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W2564996740 endingPage "1104" @default.
W2564996740 startingPage "1094" @default.
W2564996740 abstract "Summary Allometric scaling of net primary production ( NPP ) with plant biomass (B) is important to ecological carbon dynamics and energetics. Metabolic theory predicts a nonlinear power law for NPP scaling, based on fractal vascular systems, resulting in a linear model when using log NPP /log B axes that are standard in allometry. Alternatively, two other hypotheses predict nonlinear models for log‐transformed data, with potential tipping points. Size‐based competition may cause a quadratic curve as larger plants limit NPP by smaller plants. More inclusively, the plant adaptive strategies hypothesis predicts a sigmoidal curve to represent those same competitive effects, plus stress and ruderal adaptations that maintain relatively low NPP in habitats that are abiotically limiting or disturbed. We evaluated all three hypotheses for terrestrial vascular plants, using information theoretic model selection based on the Akaike Information Criterion ( AIC c). Published data ( N = 709) were organised in subsets according to reported organisational level and plant growth form. Alternative curves were compared for a general model (using all data) and per subset. Potential tipping points were estimated using segmented regression. The plant adaptive strategies hypothesis was supported in general ( AIC c weight = 1·00) and via internal consistency for five of six subsets (86% of data). Competition was supported as affecting NPP at greater B, where quadratic and sigmoidal models often coincided. Only non‐woody assemblages most plausibly fit a power law model, perhaps related to sparse data at lowest B. Synthesis . Adaptive strategies and corresponding environmental conditions appear to constrain terrestrial net primary production scaling relative to metabolic theory's ideal. Moreover, tipping points in general nonlinear net primary production scaling (at c. 38 and 360 g m −2 B) indicate thresholds for rapid changes in net primary production given changing B that occurs via changing climate, human appropriation and land use." @default.
W2564996740 created "2017-01-06" @default.
W2564996740 creator A5007306226 @default.
W2564996740 creator A5055253438 @default.
W2564996740 date "2017-01-30" @default.
W2564996740 modified "2023-09-24" @default.
W2564996740 title "General allometric scaling of net primary production agrees with plant adaptive strategy theory and has tipping points" @default.
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W2564996740 doi "https://doi.org/10.1111/1365-2745.12726" @default.
W2564996740 hasPublicationYear "2017" @default.
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