Abstract
Humans are placing more strain on the world’s oceans than ever before. Furthermore, marine ecosystems are seldom subjected to single stressors, rather they are frequently exposed to multiple, concurrent stressors. When the combined effect of these stressors is calculated and mapped through cumulative impact assessments, it is often assumed that the effects are additive. However, there is increasing evidence that different combinations of stressors can have non-additive impacts, potentially leading to synergistic and unpredictable impacts on ecosystems. Accurately predicting how stressors interact is important in conservation, as removal of certain stressors could provide a greater benefit, or be more detrimental than would be predicted by an additive model. Here, we conduct a meta-analysis to assess the prevalence of additive, synergistic, and antagonistic stressor interaction effects using seagrasses as case study ecosystems. We found that additive interactions were the most commonly reported in seagrass studies. Synergistic and antagonistic interactions were also common, but there was no clear way of predicting where these non-additive interactions occurred. More studies which synthesise the results of stressor interactions are needed to be able to generalise interactions across ecosystem types, which can then be used to improve models for assessing cumulative impacts.
Highlights
Humans are placing more strain on the world’s oceans than ever before
We aimed to assess the validity of the assumption of additive stressor interactions which is used in many marine spatial cumulative impact assessment methods
Though additive interactions were most common in the seagrass studies we reviewed, synergies and antagonistic interactions were frequently identified
Summary
Humans are placing more strain on the world’s oceans than ever before. marine ecosystems are seldom subjected to single stressors, rather they are frequently exposed to multiple, concurrent stressors. Predicting the cumulative impact of multiple stressors from single stressor studies is only possible if stressors act independently of one another This allows us to use an additive model to calculate the cumulative impact[20], where we use the sum of the impact of individual stressors to indicate the combined overall impact. If we have a quantified measure of change in biodiversity due to fishing, and the same measure of change, albeit at a different magnitude, due to pollution, we can sum these two measures of impact to estimate the cumulative impact of both stressors This estimate will only be realistic if the stressors truly have independent effects
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