Add to ORKGThis paper deals with the simulation of microbial degradation of organic matter in soil within the pore space at a microscopic scale. Pore space was analysed with micro-computed tomography and described using a sphere network coming from a geometrical modelling algorithm. The biological model was improved regarding previous work in order to include the transformation of dissolved organic compounds and diffusion processes. We tested our model using experimental results of a simple substrate decomposition experiment (fructose) within a simple medium (sand) in the presence of different bacterial strains. Separate incubations were carried out in microcosms using five different bacterial communities at two different water potentials of -10 and -...
Bacterial pesticide degraders are generally heterogeneously distributed in soils, leaving soil volum...
International audienceSoil structure and interactions between biotic and abiotic processes are incre...
This work models the dynamics and evolution of carbon (C) and nitrogen (N) related to organic matter...
This paper deals with the simulation of microbial degradation of organic matter in soil within the p...
At microscopic scale, soil pores constitute microbial habitats with changing physicochemic...
conference abstractRecently, innovative modeling tools have been developed to describe the physico-c...
Soil Organic Matter decomposition is affected by soil structure and water content, but field and lab...
This study is the follow-up to a previous one devoted to soil pore space modelling. In the previous ...
International audienceThe microscale physical characteristics of microbial habitats considerably aff...
The majority of carbon on earth is in the form of soil organic matter. And its degradation by microo...
International audienceThe reduction of greenhouse gas emissions by improving the efficiency of agric...
Microbial degradation and transformation of substances in soils plays a crucial role in the nutrient...
Rich diversity of microbial species in the vadose zone is believed to be promoted by complexity of r...
An individual-based model, called MIOR, was designed to assess hypotheses on the effect of the spati...
A computer-aided simulator has been developed for the prediction of the pattern of evolution and the...
Bacterial pesticide degraders are generally heterogeneously distributed in soils, leaving soil volum...
International audienceSoil structure and interactions between biotic and abiotic processes are incre...
This work models the dynamics and evolution of carbon (C) and nitrogen (N) related to organic matter...
This paper deals with the simulation of microbial degradation of organic matter in soil within the p...
At microscopic scale, soil pores constitute microbial habitats with changing physicochemic...
conference abstractRecently, innovative modeling tools have been developed to describe the physico-c...
Soil Organic Matter decomposition is affected by soil structure and water content, but field and lab...
This study is the follow-up to a previous one devoted to soil pore space modelling. In the previous ...
International audienceThe microscale physical characteristics of microbial habitats considerably aff...
The majority of carbon on earth is in the form of soil organic matter. And its degradation by microo...
International audienceThe reduction of greenhouse gas emissions by improving the efficiency of agric...
Microbial degradation and transformation of substances in soils plays a crucial role in the nutrient...
Rich diversity of microbial species in the vadose zone is believed to be promoted by complexity of r...
An individual-based model, called MIOR, was designed to assess hypotheses on the effect of the spati...
A computer-aided simulator has been developed for the prediction of the pattern of evolution and the...
Bacterial pesticide degraders are generally heterogeneously distributed in soils, leaving soil volum...
International audienceSoil structure and interactions between biotic and abiotic processes are incre...
This work models the dynamics and evolution of carbon (C) and nitrogen (N) related to organic matter...