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Am Nat


Title:Warming-Induced Changes to Body Size Stabilize Consumer-Resource Dynamics
Author(s):Osmond MM; Barbour MA; Bernhardt JR; Pennell MW; Sunday JM; O'Connor MI;
Address:
Journal Title:Am Nat
Year:2017
Volume:20170320
Issue:6
Page Number:718 - 725
DOI: 10.1086/691387
ISSN/ISBN:1537-5323 (Electronic) 0003-0147 (Linking)
Abstract:"Both body size and temperature directly influence consumer-resource dynamics. There is also widespread empirical evidence for the temperature-size rule (TSR), which creates a negative relationship between temperature and body size. However, it is not known how the TSR affects community dynamics. Here we integrate temperature- and size-dependent models to include indirect effects of warming, through changes in body size, to answer the question, How does the TSR affect the predicted response of consumer-resource systems to warming? We find that the TSR is expected to maintain consumer-resource biomass ratios and buffer the community from extinctions under warming. While our results are limited to conditions where organisms are below their thermal optimum, they hold under a range of realistic temperature-size responses and are robust to the type of functional response. Our analyses suggest that the widely observed TSR may reduce the impacts of warming on consumer-resource systems"
Keywords:"Animals Biomass *Body Size Models, Theoretical *Temperature functional response mathematical model metabolic scaling theory plant-herbivore predator-prey temperature-size rule;"
Notes:"MedlineOsmond, Matthew M Barbour, Matthew A Bernhardt, Joey R Pennell, Matthew W Sunday, Jennifer M O'Connor, Mary I eng 2017/05/18 Am Nat. 2017 Jun; 189(6):718-725. doi: 10.1086/691387. Epub 2017 Mar 20"

 
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