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  • Aoshima F, Behrendt A, Bauer H-S, Wulfmeyer V. 2008. Statistics of convection initiation by use of Meteosat rapid scan data during the Convection and Orographically-induced Precipitation Study (COPS). Meteorol. Z. 17: 921930.
  • Banacos PC, Schultz DM. 2005. The use of moisture flux convergence in forecasting convective initiation: Historical and operational perspectives. Weather and Forecasting 20: 351366.
  • Barthlott C, Schipper JW, Kalthoff N, Adler B, Kottmeier C, Blyth A, Mobbs SD. 2010. Model representation of boundary-layer convergence triggering deep convection over complex terrain: A case study from COPS. Atmos. Res. 95: 172185.
  • Barthlott C, Burton R, Kirshbaum D, Hanley K, Richard E, Chaboureau J-P, Trentmann J, Kern B, Bauer H-S, Schwitalla T, Keil C, Seity Y, Gadian A, Blyth A, Mobbs S, Flamant C, Handwerker J. 2011. Initiation of deep convection at marginal instability in an ensemble of mesoscale models: a case-study from COPS. Q. J. R. Meteorol. Soc. 137(S1): 118136, DOI: 10.1002/qj.707.
  • Behrendt A, Wulfmeyer V, Di Girolamo P, Kiemle C, Bauer H-S, Schaberl T, Summa D, Whiteman DN, Demoz BB, Browell EV, Ismail S, Ferrare R, Kooi S, Ehret G, Wang J. 2007a. Intercomparison of water vapor data measured with lidar during IHOP_2002. Part I: Airborne to ground-based lidar systems and comparisons with chilled-mirror hygrometer radiosondes. J. Atmos. Oceanic Technol. 24: 321.
  • Behrendt A, Wulfmeyer V, Kiemle C, Ehret G, Flamant C, Schaberl T, Bauer H-S, Kooi S, Ismail S, Ferrare R, Browell EV, Whiteman DN. 2007b. Intercomparison of water vapor data measured with lidar during IHOP_2002. Part II: Airborne-to-airborne systems. J. Atmos. Oceanic Technol. 24: 2239.
  • Behrendt A, Wulfmeyer V, Riede A, Wagner G, Pal S, Bauer H, Radlach M, Späth F. 2009. 3-Dimensional observations of atmospheric humidity with a scanning differential absorption lidar. Proc. SPIE 7475: 74750L, DOI: 10.1117/12.835143.
  • Bennett LJ, Blyth AM, Burton RR, Gadian AM, Weckwerth TM, Behrendt A, Di Girolamo P, Dorninger M, Lock S-J, Smith VH, Mobbs SD. 2011. Initiation of convection over the Black Forest mountains during COPS IOP15a. Q. J. R. Meteorol. Soc. 137(S1): 176189.
  • Bhawar R., Di Girolamo P, Summa D, Flamant C, Althausen D, Behrendt A, Kiemle C, Bosser P, Cacciani M, Champollion C, Di Iorio T, Engelmann R, Herold C, Pal S, Wirth M, Wulfmeyer V. 2011. The water vapour intercomparison effort in the framework of the Convective and Orographically-induced Precipitation Study: airborne-to-ground-based and airborne-to-airborne lidar systems. Q. J. R. Meteorol. Soc. 137(S1): 325348, DOI: 10.1002/qj.697.
  • Bica B, Steinacker R, Lotteraner C, Suklitsch M. 2007. A new concept for high resolution temperature analysis over complex terrain. Theor. Appl. Climatol. 90: 173183.
