Literature DB >> 27168143

Microbial regulation of the soil carbon cycle: evidence from gene-enzyme relationships.

Pankaj Trivedi1, Manuel Delgado-Baquerizo1, Chanda Trivedi1, Hangwei Hu2, Ian C Anderson1, Thomas C Jeffries1, Jizhong Zhou3,4,5, Brajesh K Singh1,6.   

Abstract

A lack of empirical evidence for the microbial regulation of ecosystem processes, including carbon (C) degradation, hinders our ability to develop a framework to directly incorporate the genetic composition of microbial communities in the enzyme-driven Earth system models. Herein we evaluated the linkage between microbial functional genes and extracellular enzyme activity in soil samples collected across three geographical regions of Australia. We found a strong relationship between different functional genes and their corresponding enzyme activities. This relationship was maintained after considering microbial community structure, total C and soil pH using structural equation modelling. Results showed that the variations in the activity of enzymes involved in C degradation were predicted by the functional gene abundance of the soil microbial community (R2>0.90 in all cases). Our findings provide a strong framework for improved predictions on soil C dynamics that could be achieved by adopting a gene-centric approach incorporating the abundance of functional genes into process models.

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Year:  2016        PMID: 27168143      PMCID: PMC5113853          DOI: 10.1038/ismej.2016.65

Source DB:  PubMed          Journal:  ISME J        ISSN: 1751-7362            Impact factor:   10.302


  34 in total

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7.  Microbial metabolism and necromass mediated fertilization effect on soil organic carbon after long-term community incubation in different climates.

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