Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux

Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux

<p>In June 1876, June 1910, and August 2005, northern Switzerland was severely impacted by heavy precipitation and extreme floods. Although occurring in different centuries, all three events featured very similar precipitation patterns and an extratropical storm following a cyclonic, so-called...

Full description

Bibliographic Details
Main Authors: P. Stucki, P. Froidevaux, M. Zamuriano, F. A. Isotta, M. Messmer, A. Martynov
Format: Article
Language:English
Published: Copernicus Publications 2020-01-01
Series:Natural Hazards and Earth System Sciences
Online Access:https://www.nat-hazards-earth-syst-sci.net/20/35/2020/nhess-20-35-2020.pdf
id doaj-880d080236094929b21f1eb0a3eeaf80
record_format Article
spelling doaj-880d080236094929b21f1eb0a3eeaf802020-11-25T02:44:01ZengCopernicus PublicationsNatural Hazards and Earth System Sciences1561-86331684-99812020-01-0120355710.5194/nhess-20-35-2020Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture fluxP. Stucki0P. Stucki1P. Froidevaux2P. Froidevaux3M. Zamuriano4M. Zamuriano5F. A. Isotta6M. Messmer7M. Messmer8M. Messmer9A. Martynov10A. Martynov11Oeschger Centre for Climate Change Research, University of Bern, Bern, 3012, SwitzerlandInstitute of Geography, University of Bern, Bern, 3012, SwitzerlandInstitute of Geography, University of Bern, Bern, 3012, SwitzerlandFederal Office for Meteorology and Climatology MeteoSwiss, Zurich-Airport, Zurich, 8058, SwitzerlandOeschger Centre for Climate Change Research, University of Bern, Bern, 3012, SwitzerlandInstitute of Geography, University of Bern, Bern, 3012, SwitzerlandFederal Office for Meteorology and Climatology MeteoSwiss, Zurich-Airport, Zurich, 8058, SwitzerlandOeschger Centre for Climate Change Research, University of Bern, Bern, 3012, SwitzerlandClimate and Environmental Physics, Physics Institute, University of Bern, Bern, 3012, Switzerlandnow at: School of Earth Sciences, The University of Melbourne, Melbourne, Victoria, AustraliaOeschger Centre for Climate Change Research, University of Bern, Bern, 3012, SwitzerlandInstitute of Geography, University of Bern, Bern, 3012, Switzerland<p>In June 1876, June 1910, and August 2005, northern Switzerland was severely impacted by heavy precipitation and extreme floods. Although occurring in different centuries, all three events featured very similar precipitation patterns and an extratropical storm following a cyclonic, so-called Vb (five b of the van Bebber trajectories) trajectory around the Alps. Going back in time from the recent to the historical cases, we explore the potential of dynamical downscaling of a global reanalysis product from a grid size of 220 to 3&thinsp;km. We investigate sensitivities of the simulated precipitation amounts to a set of differing configurations in the regional weather model. The best-performing model configuration in the evaluation, featuring a 1&thinsp;d initialization period, is then applied to assess the sensitivity of simulated precipitation totals to cyclonic moisture flux along the downscaling steps. The analyses show that cyclone fields (closed pressure contours) and tracks (minimum pressure trajectories) are well defined in the reanalysis ensemble for the 2005 and 1910 cases, while deviations from the ensemble mean increase for the 1876 case. In the downscaled ensemble, the accuracy of simulated precipitation totals is closely linked to the exact trajectory and stalling position of the cyclone, with slight shifts producing erroneous precipitation, e.g., due to a break-up of the vortex if simulated too close to the Alpine topography. Simulated precipitation totals only reach the observed ones if the simulation includes continuous moisture fluxes of <span class="inline-formula">&gt;200</span>&thinsp;kg&thinsp;m<span class="inline-formula"><sup>−1</sup></span>&thinsp;s<span class="inline-formula"><sup>−1</sup></span> from northerly directions and high contributions of (embedded) convection. Misplacement of the vortex and concurrent uncertainties in simulating convection, in particular for the 1876 case, point to limitations of downscaling from coarse input for such complex weather situations and for the more distant past. On the upside, single (contrasting) members of the historical cases are well capable of illustrating variants of Vb cyclone dynamics and features along the downscaling steps.</p>https://www.nat-hazards-earth-syst-sci.net/20/35/2020/nhess-20-35-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author P. Stucki
