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  • Banta RM, Olivier LD, Holloway ET, Kropfli RA, Bartram BW, Cupp RE, Post MJ. 1992. Smoke-column observations from two forest fires using Doppler lidar and Doppler radar. J. Appl. Meteorol. 31: 13281349.
  • Banta RM, Senff CJ, Nielsen-Gammon J, Darby LS, Ryerson TB, Alvarez RJ, Sandberg SP, Williams EJ, Trainer M. 2005. A bad air day in Houston. Bull. Am. Meteorol. Soc. 86: 657669.
  • Benoit R, Schär C, Binder P, Chamberland S, Davies HC, Desgagné M, Girard C, Keil C, Kouwen N, Lüthi D, Maric D, Müller E, Pellerin P, Schmidli J, Schubiger F, Schwierz C, Sprenger M, Walser A, Willemse S, Yu W, Zala E. 2002. The real-time ultrafinescale forecast support during the Special Observing Period of the MAP. Bull. Am. Meteorol. Soc. 83: 85109.
  • Bergeron T. 1928. Über die dreidimensional verknüpfende Wetteranalyse. Teil I. Geofys. Publ. 5: 1111.
  • Bischoff-Gauss I, Gross G, Wippermann F. 1989. Numerical studies on cold fronts. Part II: Orographic effects on gravity flows. Meteorol. Atmos. Phys. 40: 159169.
  • Blumen W. 1992. Propagation of fronts and frontogenesis versus frontolysis over orography. Meteorol. Atmos. Phys. 48: 3750.
  • Bond NA, Fleagle RG. 1985. Structure of a cold front over the ocean. Q. J. R. Meteorol. Soc. 111: 739759.
  • Bougeault P, Binder P, Buzzi A, Dirks R, Houze R, Kuettner J, Smith RB, Steinacker R, Volkert H. 2001. The MAP Special Observing Period. Bull. Am. Meteorol. Soc. 82: 433462.
  • Britter RE, Simpson JE. 1978. Experiments on the dynamics of a gravity current head. J. Fluid Mech. 88: 223240.
  • Carbone RE. 1982. A severe frontal rainband. Part I: Stormwide hydrodynamic structure. J. Atmos. Sci. 39: 258279.
  • Charba J. 1974. Application of gravity current model to analysis of squall-line gust front. Mon. Weather Rev. 102: 140156.
  • Darby LS, Poulos GS. 2006. The evolution of lee-wave-rotor activity in the lee of Pike's Peak under the influence of a cold frontal passage: Implications for aircraft safety. Mon. Weather Rev. 134: 28572876.
  • Darby LS, Neff WD, Banta RM. 1999. Multiscale analysis of a meso-β frontal passage in the complex terrain of the Colorado Front Range. Mon. Weather Rev. 127: 20622081.
  • Darby LS, Gohm A, Nance LB, Gabersek S, Banta RM, Sandberg S. 2000. ‘Foehn flow in the Austrian Alps interrupted by a cold front passage: Part 1’. In Preprints, 9th Conf. on Mountain Meteorology, Aspen, CO. American Meteorological Society: Boston; pp 7982.
  • Darby LS, Banta RM, Brewer WA, Neff WD, Marchbanks RD, McCarty BJ, Senff CJ, White AB, Angevine WM, Williams EJ. 2002. Vertical variations in O3 concentrations before and after a gust front passage. J. Geophys. Res. 107(D13): 4176.
  • Davies HC. 1984. On the orographic retardation of a cold front. Beitr. Phys. Atmos. 57: 409418.
  • Durran DR, Marić T, Banta RM, Darby LS, Hardesty RM. 2003. A comparison of ground-based Doppler lidar and airborne in situ wind observations above complex terrain. Q. J. R. Meteorol. Soc. 129: 693713.
  • Egger J. 1989. Föhn and quasi-stationary fronts. Beitr. Phys. Atmos. 62: 2029.
  • Egger J. 1992. Cold front propagation in the Loisach valley: Simulations with a simple model. Meteorol. Atmos. Phys. 48: 173178.
  • Egger J, Hoinka KP. 1992. Fronts and orography. Meteorol. Atmos. Phys 48: 336.
  • Flamant C, Drobinski P, Nance L, Banta R, Darby L, Dusek J, Hardesty M, Pelon J, Richard E. 2002. Gap flow in an Alpine valley during a shallow south föhn event: Observations, numerical simulations and hydraulic analogue. Q. J. R. Meteorol. Soc. 128: 11731210.
  • Freytag C. 1990. Modifications of the structure of cold fronts over the foreland and in a mountain valley. Meteorol. Atmos. Phys. 43: 6976.
  • Garratt JR. 1988. Summertime cold fronts in southeast Australia—Behavior and low-level structure of main frontal types. Mon. Weather Rev. 116: 636649.
  • Geerts B, Damiani R, Haimov S. 2006. Finescale vertical structure of a cold front as revealed by an airborne Doppler radar. Mon. Weather Rev. 134: 251271.
