date: 2015-04-15T15:26:31Z
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pdf:docinfo:title: Rhizosphere bacterial carbon turnover is higher in nucleic acids than membrane lipids: implications for understanding soil carbon cycling
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subject: Using a pulse chase 13CO2 plant labeling experiment we compared the flow of plant carbon into macromolecular fractions of rhizosphere soil microorganisms.
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dc:title: Rhizosphere bacterial carbon turnover is higher in nucleic acids than membrane lipids: implications for understanding soil carbon cycling
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cp:subject: Using a pulse chase 13CO2 plant labeling experiment we compared the flow of plant carbon into macromolecular fractions of rhizosphere soil microorganisms.
pdf:docinfo:subject: Using a pulse chase 13CO2 plant labeling experiment we compared the flow of plant carbon into macromolecular fractions of rhizosphere soil microorganisms.
pdf:docinfo:creator: Gerd Gleixner and Ashish A. Malik
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dc:description: Using a pulse chase 13CO2 plant labeling experiment we compared the flow of plant carbon into macromolecular fractions of rhizosphere soil microorganisms.
Keywords: 13C tracer experiment, bacteria, carbon, DNA, fungi, PLFA, RNA, soi
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dc:creator: Gerd Gleixner and Ashish A. Malik
description: Using a pulse chase 13CO2 plant labeling experiment we compared the flow of plant carbon into macromolecular fractions of rhizosphere soil microorganisms.
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title: Rhizosphere bacterial carbon turnover is higher in nucleic acids than membrane lipids: implications for understanding soil carbon cycling
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dc:subject: 13C tracer experiment, bacteria, carbon, DNA, fungi, PLFA, RNA, soi
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