Research Topic: Botryosphaeriaceae

Draft genome sequence of Neofusicoccum caryigenum associated with pecan leaf dieback

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Scientists have sequenced the genetic blueprint of a fungus causing pecan leaf dieback disease, an emerging problem in southeastern U.S. pecan orchards. The fungus, called Neofusicoccum caryigenum, causes pecan trees to lose their leaves and produce fewer nuts. This first-ever genetic map of the pathogen will help researchers understand how it works and develop better ways to manage the disease.

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Draft genome sequences for four isolates of the hemp (Cannabis sativa) fungal pathogen Neofusicoccum parvum

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Scientists sequenced the complete genomes of four samples of a fungal disease that infects hemp plants. This fungus, called Neofusicoccum parvum, causes dying branches and damage to hemp crops. By mapping out the genetic code of these fungal samples, researchers now have important tools to better understand how this pathogen works and potentially develop strategies to protect hemp plants.

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Vulnerability of Walnut Pruning Wounds to Fungal Trunk Pathogens and Seasonal Conidial Dynamics of Botryosphaeriaceae in the Maule Region, Chile

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When walnut trees are pruned, the resulting wounds are exposed to dangerous fungi that can cause branch die-back and significantly reduce crop yield. This research found that freshly cut pruning wounds are most vulnerable to infection, especially from aggressive fungi like Diplodia mutila, but this vulnerability decreases over time. The fungi spread their spores mainly during wet winter months when rainfall and humidity are high, so timing pruning operations to avoid these periods and protecting wounds with fungicides could substantially reduce disease losses in walnut orchards.

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