  • GlickmanTS (ed). 2000. Glossary of meteorology, 2nd edn. American Meteorological Society: Boston.
  • Goff RC. 1976. Vertical structure of thunderstorm outflows. Mon. Weather Rev. 104: 14291440.
  • Gohm A, Mayr GJ. 2004. Hydraulic aspects of föhn winds in an Alpine valley. Q. J. R. Meteorol. Soc. 130: 449480.
  • Gohm A, Mayr GJ, Mobbs S, Arnold S, Vergeiner J, Darby LS, Banta RM, Sandberg S. 2000. ‘Foehn flow in the Austrian Alps interrupted by a cold front passage: Part 2’. In Preprints, 9th Conf. on Mountain Meteorology, Aspen, CO. American Meteorological Society: Boston; pp 8386.
  • Gohm A, Zängl G, Mayr GJ. 2004. South foehn in the Wipp Valley on 24 October 1999 (MAP IOP 10): Verification of high-resolution numerical simulations with observations. Mon. Weather Rev. 132: 78102.
  • Gohm A, Harnisch F, Vergeiner J, Obleitner F, Schnitzhofer R, Hansel A, Fix A, Neininger B, Emeis S, Schäfer K. 2009. Air pollution transport in an Alpine valley: Results from airborne and ground-based observations. Boundary-Layer Meteorol. 131: 441463.
  • Hakim GJ. 1991. The eastern United States side-door cold front of 22 April 1987: A case study of an intense atmospheric density current. Mon. Weather Rev. 120: 27382762.
  • Heimann D. 1988. The ‘Papal Front’ of 3 May 1987: Modelling of orographic and diabatic effects. Beitr. Phys. Atmos. 61: 330343.
  • Heimann D. 1990. Three-dimensional modeling of synthetic cold fronts approaching the Alps. Meteorol. Atmos. Phys. 42: 197219.
  • Heimann D. 1992. Three-dimensional modeling of synthetic cold fronts interacting with northern Alpine Foehn. Meteorol. Atmos. Phys. 48: 139163.
  • Hoinka KP. 1987. On the effect of a foehn on cold fronts in the vicinity of the Alps. Boundary-Layer Meteorol. 40: 199203.
  • Hoinka KP, Volkert H. 1987. The German Front Experiment 1987. Bull. Am. Meteorol. Soc. 68: 14241427.
  • Hoinka KP, Volkert H. 1992. Fronts and the Alps: Findings from the Front Experiment 1987. Meteorol. Atmos. Phys. 48: 5175.
  • Hoinka KP, Hagen M, Volkert H, Heimann D. 1990. On the influence of the Alps on a cold front. Tellus 42A: 140164.
  • Intrieri JM, Bedard AJ Jr, Hardesty RM. 1990. Details of colliding thunderstorm outflows as observed by Doppler lidar. J. Atmos. Sci. 47: 10811099.
  • Kaufmann H. 1989. ‘Erarbeitung der Feinstruktur der Frontdurchgänge im Inntal’, Master's thesis, 101pp. University of Innsbruck: Austria.
  • Koch SE. 1984. The role of an apparent mesoscale frontogenetic circulation in squall line initiation. Mon. Weather Rev. 112: 20902111.
  • Koch SE, Clark WL. 1999. A nonclassical cold front observed during COPS-91: Frontal structure and the process of severe storm initiation. J. Atmos. Sci. 56: 28622890.
  • Krenn W. 1949. ‘Die Auswirkungen der Frontdurchgänge im Alpenraum Tirol–Vorarlberg’, PhD thesis, 57pp. University of Innsbruck: Austria.
  • KuettnerJP (ed). 1982a.. ALPEX Experiment Design, GARP-ALPEX, vol. 1. WMO: Geneva.
  • KuettnerJP (ed). 1982b.. ALPEX Preliminary Scientific Results, GARP-ALPEX, vol. 7. WMO: Geneva.
  • Kurz M. 1990. The influence of the Alps on structure and behavior of cold fronts over southern Germany. Meteorol. Atmos. Phys. 43: 6168.
  • Marić T, Durran DR. 2009. Observations of gap flow in the Wipp Valley on 20 October 1999: Evidence of subsidence. J. Atmos. Sci. 66: 9841001.
  • Mayr GJ, Armi L, Arnold S, Banta RM, Darby LS, Durran DR, Flamant C, Gaberšek S, Gohm A, Mayr R, Mobbs S, Nance LB, Vergeiner I, Vergeiner J, Whiteman CD. 2004. Gap flow measurements during the Mesoscale Alpine Programme. Meteorol. Atmos. Phys. 86: 99119.
  • Mayr GJ, Armi L, Gohm A, Zängl G, Durran DR, Flamant C, Gaberšek S, Mobbs S, Ross A, Weissmann M. 2007. Gap flows: Results from the Mesoscale Alpine Programme. Q. J. R. Meteorol. Soc. 133: 881896.
