Climate change projections and stratosphere–troposphere interaction

Scaife, Adam A.; Spangehl, Thomas; Fereday, David; Cubasch, Ulrich; Langematz, Ulrike; Akiyoshi, Hideharu; Bekki, Slimane; Braesicke, Peter; Butchart, Neal; Chipperfield, Martyn P.; Gettelman, Andrew; Hardiman, Steven C.; Michou, Martine; Rozanov, Eugene; Shepherd, Theodore G.

doi:10.1007/s00382-011-1080-7

Cited by 154 publications

(167 citation statements)

References 34 publications

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“…Such non-CO 2 forcings -particularly those that warm the mid-latitudes and are underestimated by most models (e.g., Ramanathan and Carmichael, 2008;Koch et al, 2009) -may help explain the discrepancy between modeled and observed estimates of recent tropical expansion. Moreover, a recent study by Scaife et al (2012) found increased CO 2 in GCMs with a well-resolved stratosphere yielded an equatorward storm track shift, particularly over the Atlantic during winter. This implies the observed poleward shift may be due more to heterogeneous warming agents, as opposed to greenhouse gases.…”

Section: Discussionmentioning

confidence: 94%

The equilibrium response to idealized thermal forcings in a comprehensive GCM: implications for recent tropical expansion

et al. 2012

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Abstract. Several recent studies have shown the width of the tropical belt has increased over the last several decades. The mechanisms driving tropical expansion are not well known and the recent expansion is underpredicted by state-of-the art GCMs. We use the CAM3 GCM to investigate how tropical width responds to idealized atmospheric heat sources, focusing on zonal displacement of the tropospheric jets. The heat sources include global and zonally restricted lowertropospheric warmings and stratospheric coolings, which coarsely represent possible impacts of ozone or aerosol changes. Similar to prior studies with simplified GCMs, we find that stratospheric cooling -particularly at high-latitudes -shifts jets poleward and excites Northern and Southern Annular Mode (NAM/SAM)-type responses. We also find, however, that modest heating of the midlatitude boundary layer drives a similar response; heating at high latitudes provokes a weaker, equatorward shift and tropical heating produces no shift. Over 70 % of the variance in annual mean jet displacements across 27 experiments is accounted for by a newly proposed "Expansion Index", which compares mid-latitude tropospheric warming to that at other latitudes. We find that previously proposed factors, including tropopause height and tropospheric stability, do not fully explain the results. Results suggest recently observed tropical expansion could have been driven not only by stratospheric cooling, but also by mid-latitude heating sources due for example to ozone or aerosol changes.

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Section: Discussionmentioning

confidence: 94%

The equilibrium response to idealized thermal forcings in a comprehensive GCM: implications for recent tropical expansion

et al. 2012

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“…Despite some contradictory results obtained with different GCMs (Scaife et al, 2012), there are several studies confirming that drought frequency is increasing in the Mediterranean basin (Seneviratne et al, 2006;Sousa et al, 2011;Hoerling et al, 2012), in particular over the IP (Xoplaki et al, 2012;Trigo et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

The influence of circulation weather patterns at different spatial scales on drought variability in the Iberian Peninsula

Russo

Gouveia

Trigo

et al. 2015

Front. Environ. Sci.

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Europe has suffered several extreme weather events which were responsible for considerable ecological and economic losses in the last few decades. In Southern Europe, droughts are one of the most frequent extreme weather events, causing severe damages and various fatalities. The main goal of this study is to determine the role of Circulation Weather Types (CWT) on spatial and temporal variability of droughts by means of the multi-scalar Standardized Precipitation Evapotranspiration Index (SPEI). This study aims also to identify the main CWTs associated with winter and summer droughts over different regions of Iberian Peninsula. During the period between 1950 and 2012, the most frequent CWTs were found to be the Anticyclonic (A), Cyclonic (C), North (N) and Northeast (NE) types. The trend analysis for winter season shows a clear increase of frequency CWTs associated to dry events (A, East and Southeast) and a decrease of frequency of C and northern types while in summer a clear decrease of NE is observed. The spatial patterns of correlation between SPEI and CWT show large patterns of negative correlations with winter frequencies of A and eastern weather types, while the reverse occurs with C and western types. This feature is highlighted on a regional approach. The NE type presents negative correlations in Central, Northwestern and Southwestern regions during winter and positive correlations in Eastern region during summer. In opposition, the West type presents positive correlations in all regions (except Eastern region) during winter and does not present significant correlations during summer. In general, the predominant CWT associated to winter or summer drought conditions differs greatly between regions. The winter droughts are associated mainly with high frequency of E types and low frequency of W types for all areas, while the summer drought in eastern sectors are linked with low frequency of C type, as well as the western regions are related with the N type.

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“…This low confidence is related to concerns over the skill of many models in realistically representing large-scale features such as the stratosphere (Scaife et al 2012;Manzini et al 2014) and ocean circulation as well as the dynamics of individual storm systems, for example due to insufficient horizontal resolution (Willison et al 2013). Consequently, the consensus between different models on a climate change signal remains rather low (Harvey et al 2012;Zappa et al 2013b).…”

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confidence: 99%

Can we trust climate models to realistically represent severe European windstorms?

et al. 2015

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times, and horizontal and vertical resolutions. These runs are then compared to re-analysis data. The main conclusions from this work are: (a) objectively identified cyclone tracks are represented satisfactorily by most hindcasts; (b) sensitivity to vertical resolution is low; (c) cyclone depth is systematically under-predicted for a coarse resolution of T63 by both climate models; (d) no systematic bias is found for the higher resolution of T127 out to about three days, demonstrating that climate models are in fact able to represent the complex dynamics of explosively deepening cyclones well, if given the correct initial conditions; (e) an analysis using a recently developed diagnostic tool based on the surface pressure tendency equation points to too weak diabatic processes, mainly latent heating, as the main source for the under-prediction in the coarse-resolution runs. Finally, an interesting implication of these results is that the too low number of deep cyclones in many freerunning climate simulations may therefore be related to an insufficient number of storm-prone initial conditions. This question will be addressed in future work.

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Climate change projections and stratosphere–troposphere interaction

Cited by 154 publications

References 34 publications

The equilibrium response to idealized thermal forcings in a comprehensive GCM: implications for recent tropical expansion

The equilibrium response to idealized thermal forcings in a comprehensive GCM: implications for recent tropical expansion

The influence of circulation weather patterns at different spatial scales on drought variability in the Iberian Peninsula

Can we trust climate models to realistically represent severe European windstorms?

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