Die Bedeutung der Ozean-Atmosphäre-Wechselwirkung für die natürliche Klimavariabilität in der Arktis.

Kinzel, Julian (2010) Die Bedeutung der Ozean-Atmosphäre-Wechselwirkung für die natürliche Klimavariabilität in der Arktis. (Bachelor thesis), Christian-Albrechts-Universität, Kiel, Germany, 41 pp.

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Abstract

The present increase in average Arctic (60°-90°N) surface temperature is almost three times as high as the corresponding global average increase. An accelerated temperature rise was also observed at the beginning of the 20th century (1910-1940, ECW) and is referred to as "Arctic Amplication". It was followed by a sharp temperature decrease (1940-1970) with following warming. Its trend has only recently been exceeded by the current Arctic warming.
The underlying mechanisms which produce such multidecadal climate variability are presently under debate. It is suggested that the ECW was driven by natural coupling mechanisms within the climate system. In this context it might have be linked to changing westerlies in the North Atlantic, anomalies of the Atlantic meridional overturning circulation as well as changes in sea surface temperatures of the tropical Pacic (NAO, MOC and NINO3, respectively). Since the Arctic climate system seems to play a crucial role with respect to global warming, further analysis is required in order to understand its origin.
For the purposes of this study, three control simulations (1500 yrs. of integrations each) were analysed which dffer in complexity in sense of coupling between atmosphere and ocean components. These are a fully coupled atmospheric-seaice-ocean GCM (ECHAM5/MPI-OM), an atmospheric GCM
coupled with a thermodynamical mixed-layer ocean model including a thermodynamical seaice model (ECHAM5/MLO) and an atmospheric GCM forced by prescribed lower boundary conditions (ECHAM5/xed-SST). The annual means of anomalies of Arctic surface temperature (SAT) and sea ice extent (ICE) were analysized with respect to the different runs and their links to the major possible climate variability drives such as NAO-, MOC- and NINO3-variability.
The objective was to assess the impact of coupling between ocean and atmosphere concerning driving mechanisms of (multi-) decadal variability, using statistical tools like correlation, coherence and wavelet-analysis.
The results show that the coupled model produces several multidecadal variabilities which might be particularly concentrated in the Barents Sea region. In this context, a low-frequency oscillation of SAT- and ICE-anomalies might represent an eigenmode of variability in the Arctic climate system. Arctic climate variability is further driven by MOC-uctuations which leads Arctic SAT-changes by four years. Furthermore, NINO3- and SAT-anomalies seem to be linked via atmospheric teleconnections with a time lag of several months. Additionally, SAT- and NAO-changes are suggested to be linked on decadal variability scale.
Multidecadal Oscillations can hardly be resolved when excluding large-scale ocean dynamics, corresponding
to the ECHAM5/MLO - controll run. Nevertheless, Arctic SAT- and NINO3-uctuations cohere signicantly, possibly producing hyper-modes which inuence the Arctic climate via teleconnections.
Additionally, NAO- and SAT-changes seem to be related with a time lag of a few months, whereas NAO-anomalies impact Arctic SAT-changes on an intraseasonal timescale. An entire exclusion of interaction between ocean and atmosphere (ECHAM5/xed-SST, respectively) prohibits any kind of (multi-) decadal variability which emphasizes the
significance of coupling. This can also be seen in the simulation results of the landmass regions. Corresponding variabilities remain low and do not depend on the model run's complexity.

Document Type: Thesis (Bachelor thesis)
Subjects: Course of study: BSc Physics of the Earth System
Research affiliation: OceanRep > GEOMAR > FB1 Ocean Circulation and Climate Dynamics > FB1-ME Maritime Meteorology
Date Deposited: 11 Feb 2011 14:24
Last Modified: 06 Jul 2012 14:52
URI: https://oceanrep.geomar.de/id/eprint/11440

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