Depth-dependent density change within the continental upper mantle

Robert TENZER; Mohammad BAGHERBANDI; Peter VAJDA

doi:10.2478/v10126-012-0001-z

Robert TENZER National School of Surveying, University of Otago
Mohammad BAGHERBANDI Division of Geodesy and Geoinformatics, Royal Institute of Technology (KTH) 10044 Stockholm, Sweden
Peter VAJDA Geophysical Institute of the Slovak Academy of Sciences

DOI: https://doi.org/10.2478/v10126-012-0001-z

Keywords: density interface, gravity, isostasy, mantle, Moho depths 1. Introduction

Abstract

The empirical model of the depth-dependent density change within the upper
continental mantle is derived in this study. The density of the upper(most) mantle underlying
the continental crust is obtained from the estimated values of the crust–mantle
(Moho) density contrast. Since the continental crustal thickness varies significantly, these
upper mantle density values to a large extent reflect the density changes with depth. The
estimation of the Moho density contrast is done through solving Moritz’s generalization
of the Vening-Meinesz inverse problem of isostasy. The solution combines gravity and
seismic data in the least-squares estimation model. The estimated upper mantle density
(beneath the continental crust) varies between 2770 and 3649 kg/m³. The upper mantle
density increases almost proportionally with depth at a rate of 13±2 kg/m³ per 1 km at
the investigated depth interval from 6 to 58 km.

Author Biographies

Robert TENZER, National School of Surveying, University of Otago

310 Castle street, Dunedin, 9054 New Zealand

Peter VAJDA, Geophysical Institute of the Slovak Academy of Sciences

Dúbravská cesta 9, 845 28 Bratislava, Slovak Republic