Botrytis Blight
or Gray Mold
The plant pathogenic fungus Botrytis
is found virtually everywhere plants are grown. It is fast growing,
can grow on many different sources of nutrients, survives well in
the greenhouse, and can attack many different types of plants. The
disease caused by Botrytis is commonly called Botrytis blight or
gray mold.
- The Fungus
Botrytis at first appears
as a white growth on the plant but very soon darkens to a gray color.
Smoky-gray "dusty"
spores form and are spread by the wind or in water. In greenhouses,
any activity will result in a release of spores. Even automated
trickle irrigation systems, when turned on, trigger a release of
spores. These spores are often found on the outside of seeds. The
spores can remain dormant on plant surfaces as long as the life
of the plant in some cases. Botrytis
forms two types of resting structures on or in infected plant tissue:
(1) very dark-brown or black multicelled structures called sclerotia
and (2) single-celled, thick, dark-walled chlamydospores. The fungus
can persist in the greenhouse for long periods in either structure
in the absence of plants.
Infection
Botrytis is a weak pathogen that must
have nutrients or some food source before it invades the plant.
Nutrients leaking from wounded plant parts or from dying tissue
such as old flower petals provide the required nutrients. From this
food base, the fungus becomes more aggressive and invades healthy
tissue. A dark- to light-brown rot forms in the diseased tissue.
High humidity conditions favor the growth of this fungus.
Sites of First Infection
- Wounded tissue such as large stubs left after
taking cuttings.
- Fading
flowers.
- Leaves on which fading infected
flowers have fallen.
- Broken stems or injured leaves.
- Leaves
damaged by overfertilization, spray damage, or mechanical
injury.
- Seedlings grown under cool, moist conditions.
- Cuttings
taken from plants with heavy infestations of Botrytis.
- Management
-
- Sanitation is the first important step. Remove
dead or dying tissue from the plants and from the soil surface.
Remove this refuse from the greenhouse. Do not throw debris
under benches or on walks. Sanitation alone is not sufficient
to control this fungus. The fungus can produce 60,000 or more
spores on a piece of plant tissue the size of your small finger
nail. Even one spore can infect a plant and cause disease.
- Avoid injuring plants in any way. Do not leave
large stubs of tissue on stock plants when taking cuttings.
- Heat and ventilate greenhouses to prevent
high humidity conditions. This may only require extra
venting early in the day when moisture has condensed and before
sunlight has warmed the air. Even lowering the humidity slightly
can have a significant effect on Botrytis.
Outdoor planting should be planned to provide good air circulation
patterns. This is the most important means of inhibiting Botrytis
activity.
- Added protection is available for many crops
by applying a fungicide or combination of fungicides. However,
Botrytis can develop resistance
to certain chemicals.
Chemicals listed below in the row have the same way
of killing the fungus (same mode of action):
| COMMON NAME |
TRADE NAME |
| azoxystrobin |
Heritage |
| chlorothalonil |
Exotherm Termil, Daconil, PathGuard |
| copper |
Phyton 27, Nu-Cop, Kocide |
| fenhexamid |
Decree |
| fludioxonil |
Medallion |
| iprodione |
Chipco 26019 |
| mancozeb |
Dithane, Protect T/O, Pentathlon |
| mancozeb + copper |
Junction |
| myclobutanil |
Systhane |
| Trichoderma harzianum |
PlantShield, Trichodex
(biological controls) |
| Streptomyces griseoviridis |
Mycostop (a biological control) |
Botrytis develops
resistance to some fungicides when used exclusively over a long
period of time. Therefore, do not rely entirely on one chemical
or a group of chemicals that act similarly (see chart above). It
has been found that it is best to mix chemicals (if mixing is allowable
as stated on the label) that act differently. It has been found
that reduced-rate mixtures of two or more chemicals provide as good
protection as full-rate mixtures.
Resistance to fungicides containing benzimidazole
(Topsin M, Benlate*, SysTec*, Domain FL*, Cleary's 3336*, Zyban*,
Duosan*) is common in greenhouses. These fungicides are not likely
to control Botrytis. Resistance
to Ornalin* and Chipco 26019* has been found in several facilities.
Do not rely entirely upon these chemicals for control. If you suspect
they are not controling Botrytis in
your greenhouse, cease using them.
*Trade name
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