Biogeosciences (Feb 2013)

An unknown oxidative metabolism substantially contributes to soil CO<sub>2</sub> emissions

  • T. Shahzad,
  • V. Perrier,
  • A.-C. Lehours,
  • M. Joly,
  • E. Dubreucq,
  • R. Despinasse,
  • A. Comby,
  • J. Colombet,
  • G. Alvarez,
  • V. Maire,
  • S. Fontaine

DOI
https://doi.org/10.5194/bg-10-1155-2013
Journal volume & issue
Vol. 10, no. 2
pp. 1155 – 1167

Abstract

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The respiratory release of CO2 from soils is a major determinant of the global carbon cycle. It is traditionally considered that this respiration is an intracellular metabolism consisting of complex biochemical reactions carried out by numerous enzymes and co-factors. Here we show that the endoenzymes released from dead organisms are stabilised in soils and have access to suitable substrates and co-factors to permit function. These enzymes reconstitute an extracellular oxidative metabolism (EXOMET) that may substantially contribute to soil respiration (16 to 48% of CO2 released from soils in the present study). EXOMET and respiration from living organisms should be considered separately when studying effects of environmental factors on the C cycle because EXOMET shows specific properties such as resistance to high temperature and toxic compounds.