Soil is well recognized as a highly complex system. The interaction and coupled physical, chemical, and biological processes and phenomena occurring in the soil environment at different spatial and temporal scales are the main reasons for such complexity. There is a need for appropriate methodologies to characterize soil porous systems with an interdisciplinary character. Four different real soil samples, presenting different textures, have been modeled as heterogeneous complex networks, applying a model known as the heterogeneous preferential attachment. An analytical study of the degree distributions in the soil model shows a multiscaling behavior in the connectivity degrees, leaving an empirically testable signature of heterogeneity in ...
Spatial distribution of soil microorganisms is relevant for the functioning and performance of many ...
The consequences of heterogeneous structure for nutrient acquisition by soil fungi, microbial dynami...
Bacterial diversity in soil exceeds by orders of magnitude that found in oceans and others compartme...
Diffusion controls the gaseous transport process in soils when advective transport is almost null. K...
We present a complex network model based on a heterogeneous preferential attachment scheme [1,2] to ...
Abstract. In this paper we present a complex network model based on a heterogeneous preferential att...
Using a network representation for real soil samples and mathematical models for microbial spread, w...
Soils are complex ecosystems and the pore-scale physical structure regulates key processes that supp...
Soils are complex ecosystems and the pore-scale physical structure regulates key processes that supp...
This paper describes an investigation into the properties of spatially embedded complex networks rep...
Quantifying the connectivity of pore networks is a key issue not only for modelling fluid flow and s...
Quantifying soil structural and ecological heterogeneity is crucial for understanding their interact...
Recently, innovative modeling tools have been developed to describe the physico-chemical processes o...
Soil structure provides a home to large numbers of microorganisms offering them a food base, support...
International audienceBiological and physical soil processes show a high degree of interactions acro...
Spatial distribution of soil microorganisms is relevant for the functioning and performance of many ...
The consequences of heterogeneous structure for nutrient acquisition by soil fungi, microbial dynami...
Bacterial diversity in soil exceeds by orders of magnitude that found in oceans and others compartme...
Diffusion controls the gaseous transport process in soils when advective transport is almost null. K...
We present a complex network model based on a heterogeneous preferential attachment scheme [1,2] to ...
Abstract. In this paper we present a complex network model based on a heterogeneous preferential att...
Using a network representation for real soil samples and mathematical models for microbial spread, w...
Soils are complex ecosystems and the pore-scale physical structure regulates key processes that supp...
Soils are complex ecosystems and the pore-scale physical structure regulates key processes that supp...
This paper describes an investigation into the properties of spatially embedded complex networks rep...
Quantifying the connectivity of pore networks is a key issue not only for modelling fluid flow and s...
Quantifying soil structural and ecological heterogeneity is crucial for understanding their interact...
Recently, innovative modeling tools have been developed to describe the physico-chemical processes o...
Soil structure provides a home to large numbers of microorganisms offering them a food base, support...
International audienceBiological and physical soil processes show a high degree of interactions acro...
Spatial distribution of soil microorganisms is relevant for the functioning and performance of many ...
The consequences of heterogeneous structure for nutrient acquisition by soil fungi, microbial dynami...
Bacterial diversity in soil exceeds by orders of magnitude that found in oceans and others compartme...