Page Title

Tobacco Rattle Virus in Potato

Text

(A1896, Aug. 2018)

Tobacco rattle virus (TRV) causes the economically important corky ring spot (CRS) disease in potato. Tobacco rattle virus is transmitted in the filed by soil-inhabiting stuffy root nematodes of the genera Trichodorus and Paratrichodorus.

Shashi K.R. Yellareddygari, Research Scientist, Department of Plant Pathology, NDSU

Andrew P. Robinson, Assistant Professor and Extension Potato Agronomist NDSU/University of Minnesota, Department of Plant Sciences, NDSU; Neil C. Gudmestad, University Distinguished Professor and Endowed Chair of Potato Pathology, Department of Plant Pathology, NDSU

Availability: Web only


Corky ring spot is becoming more economically important across several potato production regions in the U.S. largely due to the spread of the virus and because of restrictions on the use of current chemical control options.

Tobacco rattle virus incidence has been reported in potato production areas in California, Colorado, Florida, Idaho, Michigan, Minnesota, North Dakota, Oregon, Washington and Wisconsin. The virus has a broad host range, including potato, tobacco, corn, barley, sunflower, ornamental (tulip, iris, etc.) and a variety of weed hosts. The virus is transmitted in the field by soil-inhabiting stubby root nematodes of the genera Trichodorus and Paratrichodorus.

Nematicides, soil fumigation and resistant cultivars can be used for nematode management. Detecting and quantifying viruliferous nematodes is important for making planting decisions and management approaches.

Symptoms

Internal TRV-induced symptoms often are confused with tuber necrosis symptoms caused by the potato mop-top virus (see NDSU Extension publication “Potato Tuber Viruses: Mop-top Management,” A1777). Tuber necrosis symptoms caused by TRV appear as rust/brown arcs, concentric rings or extensive browning of tuber tissue that later dry into corklike tissue (Figure 1). Concentric rings or arcs also may appear externally on tuber skin (Figure 2) and are very similar in appearance to symptoms caused by potato virus Y (PVYntn).

89ecb05f-1afa-4b4e-b4df-17cc135e7d69
5552f903-c940-4055-9424-5b52d62a348f
48aa3c27-6f80-4a6a-a873-0eb3e61ab72a

 Figure 1. Characteristic TRV symptoms in potato. (S.K.R. Yellareddygari, NDSU)

6aa4ecbf-db11-4664-a73b-3fd1b69ccde8
9e0a5868-0ca2-452c-8142-ae673097afa9

Figure 2. External arclike symptom appearance on tuber skin. These symptoms are similar to symptoms produced by the strains of PVYntn. (S.K.R. Yellareddygari, NDSU)

Important note: The necrosis symptoms in some cultivars increase during the time that potatoes are in storage. Symptom intensity varies from cultivar to cultivar (Figure 3), field to field, location to location and year to year. Laboratory analysis is the best method to determine the specific virus.

6f5650e0-186d-4f98-bfcc-d530c9d310b1
trv-induced-necrosis-opt1
trv-induced-necrosis-opt2

 Figure 3. Varying TRV-induced necrosis in potato cultivars. Top to bottom: Russet, specialty and red market type cultivars. (S.K.R. Yellareddygari, NDSU)

Disease Development

Stubby root nematodes are obligate parasites, meaning they have to feed on host plants to survive. The life cycle of stubby root nematodes is short and ranges from 16 to 20 days.

Females lay eggs and juveniles undergo four molts to reach adult stages. All stages (juveniles and adult) of nematodes feed and destruct the plant root cells by feeding on tissues while remaining outside of the plant. Adult and juvenile stages of nematode can transmit TRV when feeding on a plant root or tuber.

Tobacco rattle virus is acquired by nematodes while feeding on diseased plant tissue of potato or reservoir weed hosts. Within a field, CRS is spread when viruliferous nematodes move from diseased to healthy plants. The virus is lost during juvenile nematode molting and the nematodes reacquire the virus when feeding on roots of infected plants.

Stubby root nematodes prefer sandy, moist, cool soils and are highly sensitive to soil moisture and temperature. Tobacco rattle virus is introduced into new regions through movement of vector-infested soil and/or by planting infected seed material.

