Because the period was rather short and the annual variation too high to allow any conclusions on real trends to be drawn, the storm frequency was also estimated from measurements made at selected marine meteorological stations.
Figure 9 shows the frequency (number of 6 h periods in a year averaged over the BS-sub-basin) and the average latitude of the grid-points for which the instantaneous maximum wind speed over the sub-basin exceeded 15 m s−1 in 2000–2009. Most of these Selleckchem Nutlin 3a cases occurred during the cold season. The monthly frequencies in winter and autumn indicate that there seems to have been a rather quiet period in 2002–2004 and that in the northern part of the BS (B1, B2, B3) the high wind episodes occurred over slightly higher latitudes at the
end of the period. The years 2003–2006 were less windy over C646 purchase B3 and B4. The cyclones over the sub-basin B5, the Belt Sea and the Kattegat, followed a slightly more southerly route at the end of this period. The 6 h gridded data series over the different BS basins were also filtered to pick out cases when the surface pressure was below 980 hPa. The latitude of the grid-point with the minimum pressure over the BS sub-basins fulfilling the criteria in 2000–2010 does not show any clear trend, and differences exists between sub-basins. When the same criterion, p0 < 980 hPa, is applied to some marine and northerly meteorological station measurements (at 3 h time intervals) over the period from January 1993 to August 2010, the results (Figure 10) show a minimum storm frequency in 1996, 2000–01, 2003–06 and 2009–10 for the marine selleck chemical BS stations. The northern stations are influenced more by easterly and northerly air masses. In Figure 11 the maximum BS ice extent (Schmelzer et al. 2008, Niskanen et al. 2009) is presented together with the number of 3 h periods when p0 < 980 hPa at Finnish meteorological stations during the period 1959–2010. The anti-correlation of the maximum ice extent with the number of occasions of pressure < 980 mbar varied between -0.2 and -0.6, being highest in the north. All the marine
stations are situated quite close to the coast and surrounded by ice every winter. The number of 3 h periods/year in 1959–2010 when p0 < 980 hPa for different wind directions at the Utö station is presented in Figure 12. Most of these low-pressure cases occur in the winter months, but winters are different; over this 50-year period, winter low-pressure situations occurred at Utö most frequently in 1981. However, from Figure 13 (the monthly variation of cases when p0 < 980 hPa and the wind speed > 15 m s–1 averaged over the whole period) we can see that high wind speed events do also occur in summer. Surface pressure maxima at these marine stations occurred on average in May. From Figure 14, showing the number of 3 h periods/year when the wind speed was higher than 15 m/s, one can conclude that high wind speeds were more frequent before 1975 and again between 1991–1995.