Gray mold, also known as Botrytis fruit rot or Botrytis flower rot, is one of the most difficult strawberry pathogens to control if the environmental conditions are right for infection.
Unfortunately, the fungus that causes this disease, Botrytis cinerea, is very common in strawberries throughout the world.
The disease can lurk in the plants without causing any symptoms, waiting to strike when the fruit are ripe. It can attack while the fruits are still on the plants, as well as after harvest.
We link to vendors to help you find relevant products. If you buy from one of our links, we may earn a commission.
To make things worse, there are many different strains of Botrytis, and most of them are resistant to at least one fungicide, if not more.
However, there are options available for control. We’ll help you manage your strawberry plants, so you have a fighting chance of overcoming this pathogen.
What You’ll Learn
- Botrytis Rot on Strawberries Can Lurk Undetected
- Biology of Botrytis Cinerea
- Postharvest Fruit Losses
- Control Methods
- Botrytis Rot of Strawberry Is a Worldwide Problem
Botrytis Rot on Strawberries Can Lurk Undetected
You may have strawberry plants that look perfectly healthy but have undetectable dormant Botrytis infections. This is what’s known as a latent infection.
This is frequently the case with young growing leaves, which will look fine until they mature and start to decline. At that point, the fungus starts growing and symptoms appear.
And it can be the case with the fruit, too. They may be fine until they start to expand and develop.
Fully ripe fruit are highly susceptible, and can be infected during harvest if they come into contact with another that has the disease.
The symptoms of gray mold on strawberries can vary depending on the state of the tissue and what part of the plant is infected.
The portions of the leaves that are dead will look like they are covered in gray velvet.
Flowers will have brown, discolored lesions on their petals, sepals, and the central part of the flower that will develop into the fruit (the pedicel). The infection can spread and kill the pedicel, so no fruit will develop.
Symptoms on the young fruit start with light brown decay appearing on the flower end.
Ripe fruit can be completely covered in spores that have the appearance of gray velvet. These spores can spread to nearby fruit – a condition called “nesting.” This can result in clusters of diseased fruit.
Damaged fruit are especially likely to become infected, even after harvest.
The infected fruit will eventually shrivel up and become hard, but they will remain attached to the plant and can continue to spread the infection.
Biology of Botrytis Cinerea
This versatile fungus can infect more than 200 different kinds of plants. It spreads by spores that are easily splashed in water, blown by the wind, or transferred by mechanical activity.
Damp weather and high humidity are ideal conditions for the development of this disease.
The fungus overwinters by forming dormant structures called sclerotia. Sclerotia are roundish in shape, about half an inch in diameter, and are able to tolerate cold, warm, and dry conditions.
In the spring, if conditions are right, the sclerotia will emerge from dormancy and germinate to produce new spores.
Postharvest Fruit Losses
Losses during strawberry handling can be substantial, and there are three reasons for this:
- The fruit look perfectly healthy but have a latent infection that only manifests after the fruit have been harvested.
- The fruit already had damaged portions or became injured during picking. If these harvested fruits are contaminated with spores, they can develop gray mold.
- The fruit are perfectly healthy, but they are growing next to contaminated fruit that will spread the disease.
Gray mold is extremely difficult to control. Even fungicide treatments can be ineffective. However, there are measures you can take to limit the spread.
Many of the effective cultural controls involve reducing the amount of moisture on your plants, and appropriate sanitation practices to minimize its spread.
Plant your strawberries in full sun and make sure to purge any weeds from the planting area. This will help to improve the airflow around your plants, so they will be less moist and thus less easily infected.
Provide adequate spacing around your plants, to allow for good airflow.
Mulch with straw to limit aboveground plant contact with the soil and to prevent spores from being splashed up onto your plants by rain or irrigation.
Choose cultivars that produce smaller leaf canopies such as ‘Allstar, ‘Earliglow,’ or ‘Jewel.’
If you irrigate your strawberries, it is very important to use drip irrigation rather than overhead sprinklers. This limits the amount of free moisture on the plants.
Do not fertilize with nitrogen in the spring. You risk having the leaves grow too well and ending up with a shaded, dense, and moist canopy that can lead to high levels of infection.
