Knowledge gaps concerning how various human activities combine to impact freshwater ecosystems can result in reported damaging “ecological surprises.” Although ecological surprises are typically linked to synergistic interactions between stressors, recent research highlights that the antagonistic effect by the single worst stressor most often defines a cumulative ecological impact. Here, use of the appropriate null model based on the known magnitude and mode of action of each stressor is essential to defining and managing cumulative impacts by multiple stressors. Our research shows that by using this approach one should focus on local stressors associated with human activities rather than regional stressors (e.g., climate warming) as the former often overshadows the effect of the latter.
Related Resources
Tree Regeneration on Industrial Linear Disturbances in Treed Peatlands is Hastened by Wildfire and Delayed by Loss of Microtopography
Resource Date:
July
2020
Organization
Quantification of Lichen Cover and Biomass Using Field Data, Airborne Laser Scanning and High Spatial Resolution Optical Data—A Case Study from a Canadian Boreal Pine Forest
Resource Date:
2020
Organization
Large Stocks of Peatland Carbon and Nitrogen are Vulnerable to Permafrost Thaw
Resource Date:
August
2020
Organization
Foestland-Peatland Hygrologic Connectivity in Water-Limited Environment: Hydraulic Gradients Often Oppose Topography
Resource Date:
February
2020
Organization
Wetlands in the Athabasca Oil Sands Region: The Nexus between Wetland Hydrological Function and Resource Extraction
Resource Date:
February
2020
Organization