Publication Date:
2014-06-06
Description:
The coupled regional climate model HIRHAM-NAOSIM is used to investigate
feedbacks between September sea ice anomalies in the Arctic and atmospheric conditions in
autumn and the subsequent winter. A six-member ensemble of simulations spanning the
period 1949–2008 is analyzed. The results show that negative Arctic sea ice anomalies are
associated with increased heat and moisture fluxes, decreased static stability, increased
lower tropospheric moisture, and modified baroclinicity, synoptic activity, and atmospheric
large-scale circulation. The circulation changes in the following winter display
meridionalized flow but are not fully characteristic of a negative Arctic Oscillation pattern,
though they do support cold winter temperatures in northern Eurasia. Internally generated
climate variability causes significant uncertainty in the simulated circulation changes due to
sea ice-atmosphere interactions. The simulated atmospheric feedback patterns depend
strongly on the position and strength of the regional sea ice anomalies and on the analyzed
time period. The strongest atmospheric feedbacks are related to sea ice anomalies in the
Beaufort Sea. This work suggests that there are complex feedback mechanisms that support
a statistical link between reduced September sea ice and Arctic winter circulation. However,
the feedbacks depend on regional and decadal variations in the coupled
atmosphere-ocean-sea ice system.
Repository Name:
EPIC Alfred Wegener Institut
Type:
Article
,
isiRev
Format:
application/pdf
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