Chervil, Garden and Salad (Anthriscus cerefolium)-Stem and Crown Rot

Latest revision: 
March 2024

Cause The fungus, Sclerotinia sclerotiorum, has been reported on chervil shade-house production in California. This fungus is a cosmopolitan fungus that occurs across the globe, infecting a very large number of plant species including chervil. Other susceptible host plants include bean, carrot, pea, lettuce, potato, green pepper, cucurbits, parsnip, radish, sunflower, herbs including mint, fruit trees including apple, nectarine, and sweet cherry, and a large number of ornamentals both woody and herbaceous. Weeds can also be host to S. sclerotiorum; dandelion (Taraxacum officinale) is a very susceptible weed host. Stem infections can cause severe losses in seed crops.

This fungus survives as sclerotia, which may be associated with infected plant residues, contained in seed lots (external or internal to seed), or persist in the soil. Sclerotia can survive three to five years in the soil, depending on environmental conditions and cropping practices. Typically, strains of this fungus outside of tropical zones require a conditioning period in moist soil of several weeks at 40°F or cooler temperatures, after which sclerotia can germinate in soil when the soil water potentials are ≥-100 kPa and temperatures are between 41°F and 68°F. The production of apothecia appears to be prevented when soil matric potentials are below -0.05 MPa. The upper temperature threshold for conditioning and germination of sclerotia is 68°F and 77°F, respectively. Typically, sclerotia germinate and then produce a small, stalked, cup-shaped fruiting structure known as an apothecium, which forcibly ejects millions of ascospores into the air. Sporulating apothecia may persist five to ten days while released ascospores can survive up to two weeks, depending on environmental conditions. Since ascospores require an exogenous nutrient source before infecting a plant, the primary sites for initial infection are senescing tissues such as spent blossoms and declining leaves or plant tissues that have suffered mechanical injuries or wounding through infection by other pathogens. For infection, ascospores require free moisture or a relative humidity close to 100% with a temperature between 50°F and 86°F. Sometimes sclerotia germinate and produce undifferentiated mycelium that directly infects plant portions just below or at the soil line. After infection of the plant has occurred the mycelium spreads by hyphal growth, the fungus can then invade any healthy, vigorous part of a plant with which it comes in contact, and the pathogen may grow from plant to plant if a diseased plant is in direct physical contact with neighboring plants. Moist conditions within the plant canopy favor infection, as do rain, dew, and/or irrigation practices that keep foliage wet for long periods.

Symptoms The main symptom is powdery white mycelium and spores on leaf and stem surfaces, leaflet twisting and bending can occur with severe infections.

Cultural control

  • Reduce humidity and high-moisture periods within the plant canopy and hoop houses.
    • Provide adequate aeration within, and especially between, rows by increasing plant and row spacing.
    • Time irrigations to allow drying of plant canopy before night fall.
    • Apply sufficient nitrogen to meet crop demands, but avoid excessive fertilization that can lead to dense, lush plant growth.
  • To reduce pathogen population within a field:
    • Rotate with non-hosts for 8 years to achieve best control, but for at least two years to reduce population of sclerotia; grasses and cereals are not affected by Sclerotinia.
    • Deep plowing buries sclerotia but plowing later years may return viable sclerotia to the surface.
    • Field flooding during warm temperatures destroys sclerotia.

Biological control

  • Bexfond at 7 to 14 fl oz/A. O
  • Prestop WG. 4-hr reentry. O
  • Stargus at 3 to 4 quarts/A as a soil drench on 10- to 21-day intervals. Preharvest interval is 0 days. 4-hr reentry. O

References Caesar, A.J., and Pearson, R.C. 1983. Environmental factors affecting survival of ascospores of Sclerotinia sclerotiorum. Phytopathology 73(7):1024-1030.

Hao, J.J., Subbarao, K.V., and Duniway, J.M. 2003. Germination of Sclerotinia minor and S. sclerotiorum sclerotia under various soil moisture and temperature combinations. Phytopathology 93:443-450.

Koike, S.T. 1999. Stem and crown rot of chervil, caused by Sclerotinia sclerotiorum, in California. Plant Disease 83:1177.

Mila, A.L., and Yang, X.B. 2008. Effects of fluctuating soil temperature and water potential on sclerotia germination and apothecial production of Sclerotinia sclerotiorum. Plant Dis. 92:78-82.