AbstractThe underlying structure of epidemiological models, and the questions that models can be used to address, do not necessarily depend on the host organism in question. This means that certain preoccupations of plant disease modellers are similar to those of modellers of diseases in human, livestock and wild animal populations. However, a number of aspects of plant epidemiology are very distinctive, and this leads to specific challenges in modelling plant diseases, which in turn sets a certain agenda for modellers. Here we outline a selection of 13 challenges, specific to plant disease epidemiology, that we feel are important targets for future work
Networks are ubiquitous in natural, technological and social systems. They are of increasing relevan...
There is increasing appreciation on the part of ecologists of the crucial role that pathogens may pl...
Infectious plant diseases are a major threat to global agricultural productivity, economic developme...
The underlying structure of epidemiological models, and the questions that models can be used to add...
AbstractThe underlying structure of epidemiological models, and the questions that models can be use...
In recent years, mathematical modeling has increasingly been used to complement experimental and obs...
A plant disease model is a simplification of a real pathosystem (i.e., the relationships between a p...
One hundred years after the 1918 influenza outbreak, are we ready for the next pandemic? This paper ...
We review trends and advances in three specific areas of theoretical plant epidemiology: models of t...
Plant disease epidemics involve changes in disease intensity over time and space in a host populatio...
Nowadays plant diseases represent one of the major threats for crops around the world, because they ...
The 1918 influenza pandemic is one of the most devastating infectious disease epidemics on record, h...
Models which simulate the evolution of a plant disease during the season give important information ...
Models of epidemics in complex networks are improving our predictive understanding of infectious dis...
Plant viruses are an important constraint to crop production world-wide. Rarely have plant virologis...
Networks are ubiquitous in natural, technological and social systems. They are of increasing relevan...
There is increasing appreciation on the part of ecologists of the crucial role that pathogens may pl...
Infectious plant diseases are a major threat to global agricultural productivity, economic developme...
The underlying structure of epidemiological models, and the questions that models can be used to add...
AbstractThe underlying structure of epidemiological models, and the questions that models can be use...
In recent years, mathematical modeling has increasingly been used to complement experimental and obs...
A plant disease model is a simplification of a real pathosystem (i.e., the relationships between a p...
One hundred years after the 1918 influenza outbreak, are we ready for the next pandemic? This paper ...
We review trends and advances in three specific areas of theoretical plant epidemiology: models of t...
Plant disease epidemics involve changes in disease intensity over time and space in a host populatio...
Nowadays plant diseases represent one of the major threats for crops around the world, because they ...
The 1918 influenza pandemic is one of the most devastating infectious disease epidemics on record, h...
Models which simulate the evolution of a plant disease during the season give important information ...
Models of epidemics in complex networks are improving our predictive understanding of infectious dis...
Plant viruses are an important constraint to crop production world-wide. Rarely have plant virologis...
Networks are ubiquitous in natural, technological and social systems. They are of increasing relevan...
There is increasing appreciation on the part of ecologists of the crucial role that pathogens may pl...
Infectious plant diseases are a major threat to global agricultural productivity, economic developme...