22), pages 1-21, November.
    2. Quinn, Daven & Ehlmann, Bethany, 2018. "A PCA-based framework for determining remotely-sensed geological surface orientations and their statistical quality," Earth Arxiv 4enzu, Center for Open Science.

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