TY - JOUR
T1 - Interactive effects of multiple stressors vary with consumer interactions, stressor dynamics and magnitude
AU - Turschwell, Mischa P.
AU - Connolly, Sean R.
AU - Schäfer, Ralf B.
AU - De Laender, Frederik
AU - Campbell, Max D.
AU - Mantyka-Pringle, Chrystal
AU - Jackson, Michelle C.
AU - Kattwinkel, Mira
AU - Sievers, Michael
AU - Ashauer, Roman
AU - Côté, Isabelle M.
AU - Connolly, Rod M.
AU - van den Brink, Paul J.
AU - Brown, Christopher J.
PY - 2022/6
Y1 - 2022/6
N2 - Predicting the impacts of multiple stressors is important for informing ecosystem management but is impeded by a lack of a general framework for predicting whether stressors interact synergistically, additively or antagonistically. Here, we use process-based models to study how interactions generalise across three levels of biological organisation (physiological, population and consumer-resource) for a two-stressor experiment on a seagrass model system. We found that the same underlying processes could result in synergistic, additive or antagonistic interactions, with interaction type depending on initial conditions, experiment duration, stressor dynamics and consumer presence. Our results help explain why meta-analyses of multiple stressor experimental results have struggled to identify predictors of consistently non-additive interactions in the natural environment. Experiments run over extended temporal scales, with treatments across gradients of stressor magnitude, are needed to identify the processes that underpin how stressors interact and provide useful predictions to management.
AB - Predicting the impacts of multiple stressors is important for informing ecosystem management but is impeded by a lack of a general framework for predicting whether stressors interact synergistically, additively or antagonistically. Here, we use process-based models to study how interactions generalise across three levels of biological organisation (physiological, population and consumer-resource) for a two-stressor experiment on a seagrass model system. We found that the same underlying processes could result in synergistic, additive or antagonistic interactions, with interaction type depending on initial conditions, experiment duration, stressor dynamics and consumer presence. Our results help explain why meta-analyses of multiple stressor experimental results have struggled to identify predictors of consistently non-additive interactions in the natural environment. Experiments run over extended temporal scales, with treatments across gradients of stressor magnitude, are needed to identify the processes that underpin how stressors interact and provide useful predictions to management.
KW - antagonism
KW - consumer-resource
KW - seagrass
KW - stressor interactions
KW - synergy
U2 - 10.1111/ele.14013
DO - 10.1111/ele.14013
M3 - Letter
AN - SCOPUS:85130335442
SN - 1461-023X
VL - 25
SP - 1483
EP - 1496
JO - Ecology Letters
JF - Ecology Letters
IS - 6
ER -