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Dr. Hans Volkert
 Zurück
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( elib )
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Refereed publications and equivalent contributions
2019 - 2015
[60]
Volkert, H., 2017:
Putting faces to names: snapshots of two committee meetings, 95 years appart, emphasize continuous international
cooperation in the atmospheric sciences.
Adv. Atmos. Sci. 34, 571-575;
DOI: 10.1007/s00376-017-6239-6
online link.
[59]
Volkert, H., 2016:
Aerological data spurred dynamical meteorology: Richard Scherhag’s contribution of 1934 as an early milestone.
Meteorol. Z. 25, 521-526;
DOI: 10.1127/metz/2016/0784;
online link.
[58]
Li, J., R. Swinbank, R. Grotjahn, and H. Volkert (eds.), 2016:
Dynamics and predictability of large-scale, high-impact weather and climate events.
Special Publications of IUGG, Vol. 2, Cambridge University Press,
ISBN 978-1-107-07142-1; online link.
2014 - 2010
[57]
Schmidt, K., M. Hagen, H. Höller, E. Richard, and H. Volkert, 2012:
Detailed flow, hydrometeor and lightning characteristics of an isolated thunderstorm
during COPS.
Atmos. Chem. Phys. Soc. 12, no. 15, 6679-7293;
DOI: 10.5194/acp-12-6679-2012;
online link.
[56]
Wulfmeyer, V., A. Behrendt, C. Kottmeier, U. Corsmeier, C. Barthlott, G.C. Craig, M. Hagen,
D. Althausen, F. Aoshima , M. Arpagaus, H.-S. Bauer, L. Bennett, A. Blyth,
C. Brandau, C. Champollion, S. Crewell, G. Dick, P. di Girolamo, M. Dorninger, Y. Dufournet,
R. Eigenmann, R. Engelmann, C. Flamant, T. Foken, T. Gorgas, M. Grzeschik, J. Handwerker, C. Hauck,
H. Höller, W. Junkermann, N. Kalthoff, C. Kiemle, S. Klink, M. König, L. Krauss, C.N. Long,
F. Madonna, S. Mobbs, B. Neininger, S. Pal, G. Peters, G. Pigeon, E. Richard, M.W. Rotach,
H. Russchenberg, T. Schwitalla, V. Smith, R. Steinacker, J. Trentmann, D.D. Turner,
J. van Baelen, S. Vogt, H. Volkert, T. Weckwerth, H. Wernli, A. Wieser and M. Wirth, 2011:
The Convective and Orographically-induced Precipitation Study (COPS):
The scientific strategy, the field phase, and research highlights.
Quart. J. R. Meteorol. Soc. 137, supplement 1, 3-30;
DOI: 10.1002/qj.752;
online link.
[55]
Volkert, H. and G. Zängl, 2010:
The 30th International Conference on Alpine Meteorology (ICAM).
Meteorol. Z. 19, 403-402.
DOI: 10.1127/0941-2948/2010/0479
2009 - 2005
[54]
Ohring, G., R.D. Bojkov, H.-J. Bolle, R.D. Hudson, and H. Volkert, 2009:
Radiation and Ozone: Catalysts for advancing international atmospheric science programs
for over half a century.
Bull. Amer. Meteorol. Soc. 90, 1669-1681. DOI: 10.1175/2009BAMS2766.1;
online link.
[53]
Rotach, M.W., P. Ambrosetti, F. Ament, C. Appenzeller, M. Arpagaus, H.-S. Bauer, F. Bouttier,
A. Buzzi, M. Corazza, S. Davolio, M. Denhard, M. Dorninger, L. Fontannaz, J. Frick, F. Fundel, U. Germann, T. Gorgas, C. Hegg, A. Hering, C. Keil, M.A. Liniger, C. Marsigli,
R. McTaggart-Cowan, A. Montani, K. Mylne, R. Ranzi, E. Richard, A. Rossa,
D. Santos-Muñoz, C. Schär, Y. Seity, M. Staudinger, M. Stoll, H. Volkert, A. Walser, Y. Wang, J. Werhahn, V. Wulfmeyer,
M. Zappa, 2009:
MAP D-PHASE: Real-time demonstration of weather forecast quality in the Alpine region.
Bull. Amer. Meteorol. Soc. 90, 1321-1336 + electronic supplement,
DOI: 10.1175/2009BAMS2776.1;
online link.
[52]
Volkert, H., 2009:
The International Conferences on Alpine Meteorology: Characteristics and trends from a 57-year-series of scientific communication.