  • Browning KA, Blyth AM, Clark PA, Corsmeier U, Morcrette CJ, Agnew JL, Ballard SP, Bamber D, Barthlott C, Bennett LJ, Beswick KM, Bitter M, Bozier KE, Brooks BJ, Collier CG, Davies F, Deny B, Dixon MA, Feuerle T, Forbes RM, Gaffard C, Gray MD, Hankers R, Hewison TJ, Kalthoff N, Khodayar S, Kohler M, Kottmeier C, Kraut S, Kunz M, Ladd DN, Lean HW, Lenfant J, Li Z, Marsham J, McGregor J, Mobbs SD, Nicol J, Norton E, Parker DJ, Perry F, Ramatschi M, Ricketts HMA, Roberts NM, Russell A, Schulz H, Slack EC, Vaughan G, Waight J, Wareing DP, Watson RJ, Webb AR, Wieser A. 2007. The Convective Storm Initiation Project. Bull. Am. Meteorol. Soc. 88: 19391955.
  • Bruneau D, Quaglia P, Flamant C, Meissonnier M, Pelon J. 2001. Airborne lidar LEANDRE II for water-vapor profiling in the troposphere. I. System description. Appl. Opt. 40: 34503461.
  • Carbone RE, Tuttle JD, Ahijevych DA, Trier SB. 2002. Inferences of predictability associated with warm season precipitation episodes. J. Atmos. Sci. 59: 20332056.
  • Corsmeier U, Hankers R, Wieser A. 2001. Airborne turbulence measurements in the lower troposphere onboard the research aircraft Dornier 128-6, D-IBUF. Meteorol. Z. 10: 315329.
  • Corsmeier U, Kalthoff N, Barthlott C, Behrendt A, Di Girolamo P, Dorninger M, Handwerker J, Kottmeier C, Mahlke H, Mobbs SD, Norton EG, Wickert J, Wulfmeyer V. 2011. Processes driving deep convection over complex terrain: A multi-scale analysis of observations from COPS IOP 9c. Q. J. R. Meteorol. Soc. 137(S1): 137155, DOI: 10.1002/qj.754.
  • Craven JP, Jewell RE, Brooks HE. 2002. Comparison between observed convective cloud-base heights and lifting condensation level for two different lifted parcels. Weather and Forecasting 17: 885890.
  • Crewell S, Mech M, Reinhardt T, Selbach C, Betz H-D, Brocard E, Dick G, O'Connor E, Fischer J, Hanisch T, Hauf T, Hünerbein A, Delobbe L, Mathes A, Peters G, Wernli H, Wiegner M, Wulfmeyer V. 2008. The general observation period 2007 within the priority program on quantitative precipitation forecasting: Concept and first results. Meteorol. Z. 17: 849866.
  • Crook NA. 1996. Sensitivity of moist convection forced by boundary layer processes to low-level thermodynamic fields. Mon. Weather Rev. 124: 17671785.
  • Dayan U, Shenhav R, Graber M. 1988. The spatial and temporal behavior of the mixed layer in Israel. J. Appl. Meteorol. 27: 13821394.
  • De Wekker SFJ, Kossmann M, Fiedler F. 1997. ‘Observations of daytime mixed layer heights over mountainous terrain during the TRACT field campaign.’ Pp 498499 in Proceedings of the 12th AMS Symposium on Boundary layers and turbulence, Vancouver, BC, Canada. American Meteorological Society.
  • Dick G, Gendt G, Reigber C. 2001. First experience with near real-time water vapor estimation in a German GPS network. J. Atmos. Solar-Terr. Phys. 63: 12951304.
  • Di Girolamo P, Marchese R, Whiteman DN, Demoz BB. 2004. Rotational Raman lidar measurements of atmospheric temperature in the UV. Geophys. Res. Lett. 31: L01106, DOI: 10.1029/2003GL018342.
  • Di Girolamo P, Summa D, Ferretti R. 2009. Multiparameter Raman lidar measurements for the characterization of a dry stratosphere intrusion event. J. Atmos. Oceanic Technol. 26: 17421762.
  • Doswell III CA. 1977. Obtaining meteorologically significant surface divergence fields through the filtering property of objective analysis. Mon. Weather Rev. 105: 885892.
