20200921 15040800 1.0 TRUE 150000000 5000 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EEA European Environment Agency EEA Kongens Nytorv 6 Copenhagen 1050 info@eea.europa.eu DK EEA EEA 20200922 https://sdi.eea.europa.eu/catalogue/srv/api/records/789de867-c056-4f59-ac42-c7bbf71e662b <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The dataset is based on the map "Mean annual sea surface temperature trend in European seas" by Istituto Nazionale di Geofisica e Vulcanologia (INGV), which depicts the linear trend in sea surface temperature (in °C/yr) for the European seas over the past 25 years (1989-2013).</SPAN></P><P><SPAN>Since all changes of sea temperatures can be considered to have an impact on the marine environment, the pressure layer includes absolute values of SST anomalies, i.e. negative/decreasing temperature trends were changed to positive values so that they represent a pressure. The original data was in a 1° grid format but was converted to a 100 km resolution, adapted to the EEA 10 km grid and clipped with the area of interest.</SPAN></P></DIV></DIV></DIV> EEA, ETC/ICM Pressures_Sea_surface_temperature 2018-09-01T00:00:00 2020-01-27T00:00:00 978-3-944280-65-3 EEA European Environment Agency EEA EEA Pressure Sea Temperature Temperature change Environmental pressure Surface water Sea surface temperature Anomalies Combined effect index <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>EEA standard re-use policy: unless otherwise indicated, re-use of content on the EEA website for commercial or non-commercial purposes is permitted free of charge, provided that the source is acknowledged (http://www.eea.europa.eu/legal/copyright). </SPAN></P></DIV></DIV></DIV> Marco Nurmi SYKE Marco.Nurmi@ymparisto.fi The dataset is based on the map "Mean annual sea surface temperature trend in European seas" by Istituto Nazionale di Geofisica e Vulcanologia (INGV), which depicts the linear trend in sea surface temperature (in °C/yr) for the European seas over the past 25 years (1989-2013). More information about this dataset here: https://www.eea.europa.eu/data-and-maps/figures/mean-annual-sea-surface-temperature-1. The SST input data is based on bias adjusted in situ measurements. To extend the analysis over most of the data-sparse oceanic regions, reduced space optimal interpolation was applied (Kaplan et al. 1997). Since all changes of sea temperatures can be considered to have an impact on the marine environment, the pressure layer includes normalised absolute values of SST anomalies. The original data was in a 1° grid format but was converted to a 100km resolution raster - but adapted to the EEA 10 km grid to it could be clipped with and conform with the EEA 10 km shoreline.