Abstract
Improved knowledge on the risk in ecologically important habitats on a regional scale from multiple stressors is critical for managing functioning and resilient ecosystems. This risk assessment aimed to identify seagrass ecosystems in southern Sweden that will be exposed to a high degree of change from multiple global change stressors in mid- and end-of-century climate change conditions. Risk scores were calculated from the expected overlap of three stressors: sea surface temperature increases, ocean acidification and wind driven turbid conditions. Three high-risk regions were identified as areas likely to be exposed to a particularly high level of pressure from the global stressors by the end of the century. In these areas it can be expected that there will be a large degree of stressor change from the current conditions. Given the ecological importance of seagrass meadows for maintaining high biodiversity and a range of other ecosystem services, these risk zones should be given high priority for incorporation into management strategies, which can attempt to reduce controllable stressors in order to mitigate the consequences of some of the impending pressures and manage for maintained ecosystem resilience.
Highlights
Human emissions of greenhouse gases to the atmosphere continue to rise [1]
Spatial representations of each considered stressor were developed from available Global Climate Models (GCMs) and regional climate models using the A1B greenhouse gas emission scenario [35,36,37] showing stressor levels on scales from 0 to 10, where 0 represents no change and 10 represents the highest expected change in the study region by the end of the 21st century compared to current conditions
Current summer sea surface temperatures range from 12.57 to 18.49 ̊C, where the lowest temperatures are seen in southern Sweden and northern Bohuslan, whereas the highest temperatures are found in Kattegat
Summary
Human emissions of greenhouse gases to the atmosphere continue to rise [1] This affects the ocean environment, through the resulting changes to atmospheric climate, and through the oceans’ absorption of emitted CO2 [2]. Among alterations to the ocean environment caused by global change are increased sea surface temperature (SST), shifts in seawater carbonate chemistry, and changes in wind patterns, currents and salinity (reviewed by [3,4]). Such environmental alterations affect species differently and can be the cause of ecosystem state shifts, as dominant species may suffer deleterious effects while subordinate species are favored [5].
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