The biogeochemical interactions between plants and soils in the critical zone (CZ) are well-known for diversity and complexity. These systems are thus difficult to characterize, despite their importance in ecology, agriculture, and role in carbon (C) and other nutrient cycles. Numerical modelling of reactive transport (RT), which includes both subsurface transport and geochemistry, has been suggested as a tool to quantitatively explore CZ systems, as RT models consider many interrelated and non-linear processes simultaneously. Here, we explore the degree of complexity (e.g. inclusion of individual processes and feedbacks) necessary to characterize soil-plant interactions in RT models through two distinct research problems at diverse physica...
The role of organo-mineral interactions, microbial dynamics, and vertical plant input profiles are h...
This chapter summarises the methods, results and conclusions of a 5-year research project (SoilTrEC:...
Summarization: This chapter summarizes the methods, results, and conclusions of a 5-year research pr...
International audienceWe developed a novel soil-plant interaction model based on the coupling of a r...
A reactive transport (RT) model of the oxalate-carbonate pathway (OCP) of the Iroko tree in the Ivor...
The oxalate carbonate pathway (OCP) of the Iroko tree has been shown to function as a carbon sink, d...
International audienceTwo-dimensional reactive transport models, one with a simplified root system a...
Soil-plant models always oversimplified the representation of soil chemical processes or root system...
Land use change and intensive agricultural practices have induced significant shifts in the transpor...
Several mathematical models have been developed to simulate processes and interactions in the plant ...
This chapter summarizes the methods, results, and conclusions of a 5-year research project (SoilTrEC...
This chapter summarizes the methods, results, and conclusions of a 5-year research project (SoilTrEC...
AbstractA new generation of models is needed to adequately simulate patterns of soil biogeochemical ...
Models test our understanding of processes and can reach beyond the spatial and temporal scales of m...
This chapter summarizes the methods, results, and conclusions of a 5-year research project (SoilTrEC...
The role of organo-mineral interactions, microbial dynamics, and vertical plant input profiles are h...
This chapter summarises the methods, results and conclusions of a 5-year research project (SoilTrEC:...
Summarization: This chapter summarizes the methods, results, and conclusions of a 5-year research pr...
International audienceWe developed a novel soil-plant interaction model based on the coupling of a r...
A reactive transport (RT) model of the oxalate-carbonate pathway (OCP) of the Iroko tree in the Ivor...
The oxalate carbonate pathway (OCP) of the Iroko tree has been shown to function as a carbon sink, d...
International audienceTwo-dimensional reactive transport models, one with a simplified root system a...
Soil-plant models always oversimplified the representation of soil chemical processes or root system...
Land use change and intensive agricultural practices have induced significant shifts in the transpor...
Several mathematical models have been developed to simulate processes and interactions in the plant ...
This chapter summarizes the methods, results, and conclusions of a 5-year research project (SoilTrEC...
This chapter summarizes the methods, results, and conclusions of a 5-year research project (SoilTrEC...
AbstractA new generation of models is needed to adequately simulate patterns of soil biogeochemical ...
Models test our understanding of processes and can reach beyond the spatial and temporal scales of m...
This chapter summarizes the methods, results, and conclusions of a 5-year research project (SoilTrEC...
The role of organo-mineral interactions, microbial dynamics, and vertical plant input profiles are h...
This chapter summarises the methods, results and conclusions of a 5-year research project (SoilTrEC:...
Summarization: This chapter summarizes the methods, results, and conclusions of a 5-year research pr...