Tomato Gray Mold (Botrytis Blight)

Tomato Gray Mold

Author: Matthew DeBacco

Reviewed by: Shuresh Ghimire, Ph.D.
Associate Extension Educator
Extension Vegetable Specialist

Date of Publication: June 16, 2026

Introduction

Gray mold, also known as Botrytis blight, is a fungal disease caused by Botrytis cinerea. It affects tomato plants, particularly in environments with high humidity and cool temperatures, such as greenhouses or during wet weather. This disease can impact leaves, stems, flowers, and fruit, leading to significant crop damage if not managed. 

close up of tomato leaf with fuzzy gray mold along one side
The gray fuzzy growth of the gray mold pathogen distinguishes this from other diseases, in particular late blight, and from secondary fungi that decompose dead tissue. Photo: Cornell University.

 

close up of green tomato with gray fuzzy mold growing on it and the attached stem. beneath is a close up image of a leaf with gray mold growing in oblong section of the green leaf.
Fuzzy gray mold growing on tomato stem, fruit and leaves. Photo: Cornell University.

Symptoms

Gray mold thrives in conditions with high humidity (>90%) and temperatures between 65–75°F, often entering plants through wounds, dead tissue, or fading flowers. It can survive in plant debris, making sanitation crucial. With optimal infection occurring when there is free water on plant surfaces for 4–6 hours, such as from dew, rain, fog, or overhead irrigation. 

Gray mold appears as a grayish-white, fuzzy mold on infected plant parts.  Tan to brown lesions on leaves and stems, which can expand and cause wilting.  Brown, dying flowers, which can spread infection to fruit.  Soft, watery rot on fruit, often with whitish rings called "ghost spots," reducing market quality. 

Host Crops: Solanaceae family (Tomatoes, Peppers, Eggplant) 

Identification of Disease

A dense, velvety and fluffy gray-brown spore mass on infected tissue that is very fragile by nature, so when it is disturbed causes the release of a cloud of spores, which is how this disease spreads.  This process is favored by humid conditions. 

On leaves, tannish brown lesions appear, which can lead to irregular or V-shaped brown blotches, starting at the leaf margins and progressing inward, potentially causing dieback as infection moves through petioles to the main stem. 

Flowers can be a common point of entry which can also lead to fruit infection, which is evident by a pale, soft, watery rot, often with the skin rupturing near the center of the decayed area. These symptoms can occur both on the plant and during post-harvest storage. 

Not to Be Confused with: 

Late Blight- Does not have the fuzzy appearance. 

Vectors

The fungus Botrytis cinerea spreads through spores carried by wind, rain, or air currents.  

Management

There are no known tomato varieties with resistance to botrytis blight.

 

Cultural:

Ensure good air circulation; this can be accomplished by plant to plant and row to row spacing and also continual pruning of plants. 

            Biological:

            Using the entomopathogenic fungus Metarhizium anisopliae, which has shown significant efficacy against B. cinerea in greenhouse and post-harvest settings. Studies indicate up to 84.24% control on detached leaves and 72.38% on whole plants, with a 78% reduction in fruit mold at a 10% treated concentration. 

            Chemical:

            Conventional Spray Products 

            penthiopyrad (Fontelis): 26.0 to 24.0 fl oz/A; PHI 0d, REI 12, Group 7 

            Organic Spray Products 

            potassium bicarbonate (MilStopOG aka PB 133OG): 1.25 to 5.0 lb/100 gal water; PHI 0d, REI 1h, Group NC. Use the solution within 12 hours of preparation. See the label for small volume application rates. 

            See the New England Vegetable Management Guide for a more comprehensive list of fungicides for gray mold control.  

                References

                Cornell University. (n.d.). Bacterial canker. Cornell Vegetables. https://www.vegetables.cornell.edu/pest-management/disease-factsheets/bacterial-canker/ 

                 Egel, D. S. (2018, May 17). Tomato bacterial diseases: Bacterial canker. Vegetable Crops Hotline. https://vegcropshotline.org/article/tomato-bacterial-diseases-bacterial-canker/ 

                Rubio, I., Motisi, N., Audeguin, L., Bertrand, M., Chastagner, A., Deberdt, P., Husson, O., Loiseau, M., Marie, L., Merlin, I., Meyer, J.-B., Pruvost, O., & Vallance, J. (2021). Bacterial canker of tomato: Current knowledge and future challenges. Plant Disease, 105(5), 1096–1113. https://doi.org/10.1094/PDIS-08-20-1732-FE 

                University of California Agriculture and Natural Resources. (n.d.). Bacterial canker. UC IPM Online. https://ipm.ucanr.edu/agriculture/tomato/bacterial-canker/ 

                University of Florida, Institute of Food and Agricultural Sciences. (n.d.). Bacterial canker. U-Scout: Tomato. Retrieved July 2, 2025, from https://plantpath.ifas.ufl.edu/u-scout/tomato/bacterial-canker.html 

                University of Minnesota Extension. (n.d.). Bacterial canker of tomato. https://extension.umn.edu/disease-management/bacterial-canker-tomato 

                 

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