Seed-Borne Cercospora beticola can Initiate Cercospora Leaf Spot from Sugar Beet (Beta vulgaris L.) Fruit Tissue

Author:

Spanner Rebecca1,Neubauer Jonathan1,Heick Thies M.2,Grusak Michael3,Hamilton Olivia4,Rivera-Varas Viviana Vilma5,DeJonge Ronniw6,Pethybridge Sarah Jane7,Webb Kimberly8,Leubner Gerhard9,Secor Gary Allen10,Bolton Melvin D.3

Affiliation:

1. USDA-ARS Red River Valley Agricultural Research Center Northern Crop Science Laboratory, 370911, Fargo, North Dakota, United States;

2. Aarhus University, 1006, Slagelse, Denmark;

3. United States Department of Agriculture, Fargo, North Dakota, United States;

4. North Dakota State University, Department of Plant Pathology, Fargo, United States;

5. ndsu, plant pathology, fargo, North Dakota, United States;

6. Utrecht University, 8125, Department of Biology, Utrecht, Utrecht, Netherlands;

7. Cornell University, Department of Plant Pathology and Plant-Microbe Biology, Barton Laboratory, 630 West North Street, Geneva, New York, United States, 14456, ;

8. USDA - ARS, Sugarbeet Research Unit, 1701 Centre Ave., Ft. Collins, Colorado, United States, 80526, , ;

9. Royal Holloway University of London, 3162, Egham, Surrey, United Kingdom of Great Britain and Northern Ireland;

10. North Dakota State University, Plant Pathology, 306 Walster Hall, Fargo, North Dakota, United States, 58105, , ;

Abstract

Cercospora leaf spot (CLS) is a globally important disease of sugar beet (Beta vulgaris L.) caused by the fungus Cercospora beticola. Long-distance movement of C. beticola has been indirectly evidenced in recent population genetic studies, suggesting potential dispersal via seed. Commercial sugar beet “seed” consists of the reproductive fruit (true seed surrounded by maternal pericarp tissue) coated in artificial pellet material. In this study, we confirmed the presence of viable C. beticola in sugar beet fruit for 10 of 37 tested seed lots. All isolates harbored the G143A mutation associated with quinone outside inhibitor resistance and 32 of 38 isolates had reduced demethylation inhibitor sensitivity (EC50 > 1 µg/ml). Planting of commercial sugar beet seed demonstrated the ability of seed-borne inoculum to initiate CLS in sugar beet. Cercospora beticola DNA was detected in DNA isolated from xylem sap, suggesting the vascular system is used to systemically colonize the host. We established nuclear ribosomal internal transcribed spacer region amplicon sequencing using the MinION platform to detect fungi in sugar beet fruit. Fungi from 19 different genera were identified from 11 different sugar beet seed lots, but Fusarium, Alternaria, and Cercospora were consistently the three most dominant taxa, comprising an average of 93% relative read abundance over 11 seed lots. We also present evidence that C. beticola resides in the pericarp of sugar beet fruit, rather than the true seed. The presence of seed-borne inoculum should be considered when implementing integrated disease management strategies for CLS of sugar beet in the future.

Publisher

Scientific Societies

Subject

Plant Science,Agronomy and Crop Science

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