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    Shifts in plant dominance control carbon-cycle responses to experimental warming and widespread drought

    New search for: John Harte
    New search for: Scott Saleska
    New search for: Tiffany Shih

    Global climate change is predicted to increase the intensity and frequency of future drought, which in turn may be expected to induce a range of biogeochemical climate feedbacks. A combination of model simulations and observational studies of a recent wide-scale drought, suggested that the drought induced substantial terrestrial ecosystem carbon loss, but hypothesized mechanisms could not be evaluated via comparison to a control. Here, we investigated carbon-cycle responses to climate changes by combining results from a controlled 15-year ecosystem warming experiment in montane grassland with observational data from before and during the recent drought. We found that both experimental warming and real-world drought induced substantial soil carbon loss in our study system, and that the same mechanism, a drying-induced shift in plant species composition and an associated decline in community productivity, provides a common explanation for these declines in soil carbon.

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    Shifts in plant dominance control carbon-cycle responses to experimental warming and widespread drought

    New search for: John Harte
    New search for: Scott Saleska
    New search for: Tiffany Shih

    Global climate change is predicted to increase the intensity and frequency of future drought, which in turn may be expected to induce a range of biogeochemical climate feedbacks. A combination of model simulations and observational studies of a recent wide-scale drought, suggested that the drought induced substantial terrestrial ecosystem carbon loss, but hypothesized mechanisms could not be evaluated via comparison to a control. Here, we investigated carbon-cycle responses to climate changes by combining results from a controlled 15-year ecosystem warming experiment in montane grassland with observational data from before and during the recent drought. We found that both experimental warming and real-world drought induced substantial soil carbon loss in our study system, and that the same mechanism, a drying-induced shift in plant species composition and an associated decline in community productivity, provides a common explanation for these declines in soil carbon.

    Access

    Download

    Shifts in plant dominance control carbon-cycle responses to experimental warming and widespread drought

    New search for: John Harte
    New search for: Scott Saleska
    New search for: Tiffany Shih

    Global climate change is predicted to increase the intensity and frequency of future drought, which in turn may be expected to induce a range of biogeochemical climate feedbacks. A combination of model simulations and observational studies of a recent wide-scale drought, suggested that the drought induced substantial terrestrial ecosystem carbon loss, but hypothesized mechanisms could not be evaluated via comparison to a control. Here, we investigated carbon-cycle responses to climate changes by combining results from a controlled 15-year ecosystem warming experiment in montane grassland with observational data from before and during the recent drought. We found that both experimental warming and real-world drought induced substantial soil carbon loss in our study system, and that the same mechanism, a drying-induced shift in plant species composition and an associated decline in community productivity, provides a common explanation for these declines in soil carbon.

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    Download

    Access

    Download

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    Document information
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    Document information
    Title:

    Shifts in plant dominance control carbon-cycle responses to experimental warming and widespread drought

    Additional title:

    Shifts in plant dominance control carbon-cycle responses to experimental warming and widespread drought

    Contributors:

    John Harte (author) / Scott Saleska (author) / Tiffany Shih (author)

    Published in:

    Environmental Research Letters ; 1 ; 014001

    Publication date:

    2006-10-01

    Size:

    4 pages

    ISSN:

    1748-9326

    DOI:

    https://doi.org/10.1088/1748-9326/1/1/014001

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

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