Abstract
Abstract. The Utö Atmospheric and Marine Research Station introduced in this paper is located on Utö Island (59∘46.84′ N, 21∘22.13′ E) at the outer edge of the Archipelago Sea, by the Baltic Sea towards the Baltic Proper. Meteorological observations at the island started in 1881 and vertical profiling of seawater temperature and salinity in 1900. Since 1980, the number of observations at Utö has rapidly increased, with a large number of new meteorological, air quality, aerosol, optical and greenhouse gas parameters, and recently, a variety of marine observations. In this study, we analyze long-term changes of atmospheric temperature, cloudiness, sea salinity, temperature and ice cover. Our main dataset consists of 248 367 atmospheric temperature observations, 1632 quality-assured vertical seawater temperature and salinity profiles and 8565 ice maps, partly digitized for this project. We also use North Atlantic Oscillation (NAO), major Baltic inflow (MBI) and Baltic Sea river runoff data from the literature as reference variables to our data. Our analysis is based on a statistical method utilizing a dynamic linear model. The results show an increase in the atmospheric temperature at Utö, but the increase is significantly smaller than on land areas and has taken place only since the early 1980s, with a rate of 0.4 ∘C decade−1 during the last 35 years. We also see an increase in seawater temperatures, especially on the surface, with an increase of 0.3 ∘C decade−1 for the last 100 years. In deeper water layers, the increase is smaller and influenced by vertical mixing, which is modulated by inflow of saline water from the North Sea and freshwater inflow from rivers and by wind-driven processes influenced by the local bathymetry. The date when air temperature in the spring exceeds +5 ∘C became 5 days earlier from the period 1951–1980 to the period 1981–2010 and the date when sea surface water temperature exceeds +4 ∘C changed to 9 days earlier. Sea ice cover duration at Utö shows a decrease of approximately 50 % during the last 35 years. Based on the combined results, it is possible that the climate at Utö has changed into a new phase, in which the sea ice no longer reduces the local temperature increase caused by the global warming.
Highlights
Average atmospheric concentration of carbon dioxide has exceeded 400 ppm (Kilkki et al, 2015) and the effects of climate change have become continuously more visible throughout the Earth (IPCC, 2013; Mikkonen et al, 2015; Iles and Hegerl, 2017)
Seawater salinities in the Baltic Sea follow both changes in freshwater inflow and major Baltic inflows (MBIs)
As we do not have all data available for the whole period, and there are gaps in the data, the best coverage for combined data is for the period 1911–2016
Summary
Average atmospheric concentration of carbon dioxide has exceeded 400 ppm (Kilkki et al, 2015) and the effects of climate change have become continuously more visible throughout the Earth (IPCC, 2013; Mikkonen et al, 2015; Iles and Hegerl, 2017). The Baltic Sea, with shallow waters and variable ice cover, rapidly responds to both annual and long-term changes (Lehmann et al, 2011; HELCOM, 2013). Previous studies from the Baltic Sea area show that during the 20th century, air temperatures have increased until 1930, decreased until the 1960s and started to increase again since the 1980s (HELCOM, 2013). The sea surface temperatures have followed the atmospheric temperatures, with a clear increase due to a recent decrease in duration of ice cover. Seawater salinities in the Baltic Sea follow both changes in freshwater inflow and major Baltic inflows (MBIs). The MBIs increase stratification, leading to reduced vertical mixing
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