GLORIA — GEOMAR Library Ocean Research Information Access

1

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North Atlantic Multi-decadal Variability Simulated in Coupled General Circulation Models (CGCMs) (2012)

Ba, Jin [VerfasserIn]

Kiel

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Keywords: Hochschulschrift

Type of Medium: Online Resource

Pages: 1 Online-Ressource (93 Blatt = 2,5 MB)

URL: https://oceanrep.geomar.de/19783

Language: English

Note: Zusammenfassung in deutscher und englischer Sprache

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GEOMAR CATALOGUE

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2

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Role of ocean-atmosphere interaction for tropical climate variability over warm pool regions (2012)

Tseng, Wan-Ling [VerfasserIn]

Kiel

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Keywords: Hochschulschrift

Type of Medium: Online Resource

Pages: 1 Online-Ressource (94 Blatt = 5 MB)

URL: https://oceanrep.geomar.de/19781

Language: English

Note: Zusammenfassung in deutscher und englischer Sprache

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3

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Simulated response to inter-annual SST variations in the Gulf Stream region (2014)

Hand, Ralf ; Keenlyside, Noel S. ; Omrani, Nour-Eddine ; [et al.]

Springer

In: Climate Dynamics, 42 (3/4). pp. 715-731.

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Publication Date: 2019-09-23

Description: Recent studies show that mid-latitude SST variations over the Kuroshio-Oyashio Extension influence the atmospheric circulation. However, the impact of variations in SST in the Gulf Stream region on the atmosphere has been less studied. Understanding the atmospheric response to such variability can improve the climate predictability in the North Atlantic Sector. Here we use a relatively high resolution (∼1°) Atmospheric General Circulation Model to investigate the mechanisms linking observed 5-year low-pass filtered SST variability in the Gulf Stream region and atmospheric variability, with focus on precipitation. Our results indicate that up to 70 % of local convective precipitation variability on these timescales can be explained by Gulf Stream SST variations. In this region, SST and convective precipitation are strongly correlated in both summer (r = 0.73) and winter (r = 0.55). A sensitivity experiment with a prescribed local warm SST anomaly in the Gulf Stream region confirms that local SST drives most of the precipitation variability over the Gulf Stream. Increased evaporation connected to the anomalous warm SST plays a crucial role in both seasons. In summer there is an enhanced local SLP minimum, a concentrated band of low level convergence, deep upward motion and enhanced precipitation. In winter we also get enhanced precipitation, but a direct connection to deep vertical upward motion is not found. Nearly all of the anomalous precipitation in winter is connected to passing atmospheric fronts. In summer the connection between precipitation and atmospheric fronts is weaker, but still important.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00382-013-1715-y

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4

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Potential of Equatorial Atlantic Variability to Enhance El Nino Prediction (2013)

Keenlyside, Noel S. ; Ding, Hui ; Latif, Mojib

AGU (American Geophysical Union) | Wiley

In: Geophysical Research Letters, 40 . pp. 2278-2283.

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Publication Date: 2017-05-24

Description: Extraordinarily strong El Niño events, such as those of 1982/83 and 1997/98, have been poorly predicted by operational seasonal forecasts made before boreal spring, despite significant advances in understanding, improved models, and enhanced observational networks. The Equatorial Atlantic Zonal Mode – a phenomenon similar to El Niño but much weaker and peaking in boreal summer – impacts winds over the Pacific, and hence affects El Niño, and also potentially its predictability. Here we use a climate model to perform a suite of seasonal predictions with and without SST in the Atlantic restored to observations. We show for the first time that knowledge of Equatorial Atlantic sea surface temperature (SST) significantly improves the prediction across boreal spring of major El Niño events and also weaker variability. This is because Atlantic SST acts to modulate El Niño variability, rather than triggering events. Our results suggest that better prediction of major El Niño events might be achieved through model improvement in the Equatorial Atlantic.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1002/grl.50362

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5

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A mechanism for Atlantic multidecadal variability in the Kiel Climate Model (2013)

Ba, Jin ; Keenlyside, Noel S. ; Park, Wonsun ; [et al.]

Springer

In: Climate Dynamics, 41 (7-8). pp. 2133-2144.

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Publication Date: 2019-09-23

Description: Atlantic Multidecadal Variability (AMV) is investigated in a millennial control simulation with the Kiel Climate Model (KCM), a coupled atmosphere–ocean–sea ice model. An oscillatory mode with approximately 60 years period and characteristics similar to observations is identified with the aid of three-dimensional temperature and salinity joint empirical orthogonal function analysis. The mode explains 30 % of variability on centennial and shorter timescales in the upper 2,000 m of the North Atlantic. It is associated with changes in the Atlantic Meridional Overturning Circulation (AMOC) of ±1–2 Sv and Atlantic Sea Surface Temperature (SST) of ±0.2 °C. AMV in KCM results from an out-of-phase interaction between horizontal and vertical ocean circulation, coupled through Irminger Sea convection. Wintertime convection in this region is mainly controlled by salinity anomalies transported by the Subpolar Gyre (SPG). Increased (decreased) dense water formation in this region leads to a stronger (weaker) AMOC after 15 years, and this in turn leads to a weaker (stronger) SPG after another 15 years. The key role of salinity variations in the subpolar North Atlantic for AMV is confirmed in a 1,000 year long simulation with salinity restored to model climatology: No low frequency variations in convection are simulated, and the 60 year mode of variability is absent.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s00382-012-1633-4

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A multi-model comparison for Atlantic multidecadal variability (2014)

Ba, Jin ; Keenlyside, Noel S. ; Latif, Mojib ; [et al.]

