Literature DB >> 27185934

Elevated CO2 maintains grassland net carbon uptake under a future heat and drought extreme.

Jacques Roy1, Catherine Picon-Cochard2, Angela Augusti3, Marie-Lise Benot4, Lionel Thiery2, Olivier Darsonville2, Damien Landais5, Clément Piel5, Marc Defossez5, Sébastien Devidal5, Christophe Escape5, Olivier Ravel5, Nathalie Fromin6, Florence Volaire7, Alexandru Milcu8, Michael Bahn9, Jean-François Soussana2.   

Abstract

Extreme climatic events (ECEs) such as droughts and heat waves are predicted to increase in intensity and frequency and impact the terrestrial carbon balance. However, we lack direct experimental evidence of how the net carbon uptake of ecosystems is affected by ECEs under future elevated atmospheric CO2 concentrations (eCO2). Taking advantage of an advanced controlled environment facility for ecosystem research (Ecotron), we simulated eCO2 and extreme cooccurring heat and drought events as projected for the 2050s and analyzed their effects on the ecosystem-level carbon and water fluxes in a C3 grassland. Our results indicate that eCO2 not only slows down the decline of ecosystem carbon uptake during the ECE but also enhances its recovery after the ECE, as mediated by increases of root growth and plant nitrogen uptake induced by the ECE. These findings indicate that, in the predicted near future climate, eCO2 could mitigate the effects of extreme droughts and heat waves on ecosystem net carbon uptake.

Entities:  

Keywords:  carbon fluxes; climate change; elevated CO2; extreme events; grassland ecosystem

Mesh:

Substances:

Year:  2016        PMID: 27185934      PMCID: PMC4896684          DOI: 10.1073/pnas.1524527113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  25 in total

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3.  Constraints to nitrogen acquisition of terrestrial plants under elevated CO2.

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Journal:  PLoS One       Date:  2013-08-19       Impact factor: 3.240
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Review 3.  Amelioration of plant responses to drought under elevated CO2 by rejuvenating photosynthesis and nitrogen use efficiency: implications for future climate-resilient crops.

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8.  Decoupling of microbial carbon, nitrogen, and phosphorus cycling in response to extreme temperature events.

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9.  Drought risk assessment under climate change is sensitive to methodological choices for the estimation of evaporative demand.

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10.  Land Use Alters the Drought Responses of Productivity and CO2 Fluxes in Mountain Grassland.

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