1. Evidence that Blueberry Floral Extracts Influence Secondary Conidiation and Appressorial Formation of Colletotrichum fioriniae
- Author
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Timothy J. Waller, Christine Constantelos, Jennifer Vaiciunas, and Peter V. Oudemans
- Subjects
0106 biological sciences ,0301 basic medicine ,Blueberry Plants ,Conidiation ,Plant Science ,Flowers ,Biology ,Plant disease resistance ,01 natural sciences ,Conidium ,03 medical and health sciences ,Colletotrichum ,Plant Diseases ,Appressorium ,Host (biology) ,Plant Extracts ,fungi ,food and beverages ,Spores, Fungal ,biology.organism_classification ,Spore ,Horticulture ,030104 developmental biology ,Postharvest ,Agronomy and Crop Science ,010606 plant biology & botany ,Vaccinium - Abstract
Blueberry anthracnose, caused by Colletotrichum fioriniae, is a pre- and postharvest disease of cultivated highbush blueberry (Vaccinium corymbosum). During disease development, the pathogen undergoes several lifestyle changes during host colonization, including epiphytic, quiescent, and necrotrophic phases. It is not clear, however, what if any host signals alter the pattern of colonization during the initial epiphytic phase and infection. This research investigated the role of blueberry floral extracts (FE) on fungal development. Results show that FE significantly increased both the quantity and rate of secondary conidiation and appressorial formation in vitro, suggesting that floral components could decrease the minimum time required for infection. Activity of FE was readily detected in water collected from field samples, where secondary conidiation and appressorial formation decreased as rainwater collections were further removed from flowers. A comparison of FE from four blueberry cultivars with different levels of field susceptibility revealed that appressorial formation but not secondary conidiation significantly increased with the FE from susceptible cultivars versus resistant cultivars. Inoculum supplemented with FE produced higher levels of disease on ripe blueberry fruit as compared with inoculum with water only. Flowers from other ericaceous species were found to also induce secondary conidiation and appressorial formation of C. fioriniae. This research provides strong evidence that flowers can contribute substantially to the infection process of C. fioriniae, signifying the importance of the bloom period for developing effective disease management strategies.
- Published
- 2017