Cause The fungus Monilinia vaccinii-corymbosi overwinters in mummified fruit (sclerotia) on the ground. It is not known if mummies survive more than one year; however, mummies for other Monilinia sp. can survive for up to 6 years. Mummified fruit that gets caught near the ground between the stems of a single plant are a frequent problem. Mummies have a chilling requirement of many hours below 45°F. In early spring, when the temperature rises above 45°F, about the time buds begin to break, fungal fruiting cups (apothecia) grow from overwintering mummies in or near the soil surface. Apothecia mature over an average period of 17 days but can range from 10 to 28 days. Many apothecia can emerge from just one mummy.
Ascospores (primary inoculum) from apothecia are wind dispersed 100 feet or more and infect leaves and flowers shortly after buds open. A second type of spore (conidia or secondary inoculum) is produced in about 3 weeks on blighted flowers and shoots. These spores are spread by wind, rain, and various insect pollinators to healthy flowers. Flowers are most susceptible just as they open. Infections lead to the mummy berry symptom. Flowers already pollinated prior to inoculation have less infection.
The potential for loss is greater for primary infection because a single infection can blight all the flowers of one cluster. The losses from secondary infection can also be significant but the potential is less because only one berry is lost from each infection.
Infected, sporulating shoots become ultraviolet reflective, fragrant and secrete sugars all of which attract insect pollinators. Insects are then able to move conidia from these infected shoots to healthy flowers increasing the number of infected berries.
All species of Vaccinium are infected by species of Monilinia causing a mummy berry-like disease in each. Each species, however, is highly specialized to its host and therefore cannot induce disease in other hosts. For example, the fungal species attacking red huckleberry cannot attack highbush blueberry and vice versa.
Symptoms Infected flowers turn brown and wither, as if they had been frosted. Leaf and shoot growth expanding from newly opened leaf buds is blackened in the center and eventually wilts and dies. About 3 weeks after primary infection, a brownish gray mass of spores develops on blighted flower stalks and leaves.
During early berry development, diseased fruits look like healthy ones; if cut open; however, the spongy white fungal growth can be seen within the carpels. As berries approach maturity, infected berries become a reddish buff or tan color in contrast to the waxy green of healthy fruits. Many of the diseased berries fall before healthy berries are harvested. Mature mummified berries are gray, shriveled, and hard.
Apothecia can be found under bushes where leaf debris or mulch has been left undisturbed. In spring, before bloom urn-shaped apothecia emerge from the mummies and are light brown to brown. The tip of the stem is darker and eventually expands into a cup-shaped structure 0.1 to 0.4 inch wide.
Cultural control Control tactics applied to the soil may need to be repeated often since apothecia develop and mature over a period of several weeks.
- In fall, before leaf drop, shallowly cultivate to bury mummies. Research in Georgia indicates that burying mummies 1 inch or more below the soil prevented apothecia from reaching the surface.
- In early spring between budbreak and bloom, destroy developing apothecia by disrupting the soil under plants and/or in alleyways by raking or cultivating soil. Some growers cultivate to pile soil from between the rows at the base of the bushes and between the bushes in order to bury the mummies. They rake soil back into the rows later in spring after apothecia are gone. Other growers drag chains along the ground to disrupt the developing apothecia. Flaming may also be useful.
- Harvest and destroy mummified fruit from bushes before they drop to the ground. This practice may take several years before a benefit can be realized.
- Remove and destroy plant debris that builds up on harvester machines before moving to a new field.
- Also in spring, destroy any cull piles near packing houses.
- Plant resistant cultivars. Select matching, cross-pollenizing cultivars with synchronized bloom periods so pollination can occur quickly.
- Remove susceptible cultivars such as 'Berkeley' from mixed plantings.
- Good weed control aids cultural measures.
Organic control Control of mummy berry is difficult using organic tactics. None of the materials typically used by organic growers have resulted in effective protection of new shoots and flowers. Organic growers should then focus on reduction of overwintering inoculum. Scouting and aggressive removal of even the smallest amount of mummy berry during and after harvest will be useful for new planting, which do not yet exhibit much disease. Growers with small acreage should focus on removal of as many mummies as possible at and after harvest combined with aggressive disruption of developing apothecia in the spring. Efforts need to be 99.9% effective to have significant impact on this disease.
- Spray soil surface in early spring between bud break and bloom to destroy or inhibit developing apothecia. Repeat applications may be required because apothecia develop over a period of several weeks. Note: Lime sulfur labels do not specifically indicate soil application.
- BSP Lime sulfur (29%) at 16 to 24 gal/A in 200 to 300 gal/A water. Repeat applications are required because apothecia develop over a period of several weeks. 48-hr reentry. O
- Tetrasul 4s5 (27% lime sulfur) at 4 gal/A in 200 to 300 gal/A water. Repeat applications are required because apothecia develop over a period of several weeks. 48-hr reentry. O
- Application of the herbicides diuron or simazine have been shown to affect the development and sporulation of apothecia. These herbicides may be beneficial when used close to apothecia development in the spring. Consult the PNW Weed Management Handbook for specific recommendations.
