Changes in the phenology of physical and ecological variables associated with climate change are likely to have significant effect on many aspects of the Baltic ecosystem. We apply a set of phenological indicators to multiple environmental variables measured by satellite sensors for 17–36 years to detect possible changes in the seasonality in the Baltic Sea environment. We detect significant temporal changes, such as earlier start of the summer season and prolongation of the productive season, in several variables ranging from basic physical drivers to ecological status indicators. While increasing trends in the absolute values of variables like sea-surface temperature (SST), diffuse attenuation of light (Ked490) and satellite-detected chlo...
Massive cyanobacteria blooms occur almost every summer in the Baltic Sea but the capability to quant...
The historical data from the MEdium Resolution Imaging Spectrometer (MERIS) is an invaluable archive...
Global warming is causing changes in the food web structure and seasonal plankton dynamics. The Balt...
Changes in the phenology of physical and ecological variables associated with climate change are lik...
During the late 1980s air and sea surface temperature started to increase in the Baltic Sea area. Se...
Monitoring data of phytoplankton abundance and biomass (1979–1999) and Chl. a (1979– 2000) from surf...
Phytoplankton spring bloom phenology was derived from a 15-year time series (2000–2014) of ship-of-o...
The Baltic Sea summer phytoplankton community plays an important role in biogeochemical cycling and ...
The phytoplankton biomass data of the period 1979–2005 of the Belt Sea area and the Baltic Proper, s...
Satellite measurements provide synoptic view of sea surface temperature (SST) and can be used to tra...
The Baltic Sea is one of the fastest-warming marginal seas globally, and its temperature rise has ad...
Evaluation of changes in Baltic Sea phytoplankton communities has been hampered by a lack of quantit...
SummarySatellite measurements provide synoptic view of sea surface temperature (SST) and can be used...
Baltic Sea tide gauge data and climatic data sets are statistically analysed to investigate the cent...
In the Baltic Sea area during the late 1980s air and sea surface temperature increased. A longer gro...
Massive cyanobacteria blooms occur almost every summer in the Baltic Sea but the capability to quant...
The historical data from the MEdium Resolution Imaging Spectrometer (MERIS) is an invaluable archive...
Global warming is causing changes in the food web structure and seasonal plankton dynamics. The Balt...
Changes in the phenology of physical and ecological variables associated with climate change are lik...
During the late 1980s air and sea surface temperature started to increase in the Baltic Sea area. Se...
Monitoring data of phytoplankton abundance and biomass (1979–1999) and Chl. a (1979– 2000) from surf...
Phytoplankton spring bloom phenology was derived from a 15-year time series (2000–2014) of ship-of-o...
The Baltic Sea summer phytoplankton community plays an important role in biogeochemical cycling and ...
The phytoplankton biomass data of the period 1979–2005 of the Belt Sea area and the Baltic Proper, s...
Satellite measurements provide synoptic view of sea surface temperature (SST) and can be used to tra...
The Baltic Sea is one of the fastest-warming marginal seas globally, and its temperature rise has ad...
Evaluation of changes in Baltic Sea phytoplankton communities has been hampered by a lack of quantit...
SummarySatellite measurements provide synoptic view of sea surface temperature (SST) and can be used...
Baltic Sea tide gauge data and climatic data sets are statistically analysed to investigate the cent...
In the Baltic Sea area during the late 1980s air and sea surface temperature increased. A longer gro...
Massive cyanobacteria blooms occur almost every summer in the Baltic Sea but the capability to quant...
The historical data from the MEdium Resolution Imaging Spectrometer (MERIS) is an invaluable archive...
Global warming is causing changes in the food web structure and seasonal plankton dynamics. The Balt...