Microbial spatial footprint as a driver of soil carbon stabilization

Microbial spatial footprint as a driver of soil carbon stabilization

The processes driving soil carbon accretion remain to be poorly understood. Here the authors combined X-ray micro-tomography and zymography to demonstrate that plant-stimulated soil pore formation is a major, hitherto unrecognized, determinant of whether new C inputs are stored or lost to the atmosp...

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Auteurs principaux: A. N. Kravchenko, A. K. Guber, B. S. Razavi, J. Koestel, M. Y. Quigley, G. P. Robertson, Y. Kuzyakov
Format: article
Langue:EN
Publié: Nature Portfolio 2019
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Science
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Accès en ligne:https://doaj.org/article/d0a0f5d90fd643acaf4b97a50e1495dc
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Résumé:The processes driving soil carbon accretion remain to be poorly understood. Here the authors combined X-ray micro-tomography and zymography to demonstrate that plant-stimulated soil pore formation is a major, hitherto unrecognized, determinant of whether new C inputs are stored or lost to the atmosphere.

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