Abstract
We present a regional model for the density structure of the North American upper mantle. The residual mantle
gravity anomalies are based on gravity data derived from the GOCE geopotential models with crustal correction
to the gravity field being calculated from a regional crustal model.
We analyze how uncertainties and errors in the crustal model propagate from crustal densities to mantle
residual gravity anomalies and the density model of the upper mantle.
Uncertainties in the residual upper (lithospheric) mantle gravity anomalies result from several sources: (i)
uncertainties in the velocity-density conversion and (ii) uncertainties in knowledge of the crustal structure
(thickness and average Vp velocities of individual crustal layers, including the sedimentary cover). In this study,
we address both sources of possible uncertainties by applying different conversions from velocity to density and
by introducing variations into the crustal structure which corresponds to the uncertainty of its resolution by highquality
and low-quality seismic models. We examine the propagation of these uncertainties into determinations
of lithospheric mantle density. Given a relatively small range of expected density variations in the lithospheric
mantle, knowledge on the uncertainties associated with incomplete knowledge of density structure of the crust is
of utmost importance for further progress in such studies.
The new regional density model for the North American upper mantle complements an on-going study of
the regional upper mantle velocity and density structure by other methods. Our new regional density model is
compared to regional and world-wide petrological data on upper mantle densities constrained by mantle-derived
xenoliths.
gravity anomalies are based on gravity data derived from the GOCE geopotential models with crustal correction
to the gravity field being calculated from a regional crustal model.
We analyze how uncertainties and errors in the crustal model propagate from crustal densities to mantle
residual gravity anomalies and the density model of the upper mantle.
Uncertainties in the residual upper (lithospheric) mantle gravity anomalies result from several sources: (i)
uncertainties in the velocity-density conversion and (ii) uncertainties in knowledge of the crustal structure
(thickness and average Vp velocities of individual crustal layers, including the sedimentary cover). In this study,
we address both sources of possible uncertainties by applying different conversions from velocity to density and
by introducing variations into the crustal structure which corresponds to the uncertainty of its resolution by highquality
and low-quality seismic models. We examine the propagation of these uncertainties into determinations
of lithospheric mantle density. Given a relatively small range of expected density variations in the lithospheric
mantle, knowledge on the uncertainties associated with incomplete knowledge of density structure of the crust is
of utmost importance for further progress in such studies.
The new regional density model for the North American upper mantle complements an on-going study of
the regional upper mantle velocity and density structure by other methods. Our new regional density model is
compared to regional and world-wide petrological data on upper mantle densities constrained by mantle-derived
xenoliths.
| Original language | English |
|---|---|
| Article number | 5472 |
| Journal | Geophysical Research Abstracts |
| Volume | 16 |
| Number of pages | 1 |
| ISSN | 1029-7006 |
| Publication status | Published - Apr 2014 |
| Event | EGU General Assembly 2014 - Vienna, Austria Duration: 26 Apr 2014 → 2 May 2014 |
Conference
| Conference | EGU General Assembly 2014 |
|---|---|
| Country/Territory | Austria |
| City | Vienna |
| Period | 26/04/2014 → 02/05/2014 |