  • Ebert EE, Damrath U, Wergen W, Baldwin ME. 2003. The WGNE assessment of short-term quantitative precipitation forecasts. Bull. Am. Meteorol. Soc. 84: 481492.
  • Fabry F. 2006. The spatial variability of moisture in the boundary layer and its effect on convection initiation: Project-long characterization. Mon. Weather Rev. 134: 7991.
  • Fritsch JM, Carbone RE. 2004. Improving quantitative precipitation forecasts in the warm season: A USWRP research and development strategy. Bull. Am. Meteorol. Soc. 85: 955965.
  • Gendt G, Dick G, Reigber C, Tomassini M, Liu Y, Ramatschi M. 2004. Near real time GPS water vapor monitoring for numerical weather prediction in Germany. J. Meteorol. Soc. Jpn 82: 361370.
  • Groenemeijer P, Barthlott C, Behrendt A, Corsmeier U, Handwerker J, Kohler M, Kottmeier C, Mahlke H, Pal S, Radlach M, Trentmann J, Wieser A, Wulfmeyer V. 2008. Observations of kinematics and thermodynamic structure surrounding a convective storm cluster over a low mountain range. Mon. Weather Rev. 137: 585602.
  • Häberli C, Groehn I, Steinacker R, Pöttschacher W, Dorninger M. 2004. Performance of the surface observation network during MAP. Meteorol. Z. 13: 109121.
  • Huang Y, Blyth AM, Brown PRA, Cotton R, Crosier J, Bower KN, Gallagher MW, Jones H, Gadian AM, Choularton TW, Cardwell J, Coe H, Mobbs SD, Hagen M. 2011. Development of ice particles in convective clouds observed over the Black Forest mountains during COPS. Q. J. R. Meteorol. Soc. 137(S1): 275286, DOI: 10.1002/qj.749.
  • Hudson HR. 1971. On the relationship between horizontal moisture convergence and convective cloud formation. J. Appl. Meteorol. 10: 755762.
  • Kalthoff N, Binder H-J, Kossmann M, Vögtlin R, Corsmeier U, Fiedler F, Schlager H. 1998. Temporal evolution and spatial variation of the boundary layer over complex terrain. Atmos. Environ. 32: 11791194.
  • Kalthoff N, Adler B, Barthlott C, Corsmeier U, Mobbs SD, Crewell S, Träumner K, Kottmeier C, Wieser A, Smith V, Di Girolamo P. 2009. The impact of convergence zones on the initiation of deep convection: A case study from COPS. Atmos. Res. 93: 680694.
  • Kaufmann H. 2006. Mesoscale analysis of the moisture flux divergence in the Alpine Region,’ Diploma thesis (in German), University of Vienna, 113 pp.
  • Khodayar S, Kalthoff N, Wickert J, Corsmeier U, Morcrette CJ, Kottmeier C. 2010. The increase of spatial data resolution for the detection of the initiation of convection: A case study from CSIP. Meteorol. Z. 19: 179198.
  • Kirshbaum DJ. 2011. Cloud-resolving simulations of deep convection over a heated mountain. J. Atmos. Sci., in press, DOI: 10.1175/2010JAS3642.1.
  • Kossmann M, Vögtlin R, Corsmeier U, Vogel B, Fiedler F, Binder H-J, Kalthoff N, Beyrich F. 1998. Aspects of the convective boundary layer structure over complex terrain. Atmos. Environ. 32: 13231348.
  • Kottmeier C, Kalthoff N, Barthlott C, Corsmeier U, Van Baelen J, Behrendt A, Behrendt R, Blyth A, Coulter R, Crewell S, Di Girolamo P, Dorninger M, Flamant C, Foken T, Hagen M, Hauck C, Höller H, Konow H, Kunz M, Mahlke H, Mobbs SD, Richard E, Steinacker R, Weckwerth TM, Wieser A, Wulfmeyer V. 2008. Mechanisms initiating deep convection over complex terrain during COPS. Meteorol. Z. 17: 931948.
