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Numerical studies of mesoscale motion in a mixed layer over the Northern Alpine foreland (1987)

Schubiger, F. ; Morsier, G. ; Davies, H. C.

Springer

Boundary layer meteorology 41 (1987), S. 109-121

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ISSN: 1573-1472

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract A one-layer mesoscale model based on the shallow water equations has been developed to examine atmospheric flow patterns within a well mixed planetary boundary layer over the Swiss Middleland. The model incorporates frictional and synoptic forcing effects and has a realistic meso-β scale representation of the Alpine and surrounding orography. Some model results are shown for one particular Case Study and also for several situations corresponding to different synoptic scale forcing.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00120434

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Interannual variability and regional climate simulations (1996)

Lüthi, D. ; Cress, A. ; Davies, H. C. ; [et al.]

Springer

Theoretical and applied climatology 53 (1996), S. 185-209

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ISSN: 1434-4483

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Summary An assessment is made of a regional climate model's skill in simulating the mean climatology and the interannual variability experienced in a specific region. To this end two ensembles comprising three realizations of month-long January and July simulations are undertaken with a limited are a operational NWP model. The modelling suite is driven at its lateral boundaries by analysed meteorological fields and the computational domain covers Europe and the North-western Atlantic with a horizontal resolution of 56 km. Validation is performed against both operational ECMWF analyses and objectively analysed precipitation fields from a network of ~ 1400 SYNOP rain gauge stations. Analysis of the simulated ensemble-mean climatology indicates that the model successfully reproduces both the winter and summer distributions of the primary dynamical and thermodynamical field, and also provides a reasonable representation of the measured precipitation over most of Europe. Typically the domain averaged model-biases are below 0.5 K for temperature and 0.1 g/kg for specific humidity. Analysis of the interannual variability reveals that the model captures the wintertime changes including that of the precipitation distribution, but in contrast the summertime precipitation totals for the individual years is not simulated satisfactorily and only partially reproduces the observed regional interannual variability. The latter shortcomings are related to the following factors. Firstly the model bias in the dynamical fields is somewhat larger for summer than winter, while at the same time summertime interannual variability is associated with weaker effects in the dynamical fields. Secondly the summertime precipitation distribution is more substantially affected by small-scale moist convection and surface hydrological processes. Together these two factors suggest that summertime precipitation over continental extratropical land masses might be intrinsically less predictable than wintertime synoptic scale precipitation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00871736

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Covariation of the Mid-Tropospheric Flow and the Sea Surface Temperature of the North Atlantic: A Statistical Analysis (2000)

Bresch, D. N. ; Davies, H. C.

Springer

Theoretical and applied climatology 65 (2000), S. 197-214

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ISSN: 1434-4483

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Summary The covariation of the mid-tropospheric flow and the sea surface temperature (SST) of the extratropical North Atlantic is studied for the period 1962 to 1992. A statistical approach is adopted and the variables selected for examination, in addition to the SST, are the 500 hPa fields of the geopotential height and the dynamic storm track. Singular Value Decomposition (SVD) of the wintertime monthly mean fields for all paired combinations of these three fields suggests thattheir intraseasonal covariability is dominated by types of recurring patterns. The first is an “North Atlantic Oscillation-like” variation with height and SST patterns in the form of dipolar anomalies and a storm track pattern whose extremes connote an elongation (shortening) sharpening (broadening) and intensification (weakening) of the track. The second is akin to “strong and weak zonal flow regimes” and is characterized by height and SST anomalies that are latitudinally aligned and storm track variations that connote a shortening (lengthening) and northeastward (southeastward) reorientation of the track. Lag correlation analysis of the relative phase of the flow and SST variations suggest that the former leads the latter by the order of a month and is indicative of the flow influencing the SST configuration. However evidence adduced from consideration of lagged composite plots of strong SST patterns cautions against excluding the possibility of a nonlinear ocean-to-atmosphere forcing. It is also demonstrated that the two types of SVD-derived patterns represent a significant part of the last 30 years’ trends in the selected fields, and the coupled SVD patterns also shed light on the nature and degree of coupoling of the three selected fields.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007040070044

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