There is increasing use of networks in ecology and epidemiology, but still relatively little application in phytopathology. Networks are sets of elements (nodes) connected in various ways by links (edges). Network analysis aims to understand system dynamics and outcomes in relation to network characteristics. Many existing natural, social, and technological networks have been shown to have small-world (local connectivity with short-cuts) and scale-free (presence of super-connected nodes) properties. In this review, we discuss how network concepts can be applied in plant pathology from the molecular to the landscape and global level. Wherever disease spread occurs not just because of passive/natural dispersion but also due to artificial move...
Here we develop an epidemic model that accounts for long-range dispersal of pathogens between plants...
Pathogen introduction in plant communities can cause serious impact and biodiversity losses that may...
We review trends and advances in three specific areas of theoretical plant epidemiology: models of t...
Abstract. Models of epidemics in complex networks are improving our predictive understanding of infe...
Models of epidemics in complex networks are improving our predictive understanding of infectious dis...
Networks are ubiquitous in natural, technological and social systems. They are of increasing relevan...
A network is a natural structure with which to describe many aspects of a plant pathosystem. The art...
Network analysis has been a recent focus in biological sciences due to its ability to synthesize glo...
AbstractNetwork analysis has been a recent focus in biological sciences due to its ability to synthe...
International audienceMultiple global change pressures, and their interplay, cause plant-pollinator ...
Spatial analyses of pathogen occurrence in their natural surroundings entail unique opportunities fo...
Seed systems are critical for deployment of improved varieties, but also can serve as major conduits...
Multiple global change pressures, and their interplay, cause plant-pollinator extinctions and modify...
We discuss the uses of networks as epidemiological tools to describe the interactions taking place w...
Author summary Studying pathogen transmission dynamics within their natural environments can yield i...
Here we develop an epidemic model that accounts for long-range dispersal of pathogens between plants...
Pathogen introduction in plant communities can cause serious impact and biodiversity losses that may...
We review trends and advances in three specific areas of theoretical plant epidemiology: models of t...
Abstract. Models of epidemics in complex networks are improving our predictive understanding of infe...
Models of epidemics in complex networks are improving our predictive understanding of infectious dis...
Networks are ubiquitous in natural, technological and social systems. They are of increasing relevan...
A network is a natural structure with which to describe many aspects of a plant pathosystem. The art...
Network analysis has been a recent focus in biological sciences due to its ability to synthesize glo...
AbstractNetwork analysis has been a recent focus in biological sciences due to its ability to synthe...
International audienceMultiple global change pressures, and their interplay, cause plant-pollinator ...
Spatial analyses of pathogen occurrence in their natural surroundings entail unique opportunities fo...
Seed systems are critical for deployment of improved varieties, but also can serve as major conduits...
Multiple global change pressures, and their interplay, cause plant-pollinator extinctions and modify...
We discuss the uses of networks as epidemiological tools to describe the interactions taking place w...
Author summary Studying pathogen transmission dynamics within their natural environments can yield i...
Here we develop an epidemic model that accounts for long-range dispersal of pathogens between plants...
Pathogen introduction in plant communities can cause serious impact and biodiversity losses that may...
We review trends and advances in three specific areas of theoretical plant epidemiology: models of t...