  • Lenschow DH, Stankov BB, Mahrt L. 1979. The rapid morning boundary-layer transition. J. Atmos. Sci. 36: 21082124.
  • Pal S, Behrendt A, Wulfmeyer V. 2010. Elastic-backscatter-lidar-based characterization of the convective boundary layer and investigation of related statistics. Ann. Geophys. 28: 825847.
  • Radlach M, Behrendt A, Wulfmeyer V. 2008. Scanning rotational Raman lidar at 355 nm for the measurement of tropospheric temperature fields. Atmos. Chem. Phys. 8: 159169.
  • Richard E, Buzzi A, Zängl G. 2007. Quantitative precipitation forecasting in the Alps: The advances achieved by the Mesoscale Alpine Programme. Q. J. R. Meteorol. Soc. 133: 831846.
  • Richard E, Chaboureau J-P, Flamant C, Champollion C, Hagen M, Schmidt K, Kiemle C, Corsmeier U, Barthlott C, Di Girolamo P. 2011. Forecasting summer convection over the Black Forest: a case-study from the Convective and Orographically-induced Precipitation Study (COPS) experiment. Q. J. R. Meteorol. Soc. 137(S1): 101117, DOI: 10.1002/qj.710.
  • Roberts RD, Rutledge S. 2003. Nowcasting storm initiation and growth using GOES-8 and WSR-88D data. Weather and Forecasting 18: 562584.
  • Rotach MW, Ambrosetti P, Ament F, Appenzeller C, Arpagaus M, Bauer H-S, Behrendt A, Bouttier F, Buzzi A, Corazza M, Davolio S, Denhard M, Dorninger M, Fontannaz L, Frick J, Fundel F, Germann U, Gorgas T, Hegg C, Hering A, Keil C, Liniger MA, Marsigli C, McTaggart-Cowan R, Montani A, Mylne K, Ranzi R, Richard E, Rossa A, Santos-Muñoz D, Schär C, Seity Y, Staudinger M, Stoll M, Volkert H, Walser A, Wang Y, Werhahn J, Wulfmeyer V, Zappa M. 2009a. MAP D-PHASE: Real-time demonstration of weather forecast quality in the Alpine region. Bull. Am. Meteorol. Soc. 90: 13211336.
  • Rotach MW, Ambrosetti P, Ament F, Appenzeller C, Arpagaus M, Bauer H-S, Behrendt A, Bouttier F, Buzzi A, Corazza M, Davolio S, Denhard M, Dorninger M, Fontannaz L, Frick J, Fundel F, Germann U, Gorgas T, Hegg C, Hering A, Keil C, Liniger MA, Marsigli C, McTaggart-Cowan R, Montani A, Mylne K, Ranzi R, Richard E, Rossa A, Santos-Muñoz D, Schär C, Seity Y, Staudinger M, Stoll M, Volkert H, Walser A, Wang Y, Werhahn J, Wulfmeyer V, Zappa M. 2009b. Supplement: Additional applications of the D-PHASE datasets. Bull. Am. Meteorol. Soc. 90: electronic supplement: S28S32.
  • 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.
  • Steinacker R, Ratheiser M, Bica B, Chimani B, Dorninger M, Gepp W, Lotteraner C, Schneider S, Tschannett S. 2006. A mesoscale data analysis and downscaling method over complex terrain. Mon. Weather Rev. 134: 27582771.
  • Schwitalla T, Zängl G, Bauer H-S, Wulfmeyer V. 2008. Systematic errors of QPF in low-mountain regions. Meteorol. Z. 17: 903919.
  • Weckwerth TM. 2000. The effect of small-scale moisture variability on thunderstorm initiation. Mon. Weather Rev. 128: 40174030.
  • Weckwerth TM, Parsons DB. 2006. A review of convection initiation and motivation for IHOP_2002. Mon. Weather Rev. 134: 522.