Meteorol. Atmos. Phys. 103, 5-12;
DOI: 10.1007/s00703-008-0312-9;
online link.
[51]
Volkert, H., 2008:
Die deutsche Meteorologie als Motor und Nutznießer von internationaler Zusammenarbeit: Wichtige Institutionen und
Persönlichkeiten von 1875 bis 2005.
Annalen der Meteorologie 43, Deutscher Wetterdienst, Offenbach, ISBN 978-3-88148-433-6, 17-24.
[50]
Tafferner, A., C. Forster, M. Hagen, C. Keil, T. Zinner, H. Volkert, 2008:
Development and propagation of severe thunderstorms in the Upper Danube catchment area: Towards an integrated nowcasting and forecasting system using
real-time data and high-resolution simulations.
Meteorol. Atmos. Phys 101, 211-227;
DOI: 10.1007/s00703-008-0322-7;
online link.
[49]
Volkert, H. and T. Gutermann, 2007:
Inter-domain cooperation for mesoscale atmospheric laboratories: The Mesoscale Alpine Programme as a rich study case.
Quart. J. R. Meteorol. Soc. 133, issue 625, 949-967;
doi: 10.1002/qj.95
online link.
[48]
Volkert, H., C. Schär and R.B. Smith (eds.), 2007:
"MAP findings": a series of nine review articles.
Quart. J. R. Meteorol. Soc. 133, issue 625, 809-967;
doi: 10.1002/qj.v133:625
online link.
[47]
Volkert, H., 2006:
Fortschritt durch Feldkampagnen – von ALPEX über PYREX zu MAP.
Promet 32, Heft 1/2, Deutscher Wetterdienst, Offenbach, ISSN 0340-4552, 54-60.
[46]
Lüdecke, C. and H. Volkert, 2005:
From Beaufort to Bjerknes and beyond – Introductory remarks.
In S. Emeis and C. Lüdecke (eds.):
From Beaufort to Bjerknes and beyond: Critical perspectives on observing, analyzing, and predicting weather
and climate.
Algorismus, Band 52, ERV Dr. Erwin Rauner Verlag, Augsburg, ISBN 3-936905-13-4, 1-4.
[45]
Volkert, H., M. Börngen, L.A. Weickmann, 2005:
How lectures notes reflect the states of science and technology:
From Vilhelm Bjerknes's type-scripts of 1914-17 to pdf-files in 2004.
In S. Emeis and C. Lüdecke (eds.): From Beaufort to Bjerknes and beyond:
Critical perspectives on observing, analyzing, and predicting weather and climate.
Algorismus, Band 52, ERV Dr. Erwin Rauner Verlag, Augsburg,
ISBN 3-936905-13-4, 141-147.
2004 - 2000
[44]
Thorpe, A.J., H. Volkert, M.J. Ziemianski, 2003:
The Bjerknes' circulation theorem: A historical perspective.
Bull. Amer. Meteorol. Soc. 84, 471–480;
online link.
[43]
Volkert, H., C. Keil, C. Kiemle, G. Poberaj, J.-P. Chaboureau and E. Richard, 2003:
Gravity waves over the eastern Alps: A synopsis of the 25 October 1999 event IOP10)
combining in-situ and remote measurements with a high-resolution numerical simulation.
Quart. J. Roy. Meteorol. Soc. 129, 777–797.
DOI: 10.1256/qj.02.45;
online link.
[42]
Reitebuch, O., H. Volkert, C. Werner, A. Dabas, P. Delville, P. Drobinski, P.H. Flamant and
E. Richard, 2003:
Determination of airflow across the Alpine ridge by a combination of airborne Doppler lidar, routine radiosounding and numerical simulation.
Quart. J. Roy. Meteorol. Soc. 129, 715–727.
DOI: 10.1256/qj.02.42;
online link.
[41]
Bougeault, P., R.A. Houze, R. Rotunno and H. Volkert (eds.), 2003:
The Mesoscale Alpine Programme (MAP). Special issue, no. 588,
Quart. J. Roy. Meteorol. Soc. 129, 341–895.
DOI: 10.1002/qj.v129:588;
online link.
[40]
Doyle, J.D., H. Volkert, A. Dörnbrack, K.P. Hoinka and T.F. Hogan, 2002:
Aircraft measurements and numerical simulations of mountain waves over the central Alps:
A pre-MAP test case.
Quart. J. Roy. Meteorol. Soc. 128, 2175–2184.
