Seedling
Root and Crown Rots of Woody Plants
What they look like
Above ground parts of affected plants wilt, the foliage turns brown,
and the plants fall over if stems are rotted. Below ground, rotted
roots turn brown, disintegrate when handled, and easily break off
if the soil is gently teased away. When the root crown is infected,
fine feeder roots often remain a healthy white to tan color, and hold
the root ball together well. However, when the soil is washed away,
brown areas are visible on the cortex of the larger diameter roots
as well as the root crown, or base of the stem.
Vulnerable plants
Plants with roots and stems that remain succulent for an extended
period of time are the most susceptible to these diseases. For example,
conifer seedlings are susceptible to root rot diseases for a longer
period of time after germination than many other woody plants. Seedlings
or rooted cuttings whose roots and stems become hard and woody soon
after they are established are more resistant to these diseases.
The most common root and crown rot fungi are Rhizoctonia
and Pythium, but Phytophthora, Fusarium and
Cylindrocladium are also important for certain woody plants
and specific growing conditions.
How infection occurs
Root and crown rot fungi live in the soil as saprophytes on dead
plant material or survive by producing resistant resting structures.
When new susceptible plants are transplanted into soil, the fungi
grow into succulent roots and stems. Rhizoctonia survives
by producing resistant resting structures called sclerotia that
can move as soil is moved (e.g., blowing soil, or by running or
splashing water). Fusarium lives on dead plant tissue and
in soil, and overwinters as thick-walled, resistant spores called
chlamydospores. Cylindrocladium survives on dead plant material
and as resistant resting structures called microsclerotia in the
soil.
Pythium and Phytophthora are blown with infested
soil or splashed by rain or irrigation water. Pythium survives
by producing resistant structures called oospores in dead roots.
Immature, succulent roots and stems are most susceptible to significant
plant damage when infected by Pythium. Well-developed woody
plant seedlings have thicker, lignified cells that limit the spread
of Pythium, so only the feeder roots are rotted. Fine feeder
roots are vulnerable to damage at any stage of plant growth, but
a plant with good vitality can limit the extent of Pythium
growth into older roots.
Phytophthora overwinters as oospores or chlamydospores in
infected roots or stems. When favorable (warm, wet) conditions resume,
the resistant spores germinate by liberating mobile, swimming spores
(zoospores). These are blown or splashed onto nearby susceptible
plants which become infected. Dormant fungal structures in roots
or stems begin growing again when circumstances are favorable, and
cause additional damage to plants they have previously infected.
Environmental conditions significantly influence the development
of root and crown rot. Cool temperatures (50-60°F) that slow
germination of seeds and growth of cuttings keep the plants in a
vulnerable, succulent condition for a longer period of time. When
the soil is sodden with moisture for extended periods, fungi such
as Pythium and Phytophthora are active and infect
plants. Drier soil conditions, but with high relative humidity,
are favorable for Rhizoctonia. Most woody plants grow best
when the light intensity is high. Conditions that maintain high
humidity around plants such as cloudy weather, excessive shading,
and plants growing too close together also promote disease. Plants
growing in soils that are fine textured and poorly drained are more
prone to root and crown rot. Adequate soil fertility promotes seedling
vitality, but applying fertilizers with high nitrogen composition
induces excessive succulent new growth, prolonging the period when
plants are vulnerable to fungal infection.
Management strategies
Suppression of seedling root and crown rot involves the integration
of a number of approaches including all or several of the following:
site and soil preparation, sanitation, plant selection, proper fertilization,
and chemical treatments.
Site and soil preparation - maintain good drainage! Minimize
overhead irrigation and avoid splatter from puddled water. If plants
are in ground beds, make sure the soil is well drained and not previously
contaminated with plant pathogens. Place container plants on gravel
or a porous ground cover. Do not put them on plastic film or bare
soil. Prune plants and space them well to ensure adequate air circulation
and sunlight penetration. Avoid exposing young plants to hot conditions
and drying winds, but be sure they have adequate light (most woody
plants need at least 6 hours of sunlight unless they are shade tolerant,
understory plants).
Sanitation - Wash used containers in soap and water, then
disinfect them by soaking them in a fresh 10% (1 part bleach and
9 parts water) solution of household bleach. Pasteurize or steam
treat all soil used for potting plants, whether it is an amendment
to a soil-less mix or used as the whole planting medium. The entire
soil mass must be heated to 180°F for 30 minutes. In addition,
prevent recontamination of the sterile soil with dirt from unclean
benches, containers, or attached to tools and equipment. Monitor
plants regularly, and promptly remove affected plants and the soil
from the root zone.
Plant selection - When root and crown rot are persistent
problems consider growing plants that are resistant to the diseases
and/or are better adapted to grow under the site conditions.
Proper fertilization - Avoid excess fertilizer applications,
especially quick release nitrogen. This practice stimulates spindly,
succulent growth that prolongs the period during which young plants
are most vulnerable to root and crown rot diseases.
Chemical treatment - Fungicide drenches are frequently used
in nurseries for management of root and crown rot diseases in containers.
Obtain a laboratory diagnosis to determine the cause of the root
rot. Most fungicides registered for use against Rhizoctonia,
Fusarium and Cylindrocladium do not control Pythium
and Phytophthora. Remove and dispose of seriously affected
plants and the soil they were growing in. Soil fumigation with methyl
bromide or other soil sterilants may be practical in field nursery
situations. This is a costly and short term measure, but reduces
nematode and weed seed populations, as well as root and crown rot
fungi. Handle fumigants carefully. Some are highly toxic, and residual
fumigant in treated soil can kill plants.
Dan Gillman
UMass Extension Plant Pathologist
03/01
Diseases
index:
Apple Scab
Cedar-Apple Rust
Crown Gall
Dogwood Anthracnose
Fire Blight
Gynosporangium rusts
Juniper Tip Blight
Powdery Mildew
Seedling Root and Crown Rots of Woody Plants
Spore
Shooting Fungi
Verticillium Wilt of Woody Landscape
Plants
Volutella Blight and Stem Canker
on Pachysandra
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