Abstract
Abstract. The climate of east-central Europe (ECE) is the result of a combination of influences originating in the wider North Atlantic realm, the Mediterranean Sea, and the western Asian and Siberian regions. Previous studies have shown that the complex interplay between the large-scale atmospheric patterns across the region results in strongly dissimilar summer and winter conditions on timescales ranging from decades to millennia. To put these into a wider context, long-term climate reconstructions are required, but, largely due to historical reasons, these are lacking in ECE. We address these issues by presenting a high-resolution, radiocarbon-dated record of summer temperature variations during the last millennium in ECE, based on stable isotope analysis of a 4.84 m long ice core extracted from Focul Viu Ice Cave (Western Carpathians, Romania). Comparisons with both instrumental and proxy-based data indicate that the stable isotope composition of cave ice records the changes in summer air temperature and has a similar temporal evolution to that of the Atlantic Multidecadal Oscillation on decadal to multidecadal timescales, suggesting that changes in the North Atlantic are transferred, likely via atmospheric processes towards the wider Northern Hemisphere. On centennial timescales, the data show little summer temperature differences between the Medieval Warm Period (MWP) and the Little Ice Age (LIA) in eastern Europe. These findings are contrary to those that show a marked contrast between the two periods in terms of both winter and annual air temperatures, suggesting that cooling during the LIA was primarily the result of wintertime climatic changes.
Highlights
Rapid global warming (IPCC, 2018) and the ensuing suite of climatic changes that it triggers (Coumou and Rahmstorf, 2012) demands a clear understanding of the background mechanisms in order to be able to disentangle natural and anthropogenic processes (Haustein et al, 2017; IPCC, 2018)
The analysis of the oxygen and hydrogen stable isotope ratios along a ∼ 5 m long ice core extracted from the Focul Viu Ice Cave provided an unprecedented view on the dynamics of summer air temperature and atmospheric circulation changes during the past 1000 years in east-central Europe
The comparison of ice core δ18O with instrumental data over the past 150 years indicates that the stable isotope composition of cave ice records the summer air temperatures on multidecadal timescales
Summary
Rapid global warming (IPCC, 2018) and the ensuing suite of climatic changes that it triggers (Coumou and Rahmstorf, 2012) demands a clear understanding of the background mechanisms in order to be able to disentangle natural and anthropogenic processes (Haustein et al, 2017; IPCC, 2018). The last 1000 years are significant, as the European climate has generally changed from warm to cold (the Medieval Warm Period–Little Ice Age transition; Jones et al, 2009) and back to warm (the present-day warming; Neukom et al, 2019). These transitions allow for the links between forcing and climatic response to be tested. Over Europe, the influence of the AMO is clearest during summer (Sutton and Dong, 2012; Ionita et al, 2012, 2017; O’Reilly et al, 2017)
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