As most of the available long-term wave data stem from the eastern and north-eastern Baltic Sea and the Gulf of Finland, the focus is on the eastern regions of the Baltic Sea. We start with a short description of the long-term historical data and the modelling systems used for long-term wave hindcasts. A discussion of visually observed wave properties at selected points along the eastern coast of the Baltic Sea highlights several variations in wave heights, periods and propagation

directions at scales from weekly to decadal. Spatial patterns of the long-term average wave heights and periods and extreme wave heights are discussed next. Finally, we provide evidence about differences in the patterns of changes in average and extreme wave heights Talazoparib datasheet and demonstrate why many such changes have gone unnoticed in the existing wave measurement network. There are only a few observation and measurement sites on the eastern coast of the Baltic Sea and in the Baltic Proper covering longer time intervals.

In the discussion below, we use the data from Almagrundet, Nida, Palanga, Klaipėda, Vilsandi, Pakri and Narva-Jõesuu (Figure 1). Although the most reliable information about wave properties in the northern Baltic Proper stems from directional wave measurements at Bogskär in 1982–1986, in the northern Baltic Proper STA-9090 solubility dmso since 1996 (Kahma et al. 2003) and in the Gulf of Finland in 1990–1991 and 1994 (Kahma & Pettersson 1993, Pettersson 2001) and since 2001, the measurement period of this data (available only for 1996–2002, Kahma et al. 2003) is not long enough to determine the long-term changes in

wave properties in terms of climatological information (WMO 2001). Wave statistics and scatter diagrams for the short-term instrumental measurement sites have been extensively used in comparisons of modelled Carnitine dehydrogenase and measured wave properties. The data from Almagrundet, a shoal about 20 km south-east of Sandhamn (59°09′N, 19°08′E) on the offshore side of the Stockholm archipelago, form the longest instrumentally measured wave data set in this region (1978–2003, Broman et al. 2006). Although the site is somewhat sheltered from part of the prevailing winds (in particular, the fetch length for winds from the south-west, west and north-west is quite limited at this site), it is located far enough from the coast to capture to some extent the properties of waves created by winds blowing offshore from the mainland. Single waves were identified from the time series of the position of the water surface (sampled over 640 s each hour by upward-looking echo-sounders) using the zero-downcrossing method. Wave components with periods of less than 1.5 s as well as the data probably reflecting wave interference, breaking waves and possibly very steep waves were discarded (Mårtensson & Bergdahl 1987). An estimate of the significant wave height HS was found from the 10th highest wave in a record on the assumption that wave heights are Rayleigh distributed.