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Am Nat


Title:"Perfect Compensation Is Sufficient to Explain Insect Outbreaks Previously Attributed to Overcompensation : (A Comment on Stieha et al., 'The Effects of Plant Compensatory Regrowth and Induced Resistance on Herbivore Population Dynamics')"
Author(s):Abbott KC; Ji F;
Address:
Journal Title:Am Nat
Year:2022
Volume:20221007
Issue:6
Page Number:877 - 880
DOI: 10.1086/721761
ISSN/ISBN:1537-5323 (Electronic) 0003-0147 (Linking)
Abstract:"AbstractIn 'The Effects of Plant Compensatory Regrowth and Induced Resistance on Herbivore Population Dynamics,' which appeared in The American Naturalist in 2016, Stieha et al. argued that overcompensatory regrowth of plant tissues lost to herbivory ('overcompensation') promotes cyclic herbivore outbreaks. In contrast, they concluded that partial regrowth ('tolerance') stabilizes herbivore dynamics, preventing outbreaks. These conclusions were based on a comparison between two plant-herbivore models that differed in two properties: (1) whether biomass could ever be higher after herbivory and regrowth than before herbivory (i.e., is overcompensatory regrowth possible?) and (2) how much herbivory the plants could withstand before only being able to partially compensate for losses (for overcompensating plants, there was a threshold herbivory level above which this occurred, whereas tolerant plants always showed partial compensation). While Stieha et al. supposed that difference 1 was responsible for the increased propensity for outbreaks in their overcompensation model, we show here that, in fact, difference 2 is responsible. Thus, we conclude that Stieha et al.'s results about 'overcompensating' plants apply more broadly: the risk of herbivore outbreaks is elevated whenever plants with low-enough herbivore loads can perfectly compensate or overcompensate for losses to herbivory"
Keywords:Animals *Herbivory *Insecta Plants Population Dynamics Disease Outbreaks insect outbreaks overcompensation pests plant-herbivore model tolerance;
Notes:"MedlineAbbott, Karen C Ji, Fang eng Comment 2022/11/22 Am Nat. 2022 Dec; 200(6):877-880. doi: 10.1086/721761. Epub 2022 Oct 7"

 
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