  • Müller H, Sladkovic R. 1990. Case studies of frontal passages in a mountain valley with direct access to the Bavarian pre-Alpine region. Results from the German Front Experiment 1987. Meteorol. Atmos. Phys. 43: 7787.
  • Nappo CJ. 2002. An introduction to atmospheric gravity waves. Academic Press: New York.
  • Neiman PJ, Ralph FM, Weber RL, Uttal T, Nance LB, Levinson DH. 2001. Observations of nonclassical frontal propagation and frontally forced gravity waves adjacent to steep topography. Mon. Weather Rev. 129: 26332659.
  • Neiman PJ, Sukovich EM, Ralph FM, Hughes M. 2009. A seven-year wind profiler-based climatology of the windward barrier jet along California's Northern Sierra Nevada. Mon. Weather Rev. In press.
  • Nielsen JW, Neilley PP. 1990. The vertical structure of New England coastal fronts. Mon. Weather Rev. 118: 17931807.
  • Orlanski I. 1975. A rational subdivision of scales for atmospheric processes. Bull. Am. Meteorol. Soc. 56: 527530.
  • Post MJ, Cupp RE. 1990. Optimizing a pulsed Doppler lidar. Appl. Opt. 29: 41454158.
  • Rucker M, Banta RM, Steyn DG. 2008. Along-valley structure of daytime thermally driven flows in the Wipp Valley. J. Appl. Meteorol. Climatol. 47: 733751.
  • Schumann U. 1987. Influence of mesoscale orography on idealized cold fronts. J. Atmos. Sci. 44: 34233441.
  • Seitter K, Muench HS. 1985. Observation of a cold front with rope cloud. Mon. Weather Rev. 113: 840848.
  • Shapiro MA, Hampel T, Rotzoll D, Mosher F. 1985. The frontal hydraulic head: A micro-α scale (∼1 km) triggering mechanism for mesoconvective weather systems. Mon. Weather Rev. 113: 11661183.
  • Simpson JE. 1997. Gravity currents: In the environment and the laboratory, 2nd edn. Cambridge University Press: Cambridge, UK.
  • Simpson JE, Britter RE. 1979. The dynamics of the head of a gravity current advancing over a horizontal surface. J. Fluid Mech. 94: 477495.
  • Simpson JE, Britter RE. 1980. A laboratory model of an atmospheric mesofront. Q. J. R. Meteorol. Soc. 106: 485500.
  • Smith RK, Reeder MJ. 1988. On the movement and low-level structure of cold fronts. Mon. Weather Rev. 116: 19271944.
  • Steinacker R. 1981. Analysis of the temperature and wind field in the alpine-region. Geophys. Astrophys. Fluid Dyn. 17: 5162.
  • Steinacker R. 1982. ‘The first ALPEX-SOP cold-front on March 2, 1982’. In ALPEX Preliminary Scientific Results, GARP-ALPEX, vol. 7, KuettnerJP (ed). WMO: Geneva; pp 8796.
  • Steinacker R. 1987. Orographie und Fronten. Wetter und Leben 39: 6570.
  • Steinacker R, Häberli C, Pöttschacher W. 2000. A transparent method for the analysis and quality evaluation of irregularly distributed and noisy observational data. Mon. Weather Rev. 128: 23032316.
  • Stull RB. 1988. An Introduction to Boundary Layer Meteorology. Kluwer Academic Publishers: Dordrecht.
  • Thorpe AJ, Miller MJ, Moncrieff MW. 1980. Dynamical models of two-dimensional downdraughts. Q. J. R. Meteorol. Soc. 106: 463484.
  • Vill M. 2002. ‘Foehn breakdown with a cold front: Two MAP case studies’, Master's thesis, 79pp. University of Innsbruck: Austria.
  • Volkert H, Weickmann L, Tafferner A. 1991. The Papal Front of 3 May 1987: A remarkable example of frontogenesis near the Alps. Q. J. R. Meteorol. Soc. 117: 125150.
  • Wakimoto RM. 1982. The life cycle of thunderstorm gust fronts as viewed with Doppler radar and rawinsonde data. Mon. Weather Rev. 110: 10601082.
  • Weissmann MD, Mayr GJ, Banta RM, Gohm A. 2004. Observations of the temporal evolution and spatial structure of the gap flow in the Wipp Valley on 2 and 3 October 1999. Mon. Weather Rev. 132: 26842697.
  • Whiteman CD, Hubbe JM, Shaw WJ. 2000. Evaluation of an inexpensive temperature datalogger for meteorological applications. J. Atmos. Oceanic Technol. 17: 7781.
  • Zängl G. 2006. North foehn in the Austrian Inn Valley: A case study and idealized numerical simulations. Meteorol. Atmos. Phys. 91: 85105.
  • Zängl G, Gohm A. 2006. Small-scale dynamics of the south foehn in the lower Wipp Valley. Meteorol. Atmos. Phys. 93: 7995.