  • Weckwerth TM, Wilson JW, Wakimoto RM. 1996. Thermodynamic variability within the convective boundary layer due to horizontal convective rolls. Mon. Weather Rev. 124: 769784.
  • Weckwerth TM, Parsons DB, Koch SE, Moore JA, LeMone MA, Demoz BB, Flamant C, Geerts B, Wang J, Feltz WF. 2004. An overview of the International H2O Project (IHOP_2002) and some preliminary highlights. Bull. Am. Meteorol. Soc. 85: 253277.
  • Whiteman DN, Demoz B, Di Girolamo P, Comer J, Veselovskii I, Evans K, Wang Z, Sabatino D, Schwemmer G, Gentry B, Lin R-F, Behrendt A, Wulfmeyer V, Browell E, Ferrare R, Ismail S, Wang J. 2006. Raman Water Vapor Lidar Measurements During the International H2O Project. II. Case Studies. J. Atmos. Oceanic Technol. 23: 170183.
  • Wilson JW, Schreiber WE. 1986. Initiation of convective storms at radar-observed boundary-layer convergence lines. Mon. Weather Rev. 114: 25162536.
  • Wulfmeyer V. 1999. Investigation of turbulent processes in the lower troposphere with water vapor DIAL and radar–RASS. J. Atmos. Sci. 56: 10551076.
  • Wulfmeyer V, Behrendt A (eds) and the COPS Investigators. 2007. ‘COPS Field Report.’ Available at https://www.uni-hohenheim.de/cops/further_reading/further_reading.htm.
  • Wulfmeyer V, Behrendt A, Bauer H-S, Kottmeier C, Corsmeier U, Blyth A, Craig G, Schumann U, Hagen M, Crewell S, Di Girolamo P, Flamant C, Miller M, Montani A, Mobbs SD, Richard E, Rotach MW, Arpagaus M, Russchenberg H, Schlüssel P, König M, Gärtner V, Steinacker R, Dorninger M, Turner DD, Weckwerth TM, Hense A, Simmer C. 2008. The Convective and Orographically-induced Precipitation Study: A research and development project of the World Weather Research Program for improving quantitative precipitation forecasting in low-mountain regions. Bull. Am. Meteorol. Soc. 89: 14771486.
  • Wulfmeyer V, Bösenberg J. 1996. Single-mode operation of an injection-seeded alexandrite ring laser for application in water-vapor and temperature differential absorption lidar. Opt. Lett. 21: 11501152.
  • Wulfmeyer V, Behrendt A, Kottmeier C, Corsmeier U, Barthlott C, Craig GC, Hagen M, Althausen D, Aoshima F, Arpagaus M, Bauer H-S, Bennett L, Blyth A, Brandau C, Champollion C, Crewell S, Dick G, Di Girolamo P, Dorninger M, Dufournet Y, Eigenmann R, Engelmann R, Flamant C, Foken T, Gorgas T, Grzeschik M, Handwerker J, Hauck C, Höller H, Junkermann W, Kalthoff N, Kiemle C, Klink S, König M, Krauss L, Long CN, Madonna F, Mobbs S, Neininger B, Pal S, Peters G, Pigeon G, Richard E, Rotach MW, Russchenberg H, Schwitalla T, Smith V, Steinacker R, Trentmann J, Turner DD, van Baelen J, Vogt S, Volker H, Weckwerth T, Wernli H, Wieser A, Wirth M. 2011. The Convective and Orographically-induced Precipitation Study (COPS): the scientific strategy, the field phase and research highlights. Q. J. R. Meteorol. Soc. 137(S1): 330, DOI: 10.1002/qj.752.
  • Wulfmeyer V, Feingold G. 2000. On the relationship between relative humidity and particle backscattering coefficient in the marine boundary layer determined with differential absorption lidar. J. Geophys. Res. 105: D4, 47294741.