Add to ORKGA study was carried out on the potential response of soil-borne pathogens causing crop yield losses under a climate change scenario in Europe. A controlled chamber set of experiments was carried out to quantify pathogen response to temperature using pure colonies of three soil-borne fungi, representative of low (Fusarium nivale), medium-high (Athelia rolfsii) and high (Macrophomina phaseolina) temperature requirements. A generic model to simulate fungal growth response to temperature based on these experiments was developed and linked to a soil temperature model component, and to components to simulate soil water content accounting for crop water uptake of potential hosts. Pathogens relative growth was simulated over Europe using the IPCC A...
The risk of disease and pest damage to agricultural crops has increased significantly as a result of...
The first step in the formulation of disease management strategy for any cropping system is to ident...
The International Panel on Climate Change and almost the entire scientific community agreed to consi...
A study was carried out on the potential response of soil-borne pathogens causing crop yield losses ...
Climate is a major determinant of crop productivity. Besides its direct impact on plant growth it ha...
Although models to predict climate impact on crop production have been used since the 1980s, spatial...
This review describes environmental factors that influence severity of crop disease epidemics, espec...
Fusarium head blight (FHB) caused byFusariumpathogens is one of the most devastating fungal diseases...
AbstractWith rising temperatures projected for a changing climate, it is of particular importance to...
Plant pathogenic fungi and oomycetes (hereafter ‘plant pathogens’) pose serious risks to crop produc...
Pest risk assessment studies are aimed at evaluating if weather conditions are suitable for the pote...
This is the author accepted manuscript. The final version is available from Nature Research via the ...
Understanding the present and future distribution of soil-borne plant pathogens is critical to suppo...
Climate change is expected to cause a mean annual temperature increase in Germany of 2°C by 2050 and...
Climate variability influences the development of crop diseases, including through an effect on crop...
The risk of disease and pest damage to agricultural crops has increased significantly as a result of...
The first step in the formulation of disease management strategy for any cropping system is to ident...
The International Panel on Climate Change and almost the entire scientific community agreed to consi...
A study was carried out on the potential response of soil-borne pathogens causing crop yield losses ...
Climate is a major determinant of crop productivity. Besides its direct impact on plant growth it ha...
Although models to predict climate impact on crop production have been used since the 1980s, spatial...
This review describes environmental factors that influence severity of crop disease epidemics, espec...
Fusarium head blight (FHB) caused byFusariumpathogens is one of the most devastating fungal diseases...
AbstractWith rising temperatures projected for a changing climate, it is of particular importance to...
Plant pathogenic fungi and oomycetes (hereafter ‘plant pathogens’) pose serious risks to crop produc...
Pest risk assessment studies are aimed at evaluating if weather conditions are suitable for the pote...
This is the author accepted manuscript. The final version is available from Nature Research via the ...
Understanding the present and future distribution of soil-borne plant pathogens is critical to suppo...
Climate change is expected to cause a mean annual temperature increase in Germany of 2°C by 2050 and...
Climate variability influences the development of crop diseases, including through an effect on crop...
The risk of disease and pest damage to agricultural crops has increased significantly as a result of...
The first step in the formulation of disease management strategy for any cropping system is to ident...
The International Panel on Climate Change and almost the entire scientific community agreed to consi...