The lagoons discussed in this study are shallow transitory basins each with only one connection to the Baltic Sea. The basic morphometric and hydrological characteristics of the lagoons are presented in Table 1. The Curonian Lagoon (CL) is the biggest Baltic lagoon (Figure 1). It is separated from the open sea by the relatively narrow sandy and wooded Curonian Spit (0.5–3 km wide) and connected to the sea solely through the Klaipėda Strait at the northern end of
the lagoon. The lagoon is a terrestrial runoff-dominated system, and its hydrology is strictly related to the discharge from the catchment area. However, the this website lagoon water being hypereutrophic, its quality is controlled mostly by physical factors such as the wind regime, temperature, water level variations and transparency (Gasiūnaite et al. 2008). The Vistula Lagoon (VL), the second largest lagoon in the Baltic (Chubarenko & Margonski 2008), lies parallel to the Baltic HSP inhibitor cancer shore and is 91 km long (Figure 1). It is separated
from the Baltic Sea by a relatively narrow sandy, completely wooded barrier, which is cut by the lagoon inlet, the Baltiysk Strait, into two segments – the Vistula Spit to the south, and the Baltiysk Spit to the north. The inlet, which is significantly shorter than the Klaipėda Strait, ensures intensive ventilation of the lagoon by seawater. The present trophic state has been assessed as polytrophic/eutrophic. The Darss-Zingst Bodden Chain (DZBC) is one of the shallow areas
of inner coastal waters, known locally as ‘Bodden’, on the southern coast of the Baltic Sea (Schlungbaum & Baudler 2000). It is subdivided into several basins connected by narrow streams. The lagoon stretches along the shore and has a long, shallow connection to the Baltic Sea at its easternmost end. The total cross-section of this inlet is 4.5 times less than that of the Vistula Lagoon (Chubarenko et al. 2005). Water exchange between the lagoon and the Baltic Sea is governed by wind-induced differences in water level between diglyceride the lagoon and the coastal waters. This study is based on analysis of long-term changes of water level and water surface temperature, derived from historical monitoring data of the coastal stations. The water level, air and water temperature measurements for this study were obtained from four stations in the Curonian Lagoon (Figure 1): in the Klaipėda Strait (lagoon inlet), on the western shore (Vente station) and on the eastern shore (Nida and Juodkrante) which belongs to Lithuania. The Otkrytoye station (southern part of the CL) belongs to Russia, but its data has not been used for the studies because some periods were unreliable. Two stations in the Vistula Lagoon are located in the Baltiysk Strait (lagoon inlet) and at Krasnoflotskoye on the eastern shore of the central part of the lagoon.