References
- Bluestein, H. B. 1992a. Synoptic-Dynamic Meteorology in Midlatitudes. Volume I: Principles of Kinematics and Dynamics, Oxford University Press.
- Bluestein, H. B. 1992b. Synoptic-Dynamic Meteorology in Midlatitudes. Volume II: Observations and Theory of Weather Systems, Oxford University Press.
- Bond, N. A. and Shapiro, M. A. 1991. Polar Lows over the Gulf of Alaska in Conditions of Reverse Shear. Mon. Wea. Rev. 119, 551–572.
- Businger, S. and Reed, R. J. 1989. Polar Lows. In Polar and Arctic Lows, (ed. P. F. Twitchell, E. Rasmussen and K. L. Davidson, A Deepak, Hampton, Virginia.
- Claud, C., Heinemann, G., Raustein, E. and McMurdie, L. 2004. Polar low le cygne: Satellite observations and numerical simulations. Quart. J. R. MeteoroL Soc. 130, 1075–1102.
- Duncan, C. N. 1977. A numerical investigation of polar lows. Quart. J. R. MeteoroL Soc. 103, 255–267.
- Duncan, C. N. 1978. Baroclinic instability in a reversed shear flow. Meteorological Magazine 107, 17–23.
- Fu, G., Niino, H., Kimura, R. and Kato, T. 2004. A polar low over the Japan Sea on 21 january 1997. part I: Observational analysis. Mon. Wea. Rev. 132, 1537–1551.
- Grønås, S., Foss, A. and Lystad, M. 1987. Numerical simulations of polar lows in the Norwegian Sea. Tellus 39A, 334–353.
- Grønås, S. and Kvamsto, N. G. 1995. Numerical simulations of the syn-optic conditions and development of arctic outbreak polar lows. Tellus 47A, 797–814.
- Harold, J. M., Bigg, G. R. and Turner, J. 1999. Mesocyclone activ-ity over the Northeast Atlantic. part 2: An investigation of causal mechanisms. International journal of climatology 19 (12), 1283–1299.
- Holton, J. R. 2004. An Introduction to Dynamic Meteorology, Elsevier Academic Press.
- Kvingedal, B. 2004. Sea ice extent and variability in the nordic seas, 1967-2002, AGU Monograph, 200–210.
- Liu, A. Q., Moore, G. W. K., Tsuboki, K. and Renfrew, I. A. 2004. A high-resolution simulation of convective roll clouds during a cold-air outbreak. Geophys. Res. Lett. 31 (3).
- Lystad, M. 1986. Polar Lows in the Norwegian Greenland and Bar-ents Sea - Final report, The Norwegian Meteorological Institute, Oslo.
- Mailhot, J., Hanley, D., Bilodeau, B. and Hertzman, O. 1996. A nu-merical case study of a polar low in the Labrador Sea. Tellus 48A, 383–402.
- Montgomery, M. T. and Farrell, B. F. 1992. Polar low dynamics. J. Atmos. Sci. 49, 2484–2505.
- Noer, G. and Ovhed, M. 2003. Forecasting of Polar Lows in the Norwe-gian and the Barents Sea. Proc. of the 9th meeting of the EGS Polar Lows Working Group, Cambridge, UK.
- Nordeng, T. E. and Rasmussen, E. A. 1992. A most beautiful polar low - a case study of a polar low development in the Bear Island region. Tellus 44A, 81–99.
- Orvik, K. A. and Niiler, P. 2002. Major pathways of Atlantic water in the northern North Atlantic and Nordic Seas toward Arctic. Geophys. Res. Lett. 29 (19), 1896–1899.
- Rasmussen, E. A., Pedersen, T. S., Pedersen, L. T. and Turner, J. 1992. Polar lows and arctic instability lows in the Bear Island region. Tellus 44A, 133–154.
- Rasmussen, E. A. and Turner, J. 2003. Polar lows, Cambridge University Press.
- Reed, R. J. and Duncan, C. N. 1987. Baroclinic instability as a mechanism for the serial development of polar lows: a case study. Tellus 39A, 376–385.
- Rogers, J. C. 1997. North Atlantic storm track variability and its as-sociation to the North Atlantic Oscillation and climate variability of Northern Europe. J. Clim. 10(7), 1635–1647.
- Wilhelmsen, K. 1985. Climatological study of gale-producing polar lows near Norway. Tellus 37A, 451–459.
- Wu, B., Wang, J. and Walsh, J. 2004. Possible Feedback of Winter Sea Ice in the Greenland and Barents Seas on the Local Atmosphere. Mon. Wea. Rev. 132, 1868–1876.
- Yanase, W., Niino, H. and Saito, K. 2002. High-resolution numerical simulation of a polar low. Geophys. Res. Lett. 29(14), 1658–1661.