Geomagnetic field intensity variations in Western Europe over the past 1100 years
Article first published online: 9 AUG 2013
©2013. American Geophysical Union. All Rights Reserved.
Geochemistry, Geophysics, Geosystems
Volume 14, Issue 8, pages 2858–2872, August 2013
How to Cite
2013), Geomagnetic field intensity variations in Western Europe over the past 1100 years, Geochem. Geophys. Geosyst., 14, 2858–2872, doi:10.1002/ggge.20165., , , , and (
- Issue published online: 24 SEP 2013
- Article first published online: 9 AUG 2013
- Accepted manuscript online: 6 MAY 2013 11:12PM EST
- Manuscript Accepted: 29 APR 2013
- Manuscript Revised: 17 APR 2013
- Manuscript Received: 21 FEB 2013
 Ten archeointensity results have been obtained from brick and ceramic fragments collected in France and precisely dated to between the tenth and eighteenth centuries. Intensity experiments were performed using the Triaxe protocol taking into account cooling rate and thermoremanent magnetization anisotropy effects. Together with our previous results from France and Belgium, we computed a geomagnetic field intensity variation curve for Western Europe covering the past 1100 years. This curve is characterized by a general decreasing trend at the millennial timescale punctuated by three short intensity peaks, during the twelfth century, around 1350–1400 AD and ∼1600 AD. A similar evolution but with smoother variations due to data scatter is also observed in Western Europe and to a lesser extent in Eastern Europe when all available archeointensity data fulfilling quality criteria are used. Comparison of our archeointensity variation curve with the climatic record derived from fluctuations in length of the Swiss glaciers shows a good temporal concordance between all geomagnetic field intensity maxima detected in Western Europe over the past millennium and colder episodes. A comparison is further discussed between these intensity maxima and episodes of low rates of 14C production. A common pattern of variations between both records is recognized between the middle of the tenth and of the beginning of eighteenth centuries. If significant, such coincidences suggest a dual geomagnetic and solar origin for the century-scale climate and radionuclide production variations during at least the past millennium.