Literature DB >> 22776588

Roots and fungi accelerate carbon and nitrogen cycling in forests exposed to elevated CO2.

Richard P Phillips1, Ina C Meier, Emily S Bernhardt, A Stuart Grandy, Kyle Wickings, Adrien C Finzi.   

Abstract

A common finding in multiple CO(2) enrichment experiments in forests is the lack of soil carbon (C) accumulation owing to microbial priming of 'old' soil organic matter (SOM). However, soil C losses may also result from the accelerated turnover of 'young' microbial tissues that are rich in nitrogen (N) relative to bulk SOM. We measured root-induced changes in soil C dynamics in a pine forest exposed to elevated CO(2) and N enrichment by combining stable isotope analyses, molecular characterisations of SOM and microbial assays. We find strong evidence that the accelerated turnover of root-derived C under elevated CO(2) is sufficient in magnitude to offset increased belowground inputs. In addition, the C losses were associated with accelerated N cycling, suggesting that trees exposed to elevated CO(2) not only enhance N availability by stimulating microbial decomposition of SOM via priming but also increase the rate at which N cycles through microbial pools.
© 2012 Blackwell Publishing Ltd/CNRS.

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Year:  2012        PMID: 22776588     DOI: 10.1111/j.1461-0248.2012.01827.x

Source DB:  PubMed          Journal:  Ecol Lett        ISSN: 1461-023X            Impact factor:   9.492


  25 in total

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5.  Tree root dynamics in montane and sub-alpine mixed forest patches.

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Review 6.  A starting guide to root ecology: strengthening ecological concepts and standardising root classification, sampling, processing and trait measurements.

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9.  Effects of elevated root zone CO2 on xerophytic shrubs in re-vegetated sandy dunes at smaller spatial and temporal scales.

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Journal:  Springerplus       Date:  2015-06-27

10.  Increased plant productivity and decreased microbial respiratory C loss by plant growth-promoting rhizobacteria under elevated CO₂.

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