Add to ORKGHere, a quasi-steady-state approximation was used to simplify a mathematical model for fungal growth in carbon-limiting systems, and this was fitted to growth dynamics of the soil-borne plant pathogen and saprotroph Rhizoctonia solani. The model identified a criterion for invasion into carbon-limited environments with two characteristics driving fungal growth, namely the carbon decomposition rate and a measure of carbon use efficiency. The dynamics of fungal spread through a population of sites with either low (0.0074 mg) or high (0.016 mg) carbon content were well described by the simplified model with faster colonization for the carbon-rich environment. Rhizoctonia solani responded to a lower carbon availability by increasing the carbon u...
Saprotrophic fungi are obliged to spend energy on growth, reproduction, and substrate digestion. To ...
Explicitly representing microbial processes has been recognized as a key improvement to Earth system...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...
Here, a quasi-steady-state approximation was used to simplify a mathematical model for fungal growth...
<FONT FACE="Arial" SIZE=3>This thesis is concerned with the growth of microscopic mycelial fungi (Se...
Growth of soil-borne fungi is poorly described and understood, largely because non-destructive obser...
In a previous paper, we proposed a fungal growth model (Lamour et al., 2001 IMA J. Math. Appl. Med. ...
Fungi are of fundamental importance for plant and microbial nutrition with primary roles in decompos...
Responses of Rhizoctonia solani to spatial heterogeneity in sources of carbon, and associated transl...
International audienceArbuscular mycorrhizal (AM) fungi play a key role in determining ecosystem fun...
Rhizoctonia solani was found able to grow as a saprophyte through natural unsterilized soil. Its rat...
As decomposer organisms, pathogens, plant symbionts and nutrient cyclers, fungi are of fundamental i...
A mathematical model has been developed which is capable of simulating the population dynamics of mi...
Saprotrophic fungi are obliged to spend energy on growth, reproduction, and substrate digestion. To ...
Explicitly representing microbial processes has been recognized as a key improvement to Earth system...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...
Here, a quasi-steady-state approximation was used to simplify a mathematical model for fungal growth...
<FONT FACE="Arial" SIZE=3>This thesis is concerned with the growth of microscopic mycelial fungi (Se...
Growth of soil-borne fungi is poorly described and understood, largely because non-destructive obser...
In a previous paper, we proposed a fungal growth model (Lamour et al., 2001 IMA J. Math. Appl. Med. ...
Fungi are of fundamental importance for plant and microbial nutrition with primary roles in decompos...
Responses of Rhizoctonia solani to spatial heterogeneity in sources of carbon, and associated transl...
International audienceArbuscular mycorrhizal (AM) fungi play a key role in determining ecosystem fun...
Rhizoctonia solani was found able to grow as a saprophyte through natural unsterilized soil. Its rat...
As decomposer organisms, pathogens, plant symbionts and nutrient cyclers, fungi are of fundamental i...
A mathematical model has been developed which is capable of simulating the population dynamics of mi...
Saprotrophic fungi are obliged to spend energy on growth, reproduction, and substrate digestion. To ...
Explicitly representing microbial processes has been recognized as a key improvement to Earth system...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...