Identification and mapping of eastern filbert blight resistance quantitative trait loci in european hazelnut using double digestion restriction site associated DNA sequencing

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Abstract

Europeanhazelnut (Corylus avellana L.) is an economically important edible nut producing species, which ranked sixth in world tree nut production in 2016. European hazelnut production in the United States is primarily limited to the Willamette Valley of Oregon, and currently nonexistent in the eastern United States because of the presence of a devastating endemic disease, eastern filbert blight (EFB) caused by Anisogramma anomala (Peck) E. Muller. The primary commercial means of control of EFB to date is through the development and planting of genetically resistant european hazelnut cultivars, with an R-gene introduced from the obsolete, late-shedding pollinizer ‘Gasaway’. Although the ‘Gasaway’ resistance source provides protection against EFB in the Pacific northwestern United States (PNW), recent reports have shown that it is not effective in parts of the eastern United States. This may be in part because the identification and selection of ‘Gasaway’ and ‘Gasaway’-derived cultivars occurred in an environment (PNW) with limited genetic diversity of A. anomala. The objectives of the current research were to develop a genetic linkage map using double digestion restriction site associated DNA sequencing (ddRADseq) and identify quantitative trait loci (QTL) markers associated with EFB resistance from the resistant selection RutgersH3R07P25 from southernRussia.Amapping population composed of 119 seedling trees was evaluated in a geographic location (New Jersey)where the EFB fungus is endemic, exhibits high disease pressure, and has a high level of genetic diversity. The completed genetic linkage map included a total of 2217markers and spanned a total genetic distance of 1383.4 cM,with an average marker spacing of 0.65 cM. A single QTL region associated with EFB resistance from H3R07P25 was located on european hazelnut linkage group (LG) 2 and was responsible for 72.8% of the phenotypic variation observed in the study. Based on its LG placement, origin, and disease response in the field, this resistance source is different from the ‘Gasaway’ source located on LG6. The current results, in combination with results from previous research, indicate that the H3R07P25 source is likely exhibiting resistance to a broader range of naturally occurring A. anomala isolates. As such, H3R07P25 will be important for the development of new european hazelnut germplasm that combines EFB resistance frommultiple sources in a gene pyramiding approach. Identification of EFB resistance in high disease pressure environments representing a diversity of A. anomala populations is likely a requirement for identifying plants expressing durableEFBresistance, which is a precursor to the development of a commercially viable european hazelnut industry in the eastern United States.

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Honig, J. A., Muehlbauer, M. F., Capik, J. M., Kubik, C., Vaiciunas, J. N., Mehlenbacher, S. A., & Molnar, T. J. (2019). Identification and mapping of eastern filbert blight resistance quantitative trait loci in european hazelnut using double digestion restriction site associated DNA sequencing. Journal of the American Society for Horticultural Science, 144(5), 295–304. https://doi.org/10.21273/JASHS04694-19

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