There are infinite possible future scenarios reflecting the impacts of anthropogenic multiple stress on our planet. These impacts include changes in climate and land cover, to which aquatic ecosystems are especially vulnerable. To assess plausible developments of the future state of European surface waters, we considered two climate sce- narios and three storylines describing land use, management and anthropogenic development (‘Consensus’, ‘Techno’ and ‘Fragmented’, which in terms of environmental protection represent best-, intermediate- and worst-case, respectively). Three lake and four river basins were selected, representing a spectrum of European conditions through a range of different human impacts and climatic, geographical and...
Embargo until 02 February 2020Interactions between climate change and land use change might have sub...
Global assessments show profound impacts of human activities on freshwater systems that, without act...
It is widely acknowledged that waterbodies are becoming increasingly affected by a wide range of dri...
There are infinite possible future scenarios reflecting the impacts of anthropogenic multiple stress...
There are infinite possible future scenarios reflecting the impacts of anthropogenic multiple stress...
The SCENES project has sought to develop likely future state of Europe’s waters. Because the future ...
Global change is severely impacting the biosphere that, through ecosystem services, sustains human w...
The aim of this article is to describe the background and main elements of the SCENES project (Wate...
Nordic water bodies face multiple stressors due to human activities, generating diffuse loading and ...
In recent decades, freshwater usage for various sectors (e.g. agriculture, industry, energy and dome...
The global land system is facing unprecedented pressures from growing human populations and climatic...
Lake ecosystems across the world are under combined pressures of eutrophication and climate change, ...
A comparative study in two mesoscale, agricultural watersheds located in mid-latitude, developed reg...
Recent studies have demonstrated that projected climate change will likely enhance nitrogen (N) and ...
Embargo until 02 February 2020Interactions between climate change and land use change might have sub...
Global assessments show profound impacts of human activities on freshwater systems that, without act...
It is widely acknowledged that waterbodies are becoming increasingly affected by a wide range of dri...
There are infinite possible future scenarios reflecting the impacts of anthropogenic multiple stress...
There are infinite possible future scenarios reflecting the impacts of anthropogenic multiple stress...
The SCENES project has sought to develop likely future state of Europe’s waters. Because the future ...
Global change is severely impacting the biosphere that, through ecosystem services, sustains human w...
The aim of this article is to describe the background and main elements of the SCENES project (Wate...
Nordic water bodies face multiple stressors due to human activities, generating diffuse loading and ...
In recent decades, freshwater usage for various sectors (e.g. agriculture, industry, energy and dome...
The global land system is facing unprecedented pressures from growing human populations and climatic...
Lake ecosystems across the world are under combined pressures of eutrophication and climate change, ...
A comparative study in two mesoscale, agricultural watersheds located in mid-latitude, developed reg...
Recent studies have demonstrated that projected climate change will likely enhance nitrogen (N) and ...
Embargo until 02 February 2020Interactions between climate change and land use change might have sub...
Global assessments show profound impacts of human activities on freshwater systems that, without act...
It is widely acknowledged that waterbodies are becoming increasingly affected by a wide range of dri...