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Frequency and severity of insect outbreaks in forest ecosystems are predicted to increase with climate change. How this will impact canopy leaf area in future climates is rarely tested. Here, we document function of insect outbreaks that fortuitously and rapidly occurred in an ecosystem under free‐air CO₂ enrichment. Over the first 2 years of CO₂ fumigation of a naturally established mature Eucalyptus woodland, we continuously assessed population responses of three sap‐feeding insect species of the psyllid genera Cardiaspina, Glycaspis and Spondyliaspis for up to ten consecutive generations. Concurrently, we quantified changes in the canopy leaf area index (LAI). Large and rapid shifts in psyllid community composition were recorded between species with either flush (Glycaspis) or senescence‐inducing (Cardiaspina, Spondyliaspis) feeding strategies. Within the second year, two psyllid species experienced …