3-D multiobservable probabilistic inversion for the compositional and thermal structure of the lithosphere and upper mantle

III. Thermochemical tomography in the Western-Central US

Juan Carlos Afonso*, Nicholas Rawlinson, Yingjie Yang, Derek L. Schutt, Alan G. Jones, Javier Fullea, William L. Griffin

*Corresponding author for this work

Research output: Contribution to journalArticle

27 Citations (Scopus)

Abstract

We apply a novel 3-D multiobservable probabilistic tomography method that we have recently developed and benchmarked, to directly image the thermochemical structure of the Colorado Plateau and surrounding areas by jointly inverting P wave and S wave teleseismic arrival times, Rayleigh wave dispersion data, Bouguer anomalies, satellite-derived gravity gradients, geoid height, absolute (local and dynamic) elevation, and surface heat flow data. The temperature and compositional structures recovered by our inversion reveal a high level of correlation between recent basaltic magmatism and zones of high temperature and low Mg# (i.e., refertilized mantle) in the lithosphere, consistent with independent geochemical data. However, the lithospheric mantle is overall characterized by a highly heterogeneous thermochemical structure, with only some features correlating well with either Proterozoic and/or Cenozoic crustal structures. This suggests that most of the present-day deep lithospheric architecture reflects the superposition of numerous geodynamic events of different scale and nature to those that created major crustal structures. This is consistent with the complex lithosphere-asthenosphere system that we image, which exhibits a variety of multiscale feedback mechanisms (e.g., small-scale convection, magmatic intrusion, delamination, etc.) driving surface processes. Our results also suggest that most of the present-day elevation in the Colorado Plateau and surrounding regions is the result of thermochemical buoyancy sources within the lithosphere, with dynamic effects (from sublithospheric mantle flow) contributing only locally up to ∼15–35%.

Original languageEnglish
Pages (from-to)7337-7370
Number of pages34
JournalJournal of Geophysical Research: Solid Earth
Volume121
Issue number10
DOIs
Publication statusPublished - 1 Oct 2016

Keywords

  • Colorado Plateau
  • Western U.S
  • joint inversion
  • lithospheric structure
  • mantle composition
  • thermochemical tomography

Fingerprint Dive into the research topics of '3-D multiobservable probabilistic inversion for the compositional and thermal structure of the lithosphere and upper mantle: III. Thermochemical tomography in the Western-Central US'. Together they form a unique fingerprint.

  • Projects

    Cite this