Contribution of sorption, DOC transport and microbial interactions to the 14C age of a soil organic carbon profile: Insights from a calibrated process model

Author:

Ahrens Bernhard,Braakhekke Maarten C.,Guggenberger Georg,Schrumpf Marion,Reichstein Markus

Publisher

Elsevier BV

Subject

Soil Science,Microbiology

Reference82 articles.

1. Bayesian calibration of a soil organic carbon model using Δ14C measurements of soil organic carbon and heterotrophic respiration as joint constraints;Ahrens;Biogeosciences,2014

2. Soil-carbon response to warming dependent on microbial physiology;Allison;Nature Geoscience,2010

3. ‘DEoptim’: Differential Evolution in ‘R’;Ardia,2013

4. A multiisotope C and N modeling analysis of soil organic matter turnover and transport as a function of soil depth in a California annual grassland soil chronosequence;Baisden;Global Biogeochemical Cycles,2002

5. Estimating the organic carbon stabilisation capacity and saturation deficit of soils: a New Zealand case study;Beare;Biogeochemistry,2014

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