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  • 1
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    Warm Pool Physics in a Coupled GCM
    American Meteorological Society ; 1996
    In:  Journal of Climate Vol. 9, No. 1 ( 1996-01), p. 219-239
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 9, No. 1 ( 1996-01), p. 219-239
    Materialart: Online-Ressource
    ISSN: 0894-8755 , 1520-0442
    URL: Article
    DOI: 10.1175/1520-0442(1996)009〈0219:WPPIAC〉2.0.CO;2
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 1996
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 2
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    Subtropical Forcing of Tropical Pacific Climate and Decadal ENSO Modulation
    American Meteorological Society ; 2008
    In:  Journal of Climate Vol. 21, No. 18 ( 2008-09-15), p. 4691-4709
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 21, No. 18 ( 2008-09-15), p. 4691-4709
    Kurzfassung: The relative impact of the subtropical North and South Pacific Oceans on the tropical Pacific climate mean state and variability is estimated using an ocean–atmosphere–sea ice coupled general circulation model. Tailored experiments are performed in which the model is forced by idealized sea surface temperature anomalies (SSTAs) in the subtropics of both hemispheres. The main results of this study suggest that subtropical South Pacific climate variations play a dominant role in tropical Pacific decadal variability and in the decadal modulation of El Niño–Southern Oscillation (ENSO). In response to a 2°C warming in the subtropical South Pacific, the equatorial Pacific SST increases by about 0.6°C, approximately 65% larger than the change in the North Pacific experiment. The subtropics affect equatorial SST mainly through atmosphere–mixed layer interactions in the South Pacific experiments; the response is mostly accomplished within a decade. The “oceanic tunnel” dominates in the North Pacific experiments; the response takes at least 100 yr to be accomplished. Similar sensitivity experiments conducted with the stand-alone atmosphere model showed that both air–sea interactions and ocean dynamics are crucial in shaping the tropical climate response. The statistics of ENSO exhibit significant changes in amplitude and frequency in response to a warming/cooling of the subtropical South Pacific: a 2°C warming (cooling) of subtropical South Pacific SST reduces (increases) the interannual standard deviation by about 30% (20%) and shortens (lengthens) the ENSO period. The simulated changes in the equatorial zonal SST gradient are the main contributor to the modulation of ENSO variability. The simulated intensification (weakening) of the annual cycle in response to an enhanced warming (cooling) in subtropical South Pacific partly explains the shifts in frequency, but may also lead to a weaker (stronger) ENSO. The subtropical North Pacific thermal forcing did not change the statistical properties of ENSO as strongly.
    Materialart: Online-Ressource
    ISSN: 1520-0442 , 0894-8755
    URL: Article
    DOI: 10.1175/2008JCLI2075.1
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 2008
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 3
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    Southern Ocean Sector Centennial Climate Variability and Recent Decadal Trends
    American Meteorological Society ; 2013
    In:  Journal of Climate Vol. 26, No. 19 ( 2013-10-01), p. 7767-7782
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 26, No. 19 ( 2013-10-01), p. 7767-7782
    Kurzfassung: Evidence is presented for the notion that some contribution to the recent decadal trends observed in the Southern Hemisphere, including the lack of a strong Southern Ocean surface warming, may have originated from longer-term internal centennial variability originating in the Southern Ocean. The existence of such centennial variability is supported by the instrumental sea surface temperatures (SSTs), a multimillennial reconstruction of Tasmanian summer temperatures from tree rings, and a millennial control integration of the Kiel Climate Model (KCM). The model variability was previously shown to be linked to changes in Weddell Sea deep convection. During phases of deep convection the surface Southern Ocean warms, the abyssal Southern Ocean cools, Antarctic sea ice extent retreats, and the low-level atmospheric circulation over the Southern Ocean weakens. After the halt of deep convection the surface Southern Ocean cools, the abyssal Southern Ocean warms, Antarctic sea ice expands, and the low-level atmospheric circulation over the Southern Ocean intensifies, consistent with what has been observed during the recent decades. A strong sensitivity of the time scale to model formulation is noted. In the KCM, the centennial variability is associated with global-average surface air temperature (SAT) changes of the order of a few tenths of a degree per century. The model results thus suggest that internal centennial variability originating in the Southern Ocean should be considered in addition to other internal variability and external forcing when discussing the climate of the twentieth century and projecting that of the twenty-first century.
