Posts Tagged: host
UC Riverside Evolutionary Biologist to Speak on Plant Toxins and Host-Parasite interactions
Simon "Niels" Groen, assistant professor of evolutionary systems biology, UC Riverside, will...
Simon "Niels" Groen will use these illustrations in his seminar hosted Feb. 2 by the UC Davis Department of Entomology and Nematology.
Weeds as reservoir for Impatiens Necrotic Spot Virus (INSV)
Richard Smith is the University of California Cooperative Extension Monterey County Vegetable Crop...
Gray Hairstreak Host Plant: A Record of Some Kind?
Where are the monarch butterflies? They're MIA on the four species of milkweed in our Vacaville...
The gray hairstreak, Strymon melinus, finds a play her lay her eggs, on the buds of a tropical milkweed, Asclepias curassavica. (Photo by Kathy Keatley Garvey)
Gray hairstreak, Strymon melinus, laying eggs on the buds of a tropical milkweed, Asclepias curassavica. (Photo by Kathy Keatley Garvey)
The importance of reducing winter weed host plants for INSV control
Richard Smith is the UC Cooperative Extension Vegetable Crop Production and Weed Science Advisor...
Photo 4. Sow thistle seedling (common in crop and non-crop areas)
Photo 5. Lambsquarter seedling (common warm season weed that germinates in late spring)
Photo 6. Shepherd's purse seeding (common year-round weed in production fields and ditches)
Photo 7. Nettleleaf goosefoot (common summer weed that can grow in the winter as well)
Photo 8. Mare's tail (typical dense infestation of mature plants)
Photo 9. Burning nettle
Photo 10. Field bindweed (perennial around fields; infected plants can begin the season infected)
Photo 11. Purslane (common summer weed)
Photo 12. Hairy fleabane (common summer annual that germinates in the winter)
Photo 13. Hairy nightshade (common summer annual that can survive into the winter)
Disease Triangle
- Author: Steven A. Tjosvold
Plant diseases– their occurrence and severity– result from the impact of three factors: the host plant, the pathogen, and the environmental conditions. This is represented with the disease triangle.
If any one of the three factors is missing, the triangle is not complete, no disease will occur. Simply, plant disease will not occur if there is no viable pathogen, or no susceptible host plant, or the environmental conditions are not favorable. The severity of disease depends on the favorable level of each factor. How susceptible is the plant? How virulent is the pathogen? How conducive are the existing environmental conditions in supporting disease and pathogen spread?
The triangle also helps illustrate that the 3 factors are interacting with each other. The clearest example of this is how the environment factor interacts with the pathogen and host factors. Previous blogs illustrate the importance of leaf wetness on pathogen infection and disease severity. Long durations of free water on a susceptible plant can increase pathogen infection and disease severity. At the same time, the low- sunlight conditions, when these wet periods could occur (e.g. winter), could also be stressful to the plant, and the plant is less likely to mount defensive reactions to fend off infection.
Learn about the biology for any disease you are managing. Consider the disease triangle and the three interacting factors, and how management practices might help weaken or break the triangle's bond. For example, could you grow non-susceptible plant varieties or species? Could you eliminate the pathogen through judicious sanitation practices? Could you manage leaf wetness and relative humidity to create unfavorable environmental conditions for disease?
Could you grow non-susceptible plant varieties or species?
Although these three plant hosts all have rust diseases, each host is infected with a unique plant pathogen that attacks its specific host. In managing these diseases, a strategy of host resistance might be employed, where crops of non-susceptible hosts are rotated into the infested area. Conceivably these three hosts could be rotated.
Could you eliminate the pathogen through judicious sanitation practices?
Sanitation is a key management practice that employs the strategy of eliminating the pathogen from the growing area. Here, sanitizing shoes before entering the greenhouse. Cleaning soil from tools and sanitizing them before use. Properly covering and disposing of rogued plants or cut flowers (not shown here!).
Could you manage leaf wetness and relative humidity to create unfavorable environmental conditions for disease?
AND Then, can you add the 4th factor for Disease? That of TIME. It takes a certain amount of time for a given disease to show up. Some strike rapidly and others are chronic and persistent. Different time frames allow for different urgency for treatment. It's always best to remove one of the three Triangle factors before dealing with the Disease Pyramid which includes Time:
https://ucanr.edu/blogs/blogcore/postdetail.cfm?postnum=19842
The Disease Quadrangle
https://ucanr.edu/blogs/blogcore/postdetail.cfm?postnum=28845
disease pyramid