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Improving geomagnetic field reconstructions for 0–3 ka

► New global geomagnetic field reconstruction (CALS3k.4) for 0–3 ka. ► Bootstrap average gives robust field evolution at core–mantle boundary. ► Higher resolution field description at Earth’s surface. ► Additions to global data basis for Holocene magnetic field models. Global geomagnetic field recon...

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Bibliographic Details
Published in:Physics of the earth and planetary interiors 2011-10, Vol.188 (3), p.247-259
Main Authors: Korte, Monika, Constable, Catherine
Format: Article
Language:English
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Summary:► New global geomagnetic field reconstruction (CALS3k.4) for 0–3 ka. ► Bootstrap average gives robust field evolution at core–mantle boundary. ► Higher resolution field description at Earth’s surface. ► Additions to global data basis for Holocene magnetic field models. Global geomagnetic field reconstructions on millennial time scales can be based on comprehensive paleomagnetic data compilations but, especially for older data, these still suffer from limitations in data quality and age controls as well as poor temporal and spatial coverage. Here we present updated global models for the time interval 0–3 ka where additions to the data basis mainly impact the South-East Asian, Alaskan, and Siberian regions. We summarize recent progress in millennial scale modelling, documenting the cumulative results from incremental modifications to the standard algorithms used to produce regularized time-varying spherical harmonic models spanning 1000 BC to 1990 AD: from 1590 to 1990 AD gauss coefficients from the historical gufm1 model supplement the paleomagnetic information; in addition to absolute paleointensities, calibrated relative paleointensity data from sediments are now routinely included; iterative data rejection and recalibration of relative intensity records from sediments ensure stable results; bootstrap experiments to generate uncertainty estimates for the model take account of uncertainties in both age and magnetic elements and additionally assess the impact of sampling in both time and space. Based on averaged results from bootstrap experiments, taking account of data and age uncertainties, we distinguish more conservative model estimates CALS3k.nb representing robust field structure at the core–mantle boundary from relatively high resolution models CALS3k.n for model versions n = 3 and 4. We assess the impact of newly available data and modifications to the modelling method by comparing the previous CALS3k.3, the new CALS3k.4, and the conservative new model, CALS3k.4b. We conclude that with presently available data it is not feasible to produce a model that is equally suitable for relatively high-resolution field predictions at Earth’s surface and robust reconstruction of field evolution, avoiding spurious structure, at the core–mantle boundary (CMB). We presently consider CALS3k.4 the best high resolution model and recommend the more conservative lower resolution version for studies of field evolution at the CMB.
ISSN:0031-9201
1872-7395
DOI:10.1016/j.pepi.2011.06.017