The medieval climate anomaly in Europe: Comparison of the summer and annual mean signals in two reconstructions and in simulations with data assimilation
Résumé
The spatial pattern and potential dynamical origin of the Medieval Climate Anomaly (MCA, around 1000 AD) in Europe are assessed with two recent reconstructions and simulations constrained to follow those reconstructions by means of paleoclimate data assimilation. The simulations employ a climate model of intermediate complexity (LOVECLIM). The data assimilation technique is based on a particle filter using an ensemble of 96 simulations. The peak winter (and annual mean) warming during the MCA, in our analyses, is found to be strongest at high latitudes, associated with strengthened mid-latitude westerlies. Summer warmth, by contrast, is found to be greatest in southern Europe and the Mediterranean Sea, associated with reduced westerlies and strengthened southerly winds off North Africa. The results of our analysis thus underscore the complexity of the spatial and seasonal structure of the MCA in Europe. (C) 2011 Elsevier B.V. All rights reserved.
Mots clés
Europe
seasonal climate signal
atmospheric circulation
data assimilation
NORTH-ATLANTIC OSCILLATION
LAND-COVER CHANGE
LAST MILLENNIUM
TEMPERATURE-VARIATIONS
LATE HOLOCENE
CARBON-CYCLE
CIRCULATION VARIABILITY
INTERMEDIATE COMPLEXITY
FENNOSCANDIAN SUMMERS
SURFACE-TEMPERATURE
Geography
Physical
Geosciences
Multidisciplinary
Physical Geography
Geology