date: 2016-08-08T11:52:00Z
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pdf:docinfo:title: Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon Cycling
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subject: Despite several lines of observational evidence, there is a lack of consensus on whether higher fungal:bacterial (F:B) ratios directly cause higher soil carbon (C) storage.
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dc:title: Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon Cycling
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cp:subject: Despite several lines of observational evidence, there is a lack of consensus on whether higher fungal:bacterial (F:B) ratios directly cause higher soil carbon (C) storage.
pdf:docinfo:subject: Despite several lines of observational evidence, there is a lack of consensus on whether higher fungal:bacterial (F:B) ratios directly cause higher soil carbon (C) storage.
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dc:description: Despite several lines of observational evidence, there is a lack of consensus on whether higher fungal:bacterial (F:B) ratios directly cause higher soil carbon (C) storage.
Keywords: bacteria, fungi, litter decomposition, proteomics, RNA sequencing, soil carbon, stable isotopes
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dc:creator: Ashish A. Malik
description: Despite several lines of observational evidence, there is a lack of consensus on whether higher fungal:bacterial (F:B) ratios directly cause higher soil carbon (C) storage.
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title: Soil Fungal:Bacterial Ratios Are Linked to Altered Carbon Cycling
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pdf:docinfo:keywords: bacteria, fungi, litter decomposition, proteomics, RNA sequencing, soil carbon, stable isotopes
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dc:subject: bacteria, fungi, litter decomposition, proteomics, RNA sequencing, soil carbon, stable isotopes
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