A Regional Archaeomagnetic Model for the Palaeointensity in Europe for the last 2000 Years and its Implications for Climatic Change

• Published in: Pure and applied geophysics Vol. 165; no. 6; pp. 1209 - 1225
• Main Authors: Pavón–Carrasco, Fco. Javier, Osete, Maria Luisa, Torta, J. Miquel, Gaya–Piqué, Luis R.
• Format: Journal Article
• Language: English
• Published: Basel SP Birkhäuser Verlag Basel 01.06.2008; Springer Nature B.V
• Subjects: Climate; Climate change; Earth and Environmental Science; Earth Sciences; Fourier analysis; Geomagnetic field; Geomagnetic fields; Geophysics; Geophysics/Geodesy; Harmonic analysis; Joints; Magnetic fields; Paleoclimate science; Regional; Secular variations; Europe; geomagnetic secular variation; regional models; archaeomagnetism; Palaeointensity; Europe
• ISSN: 0033-4553; 1420-9136
• DOI: 10.1007/s00024-008-0354-4

The SCHA.DI.00 directional model for the geomagnetic field in Europe for the last 2000 years (P avón –C arrasco et al ., 2008) has been updated by modelling the palaeointensity. This model, SCHA.DI.00, was developed from available Bayesian European Palaeosecular Variation Curves using the regional Spherical Cap Harmonic Analysis technique. The comparison of the palaeosecular variation curves, given by the regional model, with available archaeomagnetic data not used in its development showed an improvement with respect to the fit obtained by global archaeomagnetic models. In this paper advantage is taken of recently published palaeointensity databases to develop a complete (direction and intensity) regional archaeomagnetic model for the last 2000 years valid for the European region: the SCHA.DI.00–F model. Not only does this complete model provide an improvement for example for archaeomagnetic data studies, but it is also shown that this new regional model can be used to study the recently proposed link between the centennial secular variation of the geomagnetic field and climate change. The pattern of the archaeosecular variation of the field intensity obtained by SCHA.DI.00–F seems to verify the hypothesis presented by G allet et al . (2005) about a possible (causal) connection between changes in the geomagnetic field intensity and in climate parameters, opening the door for more discussions on this challenging subject.