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An extremely valuable weapon in the battle to manage plant diseases may reside within the plant’s own genetic composition. This genetic disease management tool is commonly referred to simply as disease resistance or tolerance. These names are often used interchangeably; however, the definitions of each term denote an important difference. Resistance is the ability of a plant to exclude or overcome the effect of a plant pathogen, whereas tolerance is the ability of a plant infected by a pathogen to grow without dying or sustaining serious injury or yield loss. Therefore, resistance focuses on prevention of infection, whereas tolerance allows infected plants to grow without serious injury or yield loss. Disease resistance and tolerance are not all or nothing conditions. For example, resistance can range from its highest level, which is called immunity, through degrees of useful resistance, and finally to its lowest level, where a plant is highly susceptible to a particular pathogen. Also, resistance and tolerance usually are limited to one or at most a few diseases, and not broadly functional against many or all plant ailments. The mechanisms within plants that give rise to disease resistance and tolerance are many and varied, but usually are biochemical and/or structural in nature. Successful suppression of pathogen activity by a plant is tied to how a particular pathogen gains entrance into a plant to initiate disease and additionally how a plant defends itself from that infection. One key advantage of strong genetic resistance or tolerance is that this disease management tool will be active for the life of the plant, without any input by the grower. In contrast, disease management products such as fungicides would have to be applied several times to be in place over the entire growth period of the plant when disease is expected. Also, disease management provided by plant genetics often targets diseases for which no other known effective disease management tools are known. Building disease resistance or tolerance into plants is an ongoing activity of plant breeders, using classical as well as modern genetic manipulation techniques to achieve this goal. |
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For questions or comments on any of the topics please contact Marco Pena at the Yuma Agricultural Center.
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