- Protect blossoms and foliage with fungicide from budbreak to end of flowering. From a farm-wide perspective, start when the earliest cultivars break bud. With regular scouting, the first application can be timed to coincide with apothecial development. Tank-mix and/or alternate products from different groups with different modes of action to prevent the build-up of resistant fungi. Group 3 fungicides have a high risk of resistance development.
- Abound at 6 to 15.5 fl oz/A. Do not apply more than two (2) sequential applications or with silicone-based surfactants. May be applied on the day of harvest. Group 11 fungicide. 4-hr reentry.
- Bonide 50 WP at 1 to 2 Tbsp/gal water can be used in home gardens. H
- Captan 80 WDG at 1.25 to 3.1 lb/A plus spreader-sticker can only be used starting at mid bloom but may be applied up to day of harvest. Moderate control of both primary and secondary stages. Group M4 fungicide. 72-hr reentry.
- CaptEvate 68 WDG at 4.7 lb/A Do not apply more than two (2) consecutive applications or more than 21 lb/A/season. Can be used day of harvest. Group 17 + M4 fungicide. 48-hr reentry.
- Indar 2F at 6 fl oz/A plus a wetting agent. Make reapplication on shortest interval allowed on the label. Do not use within 30 days of harvest. Group 3 fungicide. 12-hr reentry.
- Pristine at 18.5 to 23 oz/A. Do not use with any other tank additive. Can be used day of harvest. Group 7 + 11 fungicide. 12-hr reentry.
- Proline 480 SC at 5.7 fl oz/A. Use up to two (2) applications with one targeting the first open blossom. Do not use within 7 days of harvest. Excellent control. Group 3 fungicide. 12-hr reentry.
- Propiconazole-based fungicides are registered. Do not use more than 30 fl oz/A/season or within 30 days of harvest. Use of propiconazole for mummy berry control has been associated with an increase in Botrytis severity. Group 3 fungicides. 12-hr reentry.
- Bumper 41.8 EC at 6 fl oz/A.
- PropiMax EC at 6 fl oz/A.
- Tilt at 6 fl oz/A.
- Quash at 2.5 oz/A. Particularly useful when used just before bloom. Do not use within 7 days of harvest. Excellent control. Group 3 fungicide. 12-hr reentry.
- QuiltXcel at 14 to 21 fl oz/A. Do not use more than 82 fl oz/A/season, more than two (2) sequential sprays or within 30 days of harvest. Sprayers should not be used on apples. Group 3 + 11 fungicide. 12-hr reentry.
- Regalia at 1 to 4 quarts/A. Use on 7-day intervals. May be used day of harvest. Label suggests to tank-mix with another fungicide. Late bloom applications of high rates may russet fruit. 4-hr reentry. O
- Switch 62.5 WG at 11 to 14 oz/A. In western Oregon in 2004, it was not effective on any stage of the disease. May be used up to and including the day of harvest. Do not apply more than twice sequentially or use more than 56 oz/A/season. Group 9 + 12 fungicide. 12-hr reentry.
- Ziram 76 DF at 3 lb/A. Do not apply after 3 weeks from full bloom. Poor control of both primary and secondary stages. Group M3 fungicide. 48-hr reentry.
Note Some registered products offer only suppression of this disease and thus are not recommended for use. These products include Bravo Weather Stik, DoubleNickel 55, Echo, and Fontelis.
- Actinovate AG (Streptomyces lydicus strain WYEC 108) at 3 to 12 oz/A plus a spreader-sticker. Do not mix with Regalia. Highest rate was moderately effective in western Oregon. Has been effective only on the primary phase of this disease so use before bloom. 1-hr reentry. O
- Botector (Aureobasidium pullulans strains DSM 14940 and 14941) at 5 to 10 oz/A depending on water volume. Can be applied day of harvest. Was effective in one western Oregon test at low disease pressure. 4-hr reentry. O
- Serenade ASO (Bacillus subtilis strain QST 713) at 2 to 6 quarts/A plus an adjuvant. Active ingredient is a small protein. Serenade Garden Disease Control is available for home use. Although useful in Georgia on rabbiteyes, efficacy in the Pacific Northwest is low to none. 4-hr reentry. H O
References Cox, K.D. and Scherm, H. 2001. Effect of desiccants and herbicides on germination of pseudosclerotia and development of apothecia of Monilinia vaccinii-corymbosi. Plant Disease. 85:436-441.
Ehlenfeldt, M.K., Polashock, J.J., Stretch, A.W. and Kramer, M. 2010. Ranking cultivated blueberry for mummy berry blight and fruit infection incidence using resampling and principle component analysis. HortScience 45:1205-1210.