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Integrated Pest Management Program

Department of Plant Science and Landscape Architecture, Department of Extension

Fact Sheets > Fruit > Small fruit > Strawberries

Black Root Rot of Strawberries

Black root rot is caused by a complex interaction of fungi, nematodes, and environmental factors. Several fungi are implicated in the disease including Rhizoctonia spp., Pythium spp., and Fusarium spp. When root lesion nematodes are present in the planting, the disease is often more severe. This indicates that root feeding by the nematodes may predispose the roots to infection by the fungi. The disease most commonly occurs in low areas, on compacted soils or where organic matter is low.

One or more of the fungi listed above is usually present in the field at the time of planting. Thus, black root rot is not usually introduced into a new planting through nursery stock or contaminated equipment. The exception to this would be recontamination of fungi after a field is sterilized by chemical fumigation. If an environmental factor or other factor (e.g., nematode feeding) is present, the disease complex may be triggered. Factors that favor black root rot include poorly drained soils, winter injury, nutrient imbalances and herbicide damage.

Symptoms

Aboveground: Symptoms of black root rot usually begin in the first fruiting year. The injury will be most noticeable in low or soil compacted areas of a field where drainage is poor. Strawberry plants with black root rot show a general lack of vigor with poor runner growth and small berries. Plants may collapse when water demand is high such as during spring growth, during or after fruiting, or during drought stress. Above ground symptoms may resemble symptoms caused by other root disorders; therefore, roots also need to be examined.

Belowground: To diagnose black root rot, strawberry plants should be sampled in April or May. When taking a plant sample, dig, rather than pull the plant from the ground. Examine the white roots of plants that are showing signs of decline. In healthy plants, the interior of woody roots is yellowish-white. Also, there are abundant fleshy white roots and lateral roots with white cores. If black root rot is present, roots may be rotted at their tips or may appear mottled with black lesions along the white roots. The root core in early stages of black root rot is white, rather than red (which indicates red stele disease) (Figure 1). If plants are severely affected, both the core and outer tissue will be black.

Disease Management

Black root rot is favored by wet soils and soils low in organic matter. As a result, proper site selection and preparation are both important management tools for this disease complex.

Site Selection: The future planting site should be selected at least one year before planting. Soil drainage should be good. Avoid low-lying areas that have a tendency to be poorly drained.

Site Preparation: If the site had been planted in strawberries previously, practice crop rotation by planting the area into cover crops or annual cash crops for at least two years, but preferably three to five years. Do not rotate with crucifers or legumes because these are alternate hosts for Rhizoctonia spp. Sweet corn or pumpkins may be a good choice.

Cover crops should be planted for at least one growing season, even if strawberries were not grown previously, to build up organic matter in the soil. Do not use a legume if black root rot is of concern. Cover crops include annual ryegrass, sudan grass and sorghum/sudan (Sudex). More information on choosing a preplant cover crop can be found in the Bramble Production Guide (see References).

If the site selected does not have good soil drainage, the strawberry planting should be established on raised beds. The raised beds will allow excess soil water to drain from the strawberry root system, creating an environment less favorable to the disease causing fungi. In addition, less soil compaction will occur near the root system.

Soil tests for fertility and pH should be conducted during site preparation. Fertilizer and/or lime should be added before or at planting based on the results.

Preplant soil fumigation is often recommended for control of soil fungi and nematodes. However, there have been mixed results after fumigation with regard to black root rot. In some instances, black root rot has been reported to build up more quickly in fumigated soils than in nonfumigated soils. Researchers suspect that the reason for this may be that when the soil is sterilized by fumigation, beneficial or competitive soil microorganisms are eliminated. In their absence, Rhizoctonia and other fungi involved in the black root rot complex may increase more rapidly.

Planting: Use only healthy, white rooted plants which have been purchased from a reputable nursery. There are no strawberry varieties, at this time, that are resistant to black root rot however, some varieties appear to be more tolerant than others. In varietal trials conducted on infested soils in New York, Raritan, Lester and Sparkle showed more tolerance than Blomidon and Honeoye.

After Planting: Always use cultural practices that favor good plant growth and development. A soil and/or tissue analysis should be performed each year to determine optimum fertilizer applications. Try to minimize soil compaction created by equipment and cultural practices. Avoid over or under irrigation of the strawberry field. Strawberry plants should be mulched in late fall to prevent winter injury, which predisposes plants to black root rot. In particular, compacted, wet soils tend to heave more during the winter if mulching is insufficient.

http://www.hort.uconn.edu/ipm/fruit/pics/strbrot.gif

Figure 1. Comparison of root structures of healthy plants and those infected with red stele or black root rot. Adapted from Soil-borne Diseases of Strawberries in New York State by Arneson, PA. and A.J. Braun. Cornell Coop Ext. Info Bull. No. 73.

References:

  • Pritts, M. and D. Handley (eds.). 1991. Bramble Production Guide. Northeast Regional Agricultural Engineering Service Pub. No. NRAES-35. 189 pp. Available from UConn Department of Natural Resources Management and Engineering

Prepared by: Lorraine M. Los, Fruit Crops IPM Coordinator and M. Lee Schroeder, Former Small Fruit IPM Coordinator, University of Connecticut

Reviewed by: Mary Concklin, UConn IPM. 2012

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