Effects of the tropospheric large-scale circulation on European winter temperatures during the period of amplified Arctic warming
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https://hdl.handle.net/10037/24842Date
2019-07-08Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Vihma, Timo; Graversen, Rune; Chen, Linling; Handorf, Dörthe; Skific, Natasa; Francis, Jennifer A.; Tyrrell, Nicholas; Hall, Richard; Hanna, Edward; Uotila, Petteri; Dethloff, Klaus; Karpechko, Alexey Yu.; Björnsson, Halldór; Overland, James E.Abstract
We investigate factors influencing European winter (DJFM) air temperatures for
the period 1979–2015 with the focus on changes during the recent period of rapid
Arctic warming (1998–2015). We employ meteorological reanalyses analysed with
a combination of correlation analysis, two pattern clustering techniques, and backtrajectory airmass identification. In all five selected European regions, severe cold
winter events lasting at least 4 days are significantly correlated with warm Arctic
episodes. Relationships during opposite conditions of warm Europe/cold Arctic are
also significant. Correlations have become consistently stronger since 1998. Largescale pattern analysis reveals that cold spells are associated with the negative phase
of the North Atlantic Oscillation (NAO-) and the positive phase of the Scandinavian (SCA+) pattern, which in turn are correlated with the divergence of dry-static
energy transport. Warm European extremes are associated with opposite phases of
these patterns and the convergence of latent heat transport. Airmass trajectory analysis is consistent with these findings, as airmasses associated with extreme cold
events typically originate over continents, while warm events tend to occur with
prevailing maritime airmasses. Despite Arctic-wide warming, significant cooling has occurred in northeastern Europe owing to a decrease in adiabatic subsidence
heating in airmasses arriving from the southeast, along with increased occurrence
of circulation patterns favouring low temperature advection. These dynamic effects
dominated over the increased mean temperature of most circulation patterns.
Lagged correlation analysis reveals that SCA- and NAO+ are typically preceded
by cold Arctic anomalies during the previous 2–3 months, which may aid seasonal
forecasting.
Publisher
WileyCitation
Vihma T, Graversen R, Chen L, Handorf D, Skific N, Francis JA, Tyrrell, Hall R, Hanna E, Uotila P, Dethloff K, Karpechko AY, Björnsson H, Overland JE. Effects of the tropospheric large-scale circulation on European winter temperatures during the period of amplified Arctic warming. International Journal of Climatology. 2020;40:509–529Metadata
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