Springer

In: Climate Dynamics, 43 . pp. 2333-2348.

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Publication Date: 2019-09-23

Description: A multi-model analysis of Atlantic multidecadal variability is performed with the following aims: to investigate the similarities to observations; to assess the strength and relative importance of the different elements of the mechanism proposed by Delworth et al. (J Clim 6:1993–2011, 1993) (hereafter D93) among coupled general circulation models (CGCMs); and to relate model differences to mean systematic error. The analysis is performed with long control simulations from ten CGCMs, with lengths ranging between 500 and 3600 years. In most models the variations of sea surface temperature (SST) averaged over North Atlantic show considerable power on multidecadal time scales, but with different periodicity. The SST variations are largest in the mid-latitude region, consistent with the short instrumental record. Despite large differences in model configurations, we find quite some consistency among the models in terms of processes. In eight of the ten models the mid-latitude SST variations are significantly correlated with fluctuations in the Atlantic meridional overturning circulation (AMOC), suggesting a link to northward heat transport changes. Consistent with this link, the three models with the weakest AMOC have the largest cold SST bias in the North Atlantic. There is no linear relationship on decadal timescales between AMOC and North Atlantic Oscillation in the models. Analysis of the key elements of the D93 mechanisms revealed the following: Most models present strong evidence that high-latitude winter mixing precede AMOC changes. However, the regions of wintertime convection differ among models. In most models salinity-induced density anomalies in the convective region tend to lead AMOC, while temperature-induced density anomalies lead AMOC only in one model. However, analysis shows that salinity may play an overly important role in most models, because of cold temperature biases in their relevant convective regions. In most models subpolar gyre variations tend to lead AMOC changes, and this relation is strong in more than half of the models.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1007/s00382-014-2056-1

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7

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Marine-based multiproxy reconstruction of Atlantic multidecadal variability (2014)

Svendsen, Lea ; Hetzinger, Steffen ; Keenlyside, Noel ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Geophysical Research Letters, 41 (4). pp. 1295-1300.

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Publication Date: 2017-04-10

Description: Atlantic multidecadal variability (AMV) is known to impact climate globally, and knowledge about the persistence of AMV is important for understanding past and future climate variability, as well as modeling and assessing climate impacts. The short observational data do not significantly resolve multidecadal variability, but recent paleoproxy reconstructions show multidecadal variability in North Atlantic temperature prior to the instrumental record. However, most of these reconstructions are land-based, not necessarily representing sea surface temperature. Proxy records are also subject to dating errors and microenvironmental effects. We extend the record of AMV 90 years past the instrumental record using principle component analysis of five marine-based proxy records to identify the leading mode of variability. The first principal component is consistent with the observed AMV, and multidecadal variability seems to persist prior to the instrumental record. Thus, we demonstrate that reconstructions of past Atlantic low-frequency variability can be improved by combining marine-based proxies.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1002/2013GL059076

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Has a warm North Atlantic contributed to recent European cold winters? (2014)

Keenlyside, Noel S. ; Omrani, Nour-Eddine

IOP Publishing

In: Environmental Research Letters, 9 (6). 061001.

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Publication Date: 2019-01-22

Description: The rise of global surface temperature waned during the last decade, despite increasing greenhouse gas concentrations. The temperature changes were most pronounced over northern hemisphere land masses during winter (Cohen et al 2012). They were largely associated with weakening of the mid-latitude westerly flow. To some, these temperature changes may seem paradoxical in the light of anthropogenic global warming, and thus there is much interest in explaining them. Peings and Magnusdottir (2014 Environ. Res. Lett. 9 034018) provide evidence that recent warming of the North Atlantic sea surface temperature (SST) may be part of the explanation.

Type: Article , PeerReviewed

Format: text

DOI: 10.1088/1748-9326/9/6/061001

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Uncertainties of North Atlantic atmosphere-ocean interaction in future climate projections (2012)

Martin, Thomas ; Latif, Mojib ; Reintges, Annika ; [et al.]

In: [Poster] In: WCRP Workshop on CMIP5 Climate Model Analysis, 05.-09.03.2012, Hawaii, Honolulu, USA .

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Publication Date: 2013-01-14

Type: Conference or Workshop Item , NonPeerReviewed

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The Impact of North Atlantic-Arctic Multidecadal Variability on Northern Hemisphere Surface Air Temperature (2010)

Semenov, Vladimir ; Latif, Mojib ; Dommenget, Dietmar ; [et al.]

AMS (American Meteorological Society)

In: Journal of Climate, 23 (21). pp. 5668-5677. Date online first: 2010

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Publication Date: 2020-08-04

Description: The 20th century Northern Hemisphere surface climate exhibits a long-term warming trend, largely caused by anthropogenic forcing, and 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. We 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 due to 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 inter-decadal climate changes not only on a regional, but possibly also on a hemispheric and even global scale.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1175/2010JCLI3347.1

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