Instead, apply the nitrogen after harvest and then again in late summer.
You have an advantage if you are growing in a high tunnel or greenhouse, where plants are protected from rainfall and dew that may spread infection.
Practice Good Sanitation
While this is not practical for commercial growers, home gardeners have an advantage in terms of being able to employ the best sanitation practices.
If you only have a few plants, focus on removing dead leaves throughout the season to limit the risk of infection.
You will want to remove infected berries as soon as possible. In fact, conventional growers have been advised to hire someone to go through and pick the diseased berries each hour, so that other pickers will not accidentally contaminate the good fruit.
Be sure to check your plants thoroughly every day, if you can, particularly in wet conditions.
Clean up all the dead leaves, and infected plants at the end of the season and dispose of them, so they won’t carry the fungus over to the next growing season.
Treatment with Fungicides
Individual strains of Botrytis cinerea are notorious for being resistant to multiple types of fungicides. And in some cases, fungicides that work at the beginning of the season lose their effectiveness towards the end.
Strains across the country vary in their resistance, and universities and county agricultural commissioner’s offices test the local strains to see what fungicides they are resistant to.
If you want to treat your strawberry plants with fungicides, your best bet is to contact your local extension office to find out which ones are options for you.
However, there are several newer fungicides that show great promise in treating this disease, particularly isofetamid, which outperformed competing fungicides in 2018 and 2019 trials at the Strawberry Center at Cal State Poly in San Luis Obispo, California.
Another option is to choose a fungicide like thiram or captan that has multiple targets in the fungus. If a fungicide only affects a single aspect of the fungal biology, the pathogen can quickly evolve resistance.
The New York State Integrated Pest Management (IPM) Publication on Organic Production and IPM Guide for Strawberries states that research in the state “has consistently shown that excellent gray mold control can be obtained” with two sprays of fungicide – one applied at early bloom and another 10 days later.
However, if the weather is conducive to the disease (wet, humid, or foggy), continued protection via additional applications may be required.
Organic Chemical Treatments
Experts vary in whether they recommend the use of organic compounds to treat gray mold on strawberries.
The NYS strawberry guide cited above recommends copper octanoate, stating that it was found to be effective in some research studies. This compound is available in the form of Cueva Fungicide Concentrate.
JMS Stylet Oil
The strawberry guide also states that JMS stylet oil had been effective in some studies.
However, the authors caution that you may need to use a high volume of water to thoroughly cover your strawberry plants.
This compound is available from Arbico Organics.
Biofungicies contain bacteria or fungi that inhibit the development of Botrytis. Some studies have found them to be consistently effective, while others found they worked in some cases, but not all.
Strain D747 of this bacterium has been used to control gray mold, and is available as Double Nickel 55 and Double Nickel LC.
UMass Extension’s Strawberry IPM Manual for gray mold, written by Angela Madeiras and Sonia Schloemann, reports that products containing Trichoderma harzianum as an active ingredient are used effectively to control the disease in Europe and Israel.
Formulations containing this fungus are available from Arbico Organics.
Actinovate-AG may help to control gray mold. It is more likely to work if you apply it with a spreader or sticker as a preventative measure, before infection has taken hold.
Botrytis Rot of Strawberry Is a Worldwide Problem
Botrytis infections are a problem throughout the world, and strains of this fungus frequently develop resistance to many of the fungicides used to control it.
However, there are steps you can take to minimize an infection, such as limiting the amount of moisture on your strawberry plants. There are also a number of microbes that you can use as biofungicides to outcompete the fungus.
It is critical to purge any infected strawberries, so they won’t contaminate the rest of your harvest.
Have you had problems with gray mold in your strawberries? Let us know in the comments below!
And for more information about controlling pests and disease, check out these guides next:
- How to Identify and Control Common Zucchini Diseases
- How to Prevent and Treat Early Blight of Tomatoes
- How to Control Raspberry Fruitworms
© Ask the Experts, LLC. ALL RIGHTS RESERVED. See our TOS for more details. Product photo via Arbico Organics. Uncredited photos: Shutterstock. With additional writing and editing by Clare Groom and Allison Sidhu.