[39]
Smith, R.B., S. Skubis, J.D. Doyle, A.S. Broad, C. Kiemle, and H. Volkert, 2002:
Mountain Waves over Mont Blanc: Influence of a Stagnant Boundary Layer
J. Atmos. Sci. 59, 2073–2092.
[38]
Bougeault, P., P. Binder, A. Buzzi, R. Dirks, R. Houze, J. Kuettner, R.B. Smith, R. Steinacker and H. Volkert, 2001:
The MAP special observing period.
Bull. Amer. Meteorol. Soc. 82, 433–462;
online link.
[37]
Leutbecher, M. and H. Volkert, 2000:
The propagation of mountain waves into the stratosphere: Quantitative evaluation of three-dimensional simulations.
J. Atmos. Sci. 57, 3090–3108.
[36]
Keil, C. and H. Volkert, 2000:
Precipitation in the northern Alpine region: Case-study-type validation of an operational forecast model.
Meteorol. Atmos. Phys. 72, 161–173.
[35]
Volkert, H., 2000:
Heavy precipitation in the Alpine region (HERA): Areal rainfall determination for flood
warnings through in-situ measurements, remote sensing and atmospheric modelling.
Meteorol. Atmos. Phys. 72, 73–85.
[34]
Volkert, H. (ed.), 2000:
Heavy precipitation in the Alpine region (HERA). Final report of European project as special
issue of a research journal,
Meteorol. Atmos. Phys. 72, 69–270.
1999 - 1995
[33]
Keil, C., H. Volkert and D. Majewski, 1999:
The Oder flood in July 1997: Origin of precipitable water diagnosed with an operational forecast-model.
Geophys. Res. Lett. 26, 235–238.
[32]
Volkert, H., 1999:
Components of the Norwegian cyclone model: Observations and theoretical ideas in Europe prior to 1920.
In M.A. Shapiro and S. Grønås (eds.): The life cycles of extratropical cyclones.
Amer. Meteorol. Soc., Boston, ISBN 1-878220-35-7, 15–28.
[31]
Wirth, M., A. Tsias, A. Dörnbrack, V. Weiß, K.S. Carslaw, M. Leutbecher, W. Renger, H. Volkert
and T. Peter, 1999:
Model guided Lagrangian observation and simulation of mountain polar stratospheric clouds.
J. Geophys. Res. 104, 23971–23981.
[30]
Carslaw, K.S., M. Wirth, A. Tsias, B.P. Luo, A. Dörnbrack, M. Leutbecher, H. Volkert, W. Renger,
J.T. Bacmeister, E. Reimer,T. Peter, 1998:
The influence of mountain waves on stratospheric ozone depletion.
Nature 391, 675–678;
online link.
[29]
Carslaw, K.S., M. Wirth, A. Tsias, B.P. Luo, A. Dörnbrack, M. Leutbecher, H. Volkert, W. Renger,
J.T. Bacmeister, T. Peter, 1998:
Particle microphysics and chemistry in remotely observed mountain polar stratospheric clouds.
J. Geophys. Res. 103, 5785–5796.
[28]
Dörnbrack, A., M. Leutbecher, H. Volkert and M. Wirth, 1998:
Mesoscale forecasts of stratospheric mountain waves.
Meteorol. Appl. 5, 117–126.
[27]
Lüdecke, C. and H. Volkert (eds.), 1997:
Development of current research topics during the 20th century.
Special issue of Fachausschusses „Geschichte der Meteorologie“ der DMG,
Meteorol. Z., Neue Folge 6, Heft 6, 239–307.
[26]
Thorpe, A.J. and H. Volkert, 1997:
Potential vorticity: A short history of its definitions and uses.
Meteorol. Z., Neue Folge 6, 275–280.
[25]
Leutbecher, M. and H. Volkert, 1996:
Stratospheric temperature anomalies and mountain waves: A three-dimensional simulation
using a multi-scale weather prediction model.
Geophys. Res. Lett. 23, 3329–3332.
[24]
Peter, T., R. Müller, S. Pawson and H. Volkert, 1995:
POLECAT: Preparatory and modelling studies.
Phys. Chem. Earth 20, 109–121.
[23]
Schumann, U., P. Konopka, R. Baumann, R. Busen, T. Gerz, H. Schlager, P. Schulte and
H. Volkert, 1995:
Estimate of diffusion parameters of aircraft exhaust plumes near the tropopause from nitric
oxide and turbulence measurements.