P. Stucki
P. Froidevaux
P. Froidevaux
M. Zamuriano
M. Zamuriano
F. A. Isotta
M. Messmer
M. Messmer
M. Messmer
A. Martynov
A. Martynov
spellingShingle P. Stucki
P. Stucki
P. Froidevaux
P. Froidevaux
M. Zamuriano
M. Zamuriano
F. A. Isotta
M. Messmer
M. Messmer
M. Messmer
A. Martynov
A. Martynov
Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux
Natural Hazards and Earth System Sciences
author_facet P. Stucki
P. Stucki
P. Froidevaux
P. Froidevaux
M. Zamuriano
M. Zamuriano
F. A. Isotta
M. Messmer
M. Messmer
M. Messmer
A. Martynov
A. Martynov
author_sort P. Stucki
title Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux
title_short Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux
title_full Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux
title_fullStr Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux
title_full_unstemmed Simulations of the 2005, 1910, and 1876 Vb cyclones over the Alps – sensitivity to model physics and cyclonic moisture flux
title_sort simulations of the 2005, 1910, and 1876 vb cyclones over the alps – sensitivity to model physics and cyclonic moisture flux
publisher Copernicus Publications
series Natural Hazards and Earth System Sciences
issn 1561-8633
1684-9981
publishDate 2020-01-01
description <p>In June 1876, June 1910, and August 2005, northern Switzerland was severely impacted by heavy precipitation and extreme floods. Although occurring in different centuries, all three events featured very similar precipitation patterns and an extratropical storm following a cyclonic, so-called Vb (five b of the van Bebber trajectories) trajectory around the Alps. Going back in time from the recent to the historical cases, we explore the potential of dynamical downscaling of a global reanalysis product from a grid size of 220 to 3&thinsp;km. We investigate sensitivities of the simulated precipitation amounts to a set of differing configurations in the regional weather model. The best-performing model configuration in the evaluation, featuring a 1&thinsp;d initialization period, is then applied to assess the sensitivity of simulated precipitation totals to cyclonic moisture flux along the downscaling steps. The analyses show that cyclone fields (closed pressure contours) and tracks (minimum pressure trajectories) are well defined in the reanalysis ensemble for the 2005 and 1910 cases, while deviations from the ensemble mean increase for the 1876 case. In the downscaled ensemble, the accuracy of simulated precipitation totals is closely linked to the exact trajectory and stalling position of the cyclone, with slight shifts producing erroneous precipitation, e.g., due to a break-up of the vortex if simulated too close to the Alpine topography. Simulated precipitation totals only reach the observed ones if the simulation includes continuous moisture fluxes of <span class="inline-formula">&gt;200</span>&thinsp;kg&thinsp;m<span class="inline-formula"><sup>−1</sup></span>&thinsp;s<span class="inline-formula"><sup>−1</sup></span> from northerly directions and high contributions of (embedded) convection. Misplacement of the vortex and concurrent uncertainties in simulating convection, in particular for the 1876 case, point to limitations of downscaling from coarse input for such complex weather situations and for the more distant past. On the upside, single (contrasting) members of the historical cases are well capable of illustrating variants of Vb cyclone dynamics and features along the downscaling steps.</p>
url https://www.nat-hazards-earth-syst-sci.net/20/35/2020/nhess-20-35-2020.pdf
work_keys_str_mv AT pstucki simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT pstucki simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT pfroidevaux simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT pfroidevaux simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT mzamuriano simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT mzamuriano simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT faisotta simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT mmessmer simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT mmessmer simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT mmessmer simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT amartynov simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
AT amartynov simulationsofthe20051910and1876vbcyclonesoverthealpssensitivitytomodelphysicsandcyclonicmoistureflux
_version_ 1724767969532182528

Similar Items