%AWilkinson, Grace [Department of Ecology, Evolution, and Organismal Biology Iowa State University Ames Iowa 50011 USA]%AWilkinson, Grace [Department of Ecology, Evolution, and Organismal Biology; Iowa State University; Ames Iowa 50011 USA]%ACarpenter, Stephen [Center for Limnology University of Wisconsin‐Madison Madison Wisconsin 53706 USA]%ACarpenter, Stephen [Center for Limnology; University of Wisconsin-Madison; Madison Wisconsin 53706 USA]%ACole, Jonathan [Cary Institute of Ecosystem Studies Millbrook New York 12545 USA]%ACole, Jonathan [Cary Institute of Ecosystem Studies; Millbrook New York 12545 USA]%APace, Michael [Department of Environmental Science University of Virginia Charlottesville Virginia 22904 USA]%APace, Michael [Department of Environmental Science; University of Virginia; Charlottesville Virginia 22904 USA]%ABatt, Ryan [Department of Ecology, Evolution, and Natural Resources Rutgers University New Brunswick New Jersey 08901 USA]%ABatt, Ryan [Department of Ecology, Evolution, and Natural Resources; Rutgers University; New Brunswick New Jersey 08901 USA]%ABuelo, Cal [Department of Environmental Science University of Virginia Charlottesville Virginia 22904 USA]%ABuelo, Cal [Department of Environmental Science; University of Virginia; Charlottesville Virginia 22904 USA]%AKurtzweil, Jason [Center for Limnology University of Wisconsin‐Madison Madison Wisconsin 53706 USA]%AKurtzweil, Jason [Center for Limnology; University of Wisconsin-Madison; Madison Wisconsin 53706 USA]%BJournal Name: Ecological Monographs; Journal Volume: 88; Journal Issue: 2; Related Information: CHORUS Timestamp: 2023-09-16 18:52:23 %D2018%IWiley Blackwell (John Wiley & Sons) %JJournal Name: Ecological Monographs; Journal Volume: 88; Journal Issue: 2; Related Information: CHORUS Timestamp: 2023-09-16 18:52:23 %K %MOSTI ID: 10050170 %PMedium: X %TEarly warning signals precede cyanobacterial blooms in multiple whole‐lake experiments %XAbstract

Ecosystem regime shifts are abrupt changes from one dynamical state to another, such as the shift from a clear‐water state to an algal bloom state in lakes. These transitions are hard to forecast but theory suggests that early warning indicators can predict impending regime shifts that may allow for management intervention to prevent or mitigate an unwanted change. The efficacy of early warning indicators has been demonstrated in modeling and laboratory experiments, but rarely in the field, where environmental drivers are numerous and interacting. It is unclear if early warning indicators are observable or timely enough to allow for intervention under these conditions. We performed six whole‐lake experimental nutrient additions to test the utility of early warning indicators for predicting the regime shift from a clear‐water state to a cyanobacteria‐dominated state. The lakes were monitored for increases in resilience indicators including rises in standard deviation and autocorrelation of algal pigments and dissolved oxygen saturation. A statistical method, quickest detection, determined when resilience indicators in manipulated lakes deviated substantially from those in a reference ecosystem. Blooms occurred in five of the six lake‐years. Although there was substantial variability in bloom size and timing, at least one indicator foreshadowed the peak chlorophyllaconcentration in all instances. Early warnings occurred 1–57 d prior to a bloom, which in some instances, may allow managers to notify the public or intervene to prevent blooms. The resilience indicators generally identified changes in resilience over time within a lake and also ranked large differences in resilience among lakes. Our findings suggest that resilience indicators can be useful for classifying ecosystems on a landscape and across time with respect to proximity to a critical threshold.

%0Journal Article