    Materialart: Online-Ressource
    ISSN: 0894-8755 , 1520-0442
    URL: Article
    DOI: 10.1175/JCLI-D-12-00281.1
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 2013
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 4
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    Arctic–North Atlantic Interactions and Multidecadal Variability of the Meridional Overturning Circulation
    American Meteorological Society ; 2005
    In:  Journal of Climate Vol. 18, No. 19 ( 2005-10-01), p. 4013-4031
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 18, No. 19 ( 2005-10-01), p. 4013-4031
    Kurzfassung: Analyses of a 500-yr control integration with the non-flux-adjusted coupled atmosphere–sea ice–ocean model ECHAM5/Max-Planck-Institute Ocean Model (MPI-OM) show pronounced multidecadal fluctuations of the Atlantic overturning circulation and the associated meridional heat transport. The period of the oscillations is about 70–80 yr. The low-frequency variability of the meridional overturning circulation (MOC) contributes substantially to sea surface temperature and sea ice fluctuations in the North Atlantic. The strength of the overturning circulation is related to the convective activity in the deep-water formation regions, most notably the Labrador Sea, and the time-varying control on the freshwater export from the Arctic to the convection sites modulates the overturning circulation. The variability is sustained by an interplay between the storage and release of freshwater from the central Arctic and circulation changes in the Nordic Seas that are caused by variations in the Atlantic heat and salt transport. The relatively high resolution in the deep-water formation region and the Arctic Ocean suggests that a better representation of convective and frontal processes not only leads to an improvement in the mean state but also introduces new mechanisms determining multidecadal variability in large-scale ocean circulation.
    Materialart: Online-Ressource
    ISSN: 1520-0442 , 0894-8755
    URL: Article
    DOI: 10.1175/JCLI3462.1
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 2005
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 5
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    Effects of Ocean Biology on the Penetrative Radiation in a Coupled Climate Model
    American Meteorological Society ; 2006
    In:  Journal of Climate Vol. 19, No. 16 ( 2006-08-15), p. 3973-3987
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 19, No. 16 ( 2006-08-15), p. 3973-3987
    Kurzfassung: The influence of phytoplankton on the seasonal cycle and the mean global climate is investigated in a fully coupled climate model. The control experiment uses a fixed attenuation depth for shortwave radiation, while the attenuation depth in the experiment with biology is derived from phytoplankton concentrations simulated with a marine biogeochemical model coupled online to the ocean model. Some of the changes in the upper ocean are similar to the results from previous studies that did not use interactive atmospheres, for example, amplification of the seasonal cycle; warming in upwelling regions, such as the equatorial Pacific and the Arabian Sea; and reduction in sea ice cover in the high latitudes. In addition, positive feedbacks within the climate system cause a global shift of the seasonal cycle. The onset of spring is about 2 weeks earlier, which results in a more realistic representation of the seasons. Feedback mechanisms, such as increased wind stress and changes in the shortwave radiation, lead to significant warming in the midlatitudes in summer and to seasonal modifications of the overall warming in the equatorial Pacific. Temperature changes also occur over land where they are sometimes even larger than over the ocean. In the equatorial Pacific, the strength of interannual SST variability is reduced by about 10%–15% and phase locking to the annual cycle is improved. The ENSO spectral peak is broader than in the experiment without biology and the dominant ENSO period is increased to around 5 yr. Also the skewness of ENSO variability is slightly improved. All of these changes lead to the conclusion that the influence of marine biology on the radiative budget of the upper ocean should be considered in detailed simulations of the earth’s climate.
    Materialart: Online-Ressource
    ISSN: 1520-0442 , 0894-8755
    URL: Article
    DOI: 10.1175/JCLI3828.1
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 2006
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 6
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    Hindcast of the 1976/77 and 1998/99 Climate Shifts in the Pacific
    American Meteorological Society ; 2013
    In:  Journal of Climate Vol. 26, No. 19 ( 2013-10-01), p. 7650-7661
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 26, No. 19 ( 2013-10-01), p. 7650-7661
    Kurzfassung: The use of a coupled ocean–atmosphere–sea ice model to hindcast (i.e., historical forecast) recent climate variability is described and illustrated for the cases of the 1976/77 and 1998/99 climate shift events in the Pacific. The initialization is achieved by running the coupled model in partially coupled mode whereby global observed wind stress anomalies are used to drive the ocean/sea ice component of the coupled model while maintaining the thermodynamic coupling between the ocean/sea ice and atmosphere components. Here it is shown that hindcast experiments can successfully capture many features associated with the 1976/77 and 1998/99 climate shifts. For instance, hindcast experiments started from the beginning of 1976 can capture sea surface temperature (SST) warming in the central-eastern equatorial Pacific and the positive phase of the Pacific decadal oscillation (PDO) throughout the 9 years following the 1976/77 climate shift, including the deepening of the Aleutian low pressure system. Hindcast experiments started from the beginning of 1998 can also capture part of the anomalous conditions during the 4 years after the 1998/99 climate. The authors argue that the dynamical adjustment of heat content anomalies that are present in the initial conditions in the tropics is important for the successful hindcast of the two climate shifts.
