AI Article Synopsis
- Various resistance deployment strategies aim to prevent pathogens from overcoming plant resistance, often focusing on a mix of resistant and susceptible cultivars.
- Using a stochastic spatially explicit model, researchers examined how different landscape organizations and pathogen traits affect disease control outcomes.
- The study found that while high proportions of resistant cultivars in low aggregation help with short-term disease dynamics, the opposite arrangement is better for long-term resistance durability, suggesting different landscape designs are needed for varying disease management goals.
Article Abstract
A multitude of resistance deployment strategies have been proposed to tackle the evolutionary potential of pathogens to overcome plant resistance. In particular, many landscape-based strategies rely on the deployment of resistant and susceptible cultivars in an agricultural landscape as a mosaic. However, the design of such strategies is not easy as strategies targeting epidemiological or evolutionary outcomes may not be the same. Using a stochastic spatially explicit model, we studied the impact of landscape organization (as defined by the proportion of fields cultivated with a resistant cultivar and their spatial aggregation) and key pathogen life-history traits on three measures of disease control. Our results show that short-term epidemiological dynamics are optimized when landscapes are planted with a high proportion of the resistant cultivar in low aggregation. Importantly, the exact opposite situation is optimal for resistance durability. Finally, well-mixed landscapes (balanced proportions with low aggregation) are optimal for long-term evolutionary equilibrium (defined here as the level of long-term pathogen adaptation). This work offers a perspective on the potential for contrasting effects of landscape organization on different goals of disease management and highlights the role of pathogen life history.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5979631 | PMC |
| http://dx.doi.org/10.1111/eva.12570 | DOI Listing |
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