Study of the Earth's short-scale gravity field using the ERTM2160 gravity model

Christian Hirt, Michael Kuhn, Sten Claessens, Roland Pail, Kurt Seitz, Thomas Gruber

Research output: Contribution to journalArticlepeer-review

66 Scopus citations

Abstract

This paper describes the computation and analysis of the Earth's short-scale gravity field through high-resolution gravity forward modelling using the Shuttle Radar Topography Mission (SRTM) global topography model. We use the established residual terrain modelling technique along with advanced computational resources and massive parallelisation to convert the high-pass filtered SRTM topography - complemented with bathymetric information in coastal zones - to implied short-scale gravity effects. The result is the ERTM2160 model (Earth Residual Terrain Modelled-gravity field with the spatial scales equivalent to spherical-harmonic coefficients up to degree 2160 removed). ERTM2160, used successfully for the construction of the GGMplus gravity maps, approximates the short-scale (i.e., ~10. km down to ~250. m) gravity field in terms of gravity disturbances, quasi/geoid heights and vertical deflections at ~3 billion gridded points within ±60° latitude. ERTM2160 reaches maximum values for the quasi/geoid height of ~30. cm, gravity disturbance in excess of 100. mGal, and vertical deflections of ~30″ over the Himalaya mountains. Analysis of the ERTM2160 field as a function of terrain roughness shows in good approximation a linear relationship between terrain roughness and gravity effects, with values of ~1.7. cm (quasi/geoid heights), ~11. mGal (gravity disturbances) and 1.5″ (vertical deflections) signal strength per 100. m standard deviation of the terrain. These statistics can be used to assess the magnitude of omitted gravity signals over various types of terrain when using degree-2160 gravity models such as EGM2008. Applications for ERTM2160 are outlined including its use in gravity smoothing procedures, augmentation of EGM2008, fill-in for future ultra-high resolution gravity models in spherical harmonics, or calculation of localised or global power spectra of Earth[U+05F3]s short-scale gravity field. ERTM2160 is freely available via http://ddfe.curtin.edu.au/gravitymodels/ERTM2160.

Original languageEnglish
Pages (from-to)71-80
Number of pages10
JournalComputers and Geosciences
Volume73
DOIs
StatePublished - 1 Dec 2014

Keywords

  • Forward-modelling
  • Gravity
  • Gravity field
  • Quasi/geoid
  • Supercomputing
  • Vertical deflection

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