J. Geophys. Res. 100, No. D7, 14147–14162.
[22]
Volkert, H., S.P. Ballard and M.G. Hutchinson, 1995:
The Papal Front – seen through numerical weather prediction models.
Weather 50, 134–142.
[21]
Volkert, H. and R. Steinacker, 1995:
The Papal Front – findings from research-type analyses.
Weather 50, 142–150.
1994 - 1990
[20]
Thorpe, A.J., H. Volkert and D. Heimann, 1993:
Potential vorticity of flow along the Alps.
J. Atmos. Sci. 50, 1573–1590.
[19]
Volkert, H. and D. Intes, 1992:
Orographically forced stratospheric waves over northern Scandinavia.
Geophys. Res. Lett. 19, 1205–1208.
[18]
Volkert, H., M. Kurz, D. Majewski, T. Prenosil and A. Tafferner, 1992:
The front of 8 October 1987: predictions of three mesoscale models.
Meteorol. Atmos. Phys. 48, 179–191.
[17]
Hoinka, K.P. and H. Volkert, 1992:
Fronts and the Alps: findings from the Front Experiment 1987.
Meteorol. Atmos. Phys. 48, 51–75.
[16]
Volkert, H., L. Weickmann and A. Tafferner, 1991:
The 'papal front' of 3 May 1987 – a remarkable example of frontogenesis near the Alps.
Quart. J. Roy. Meteorol. Soc. 117, 125–150.
[15]
Volkert, H., 1990:
An Alpine orography resolving major valleys and massifs.
Meteorol. Atmos. Phys. 43, 231–234.
[14]
Hoinka, K.-P, M. Hagen, H. Volkert and D. Heimann, 1990:
On the influence of the Alps on a cold front.
Tellus 42A, 140–164;
online link.
[13]
Volkert, H. and C.H. Bishop, 1990:
The semi-geostrophic Eady problem as a testbed for numerical simulations of frontogenesis.
Tellus 42A, 202–207;
online link.
1989 - 1985
[12]
Volkert, H., 1989:
The 'papal front' of 3 May 1987 - precipitation rates.
Meteorol. Rdsch., 41, 121–125.
[11]
Schmitz, H.-P., D. Habicht and H. Volkert, 1988:
Barotropic numerical experiments on external surge generation at the edge of the north-
western European shelf.
Gerlands Beitr. Geophysik, 97, 422–437.
[10]
Heimann, D. and H. Volkert, 1988:
The 'papal front' of 3 May 1987 – mesoscale analyses of routine data.
Beitr. Phys. Atmosph., 61, 62–68.
[09]
Schumann, U., T. Hauf, H. Höller, H. Schmidt and H. Volkert, 1987:
A mesoscale model for the simulation of turbulence, clouds and flow over mountains:
Formulation and validation examples.
Beitr. Phys. Atmosph., 60, 413–446.
[08]
Hoinka, K.-P and H. Volkert, 1987:
The German Front Experiment 1987.
Bull. Amer. Meteorol. Soc., 68, 1424–1427;
online link.
[07]
Schmitz, H.-P. and H. Volkert, 1985:
Hydrodynamisch-numerische Simulation der Fernwellenentwicklung im Nordatlantik während
der Sturmflutlagen des 19.-21. Januar 1976.
Die Küste, 42, 307–318;
online link.
[06]
Volkert, H., 1985:
On the mesoscale variability of meteorological fields – the example of Southern Bavaria.
Beitr. Phys. Atmosph., 58, 498–516.
[05]
Volkert, H., 1985:
Kelvin-Helmholtz waves above the Inn Basin – a snapshot from Spacelab.
Beitr. Phys. Atmosph., 58, 136–142.
1984 - 1980
[04]
Volkert, H., 1984:
The 1982 Morning Glory expedition.
Meteorol. Rdsch., 37, 154–162.
[03]
Volkert, H., 1983:
Klimatologie der Varianz meteorologischer Felder in Südbayern.
Dissertation, Ludwigs-Maximilians Universität München, 155 Seiten;
auch als DFVLR Forschungsbericht 83-31.
[02]
Dümmel, T. and H. Volkert, 1980:
A comparison between global and one-dimensional energy balance models: stability results.
Meteorol. Rdsch., 33, 13–18.
[01]
Volkert, H., 1980:
Meteorologisch bedingte Wasserstandsänderungen des Ozeans – ein numerisch-
physikalisches Modell für Nordatlantik und Nordsee.
Diplomarbeit, Meteorologisches Institut, Freie Universität Berlin, 71 Seiten.
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