    Materialart: Online-Ressource
    ISSN: 0894-8755 , 1520-0442
    URL: Article
    DOI: 10.1175/JCLI-D-12-00626.1
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 2013
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 7
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    The Impact of North Atlantic–Arctic Multidecadal Variability on Northern Hemisphere Surface Air Temperature
    American Meteorological Society ; 2010
    In:  Journal of Climate Vol. 23, No. 21 ( 2010-11-01), p. 5668-5677
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 23, No. 21 ( 2010-11-01), p. 5668-5677
    Kurzfassung: The twentieth-century Northern Hemisphere surface climate exhibits a long-term warming trend largely caused by anthropogenic forcing, with natural decadal climate variability superimposed on it. This study addresses the possible origin and strength of internal decadal climate variability in the Northern Hemisphere during the recent decades. The authors present results from a set of climate model simulations that suggest natural internal multidecadal climate variability in the North Atlantic–Arctic sector could have considerably contributed to the Northern Hemisphere surface warming since 1980. Although covering only a few percent of the earth’s surface, the Arctic may have provided the largest share in this. It is hypothesized that a stronger meridional overturning circulation in the Atlantic and the associated increase in northward heat transport enhanced the heat loss from the ocean to the atmosphere in the North Atlantic region and especially in the North Atlantic portion of the Arctic because of anomalously strong sea ice melt. The model results stress the potential importance of natural internal multidecadal variability originating in the North Atlantic–Arctic sector in generating interdecadal climate changes, not only on a regional scale, but also possibly on a hemispheric and even a global scale.
    Materialart: Online-Ressource
    ISSN: 1520-0442 , 0894-8755
    URL: Article
    DOI: 10.1175/2010JCLI3347.1
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 2010
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 8
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    Wind-Driven Oceanic Rossby Waves in the Tropical South Indian Ocean with and without an Active ENSO
    American Meteorological Society ; 2005
    In:  Journal of Physical Oceanography Vol. 35, No. 5 ( 2005-05-01), p. 729-746
    Details
    In: Journal of Physical Oceanography, American Meteorological Society, Vol. 35, No. 5 ( 2005-05-01), p. 729-746
    Kurzfassung: The interannual heat content variability in the tropical south Indian Ocean (SIO) and its relationship with El Niño–Southern Oscillation (ENSO) is studied. The baroclinic ocean response to stochastic wind stress predicted by a simple analytical model is compared with two integrations of the ECHO-G coupled general circulation model. In one integration, ocean–atmosphere interactions are suppressed in the tropical Pacific Ocean, so that this integration does not simulate ENSO. In the other integration, interactions are allowed everywhere and ENSO is simulated. The results show that basinwide variability in the SIO heat content can be produced by two mechanisms: 1) oscillatory forcing by ENSO-related wind stress and 2) temporally stochastic and spatially coherent wind stress forcing. Previous studies have shown that transmission of energy from the tropical Pacific to the southern Indian Ocean occurs through coastal Kelvin waves along the western coast of Australia. The results in this paper confirm the occurrence of such transmission. In the ECHO-G simulations, this transmission occurs both at the annual time scale and at interannual time scales. Generation of offshore Rossby waves by these coastal Kelvin waves at interannual time scales—and, in particular, at the ENSO time scale—was found.
    Materialart: Online-Ressource
    ISSN: 1520-0485 , 0022-3670
    URL: Article
    DOI: 10.1175/JPO2723.1
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 2005
    ZDB Id: 2042184-9
    ZDB Id: 184162-2
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  • 9
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    Simulation of ENSO Related Surface Wind Anomalies with an Atmospheric GCM Forced by Observed SST
    American Meteorological Society ; 1990
    In:  Journal of Climate Vol. 3, No. 5 ( 1990-05), p. 509-521
    Details
    In: Journal of Climate, American Meteorological Society, Vol. 3, No. 5 ( 1990-05), p. 509-521
    Materialart: Online-Ressource
    ISSN: 0894-8755 , 1520-0442
    URL: Article
    DOI: 10.1175/1520-0442(1990)003〈0509:SOERSW〉2.0.CO;2
    RVK:
    UA 4548
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 1990
    ZDB Id: 246750-1
    ZDB Id: 2021723-7
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  • 10
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    How Much Predictive Skill Is Contained in the Thermal Structure of an Oceanic GCM?
    American Meteorological Society ; 1992
    In:  Journal of Physical Oceanography Vol. 22, No. 8 ( 1992-08), p. 951-962
    Details
    In: Journal of Physical Oceanography, American Meteorological Society, Vol. 22, No. 8 ( 1992-08), p. 951-962
    Materialart: Online-Ressource
    ISSN: 0022-3670 , 1520-0485
    URL: Article
    DOI: 10.1175/1520-0485(1992)022〈0951:HMPSIC〉2.0.CO;2
    Sprache: Englisch
    Verlag: American Meteorological Society
    Publikationsdatum: 1992
    ZDB Id: 2042184-9
    ZDB Id: 184162-2
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