Increases in the flux of carbon belowground stimulate nitrogen uptake and sustain the long-term enhancement of forest productivity under elevated CO2

John E. Drake, Anne Gallet-Budynek, Kirsten S. Hofmockel, Emily S. Bernhardt, Sharon A. Billings, Robert B. Jackson, Kurt S. Johnsen, John Lichter, Heather R. McCarthy, M. Luke McCormack, David J. P. Moore, Ram Oren, Sari Palmroth, Richard P. Phillips, Jeffrey S. Pippen, Seth G. Pritchard, Kathleen K. Treseder, William H. Schlesinger, Evan H. DeLucia, Adrien C. Finzi

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The earth’s future climate state is highly dependent upon changes in terrestrial C storage in response to rising concentrations of atmospheric CO2. Here we show that consistently enhanced rates of net primary production (NPP) are sustained by a C-cascade through the root-microbe-soil system; increases in the flux of C belowground under elevated CO2 stimulated microbial activity, accelerated the rate of soil organic matter decomposition and stimulated tree uptake of N bound to this SOM. This process set into motion a positive feedback maintaining greater C gain under elevated CO2 as a result of increases in canopy N content and higher photosynthetic N-use efficiency. The ecosystem-level consequence of the enhanced requirement for N and the exchange of plant C for N belowground is the dominance of C storage in tree biomass but the preclusion of a large C sink in the soil.
    Original languageEnglish
    Pages (from-to)349-357
    Number of pages9
    JournalEcology Letters
    Volume14
    Issue number4
    DOIs
    Publication statusPublished - 2011

    Keywords

    • Carbon sequestration
    • atmospheric carbon dioxide
    • biogeochemical cycles
    • forest productivity
    • nitrogen

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