Testing for the presence of vector nematodes prior to planting is important to assist growers in making planting decisions. Soil samples can be collected throughout the year if the soil is not too dry, wet or frozen.

Collect samples at a soil depth of 12 to 18 inches and submit them for nematode detection. Based on the soil results, growers may consider implementing nematode management strategies.

Tobacco Rattle Virus Management

Here are some strategies for reducing the risk of the tobacco rattle virus:

  • Abandon fields highly infested with TRV. This is one of the best management options.
  • Avoid planting TRV-sensitive cultivars (see Table 1).
  • Use virus-free seed. It is the most effective strategy for managing TRV. Planting clean seed is important because TRV can survive in infected seed tubers and spreads from one season to the next.
  • Practice crop rotation using TRV non-host crop alfalfa Control weeds to lower the viruliferous stubby root nematode numbers. Common weeds such as chickweed, nightshade and purslane can act as hosts for TRV, and proper weed control greatly reduces CRS disease.

Stubby root nematode mobility (horizontal and vertical direction) in the soil makes nematode management difficult. No chemical completely controls the vector. Application of 1,3 dichloropropene (Telone™)-based products provide partial control of vector nematodes. Oxamyl-based products applied at planting and post-emergence also provide some control of the nematode vectors.

Planting nematode- and/or virus-resistant or insensitive potato cultivars is the primary method of disease suppression. A recent study conducted in North Dakota assessed 63 commonly grown potato cultivars for sensitivity to tubers necrosis caused by TRV (Table 1).

Table 1. Sensitivity ranking of potato cultivars to tobacco rattle virus-induced necrosis incidence based on 2015 and 2016 trials conducted in North Dakota.

Insensitive Cultivars (Incidence less than 5 percent)

Superior, Centennial Russet, Rio Colorado, Castle Russet, Bintje, Lelah, Russian Banana, Ciklamen, Oneida Gold, Gala

Moderately Insensitive Cultivars (Incidence greater than 5 to 10 percent)

Alturas, Austrian Crescent, Mega Chip, Goldrush

Moderately Sensitive Cultivars (Incidence greater than 10 to 15 percent)

Teton Russet, Dakota Ruby, Modoc, Red Gold, Chipeta, Dakota Crisp, Pike

Sensitive Cultivars (Incidence greater than 15 percent)

French Fingerling, Lamoka, Russet Norkotah CO8, Premier Russet, Red Endeavor, Dakota Russet, Russet Burbank, Chieftain, Freedom Russet, Yukon Gold, Ranger Russet, Viking, Snowbird, Sage Russet, Russet Norkotah, Kennebec, Dark Red Norland, Marcy, Alpine Russet, Clearwater Russet, Dakota Trailblazer, Bannock Russet, Russet Norkotah 278, Red Norland, Russet Norkotah, 296, Russet Norkotah CO3, Silverton Russet, Snowden, Waneta, Huckleberry Gold, Red LaSoda, Dakota Pearl, Desiree, Gemstar Russet, Atlantic, Nicolet, Dakota Jewel, Umatilla Russet, Colorado Rose, Classic Russet, Red Thumb, Pinnacle

References

David, N., Mallik, I., and Gudmestad, N.C. 2010. First report of tobacco rattle virus associated with corky ringspot in potatoes grown in North Dakota. Plant Disease 94:130.

Hafez, S.L., and Sundararaj, P. 2009. Management of corky ringspot disease of potatoes in the Pacific Northwest. University of Idaho Extension. CIS:1162.

Huang, D., Yan, G., and Skantar, A.M. 2017. Development of real-time and conventional PCR assays for identifying study root nematode Paratrichodorus allius. Plant Disease 101:964-972.

Yellareddygari, S.K.R., Whitworth, J.L., and Gudmestad, N.C. 2018. Assessing potato cultivar sensitivity to tuber necrosis caused by Potato mop-top virus. Plant Disease. 102:1148-1153.

Yellareddygari, S.K.R., Brown, C.R., Whitworth, J.L., Quick, R.A., Hamlin, L.L., and Gudmestad, N.C. 2018. Assessing potato cultivar sensitivity to tuber necrosis caused by Tobacco rattle virus. Plant Disease. 102:1376-1385.

252

August 2018