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Tree, Shrub and Lawn Problems
Most damage or stress to plants in Montana is caused by
non-infectious conditions. Insects, disease, animals,
chemical and/or mechanical problems are expanded by
environmental and soil conditions. Problems most often
affecting Montana landscape plants are frost injury,
winter injury, crown dieback, sun scorch, sun scald,
inadequate pollination, thatch buildup in turf,
yellowing and poor drainage. |
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Winter Injury/Winterkill
"Winter" injury can occur at several times of the year
and when the plants are dormant, semi-dormant or
actively growing. In spring or fall, repeated freezing
and thawing of the soil can damage roots. Before plant
tissue hardens, extreme cold can cause injury. Prolonged
warm weather in mid-winter can break plant dormancy,
making them vulnerable to injury if extremely cold
weather follows. Heavy ice that remains on trees and
shrubs can damage a plant.
Plants show winter injury in a variety of ways:
blackened sapwood, injured cambium, death of leaves or
fruit buds, twigs or branches, and injury to roots or
crown. Full foliage may develop in the spring and then
suddenly die if winter root injury is a factor.
Management: Grow trees and shrubs that are winter-hardy
for Montana conditions. Plant the trees and shrubs where
they are protected from snow or ice buildup or remove
the buildup as it occurs.
Trees, shrubs and other ornamentals can be protected by
mulching around the base during the winter. With both
large deciduous and evergreen trees, the mulch should be
placed to allow water to run off and away from the base.
This is to prevent girdling by freezing and thawing of
ice. On small shrubs, the mulch should be extended out
to the edge of the dripline to protect the feeder roots.
This method is used to conserve root moisture and slow
rapid alternation of freezing and thawing of the soil.
Remove and work remaining mulch into the soil in the
spring. To prevent root kill, water trees/shrubs deeply
in late fall and during warm periods in winter. Caution:
Mulch may create added rodent activity. |
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Frost Injury
Flower buds are more delicate than leaves and can be
damaged even when the temperature is above freezing. A
spring freeze can kill tender young leaves. If damage
occurs during flowering, it may prevent pollination and
cause misshapen fruit. Sever injury can occur to buds,
open flowers (especially the pistils), leaves and
developing fruit. You can expect frost damage when the
wind is calm and sky clear after a cloudy day. The
clouds keep the soil surface cool, not allowing it to
store heat that could warm night air.
If hit hard by a freeze, the plants could die or lose
fruit and foliage production. When a spring freeze
occurs on flower buds, damage to the plant may only
effect that seasons' fruit and foliage and fully recover
the next season. Though a frost can also take place late
in the growing season, the plant's production usually is
not reduced enough to be noticed because harvest has
already taken place. Early fall frosts occurring before
plants harden or become dormant for winter can increase
winter kill. The entire mature plant may be effected or
just growth produced that season.
Management: Plant gardens (flower and vegetable) outside
after the last average frost-free day for the area. If
plants are frozen, a person can irrigate during the
early morning hours before and during freezing
temperatures to prevent some of the cell damage. If the
plants show visual decline after injury it may be
advisable to start over and not waste water and effort.
When planting, keep soil temperature in mind. The soil
must be warm enough for seeds to germinate or for plants
to start growing without stress.
Garden plants and small bushes should be covered with
cloth, hot caps, paper bags, plastic or other physical
coverings when a freeze is predicted to eliminate damage
from short freezes. If it frosts during the night and
plants were uncovered, spray them with water to turn the
frost to ice. The ice will melt slower than the simple
frost and reduce cell damage. Do this before the sun
hits and warms up the plant.
In late summer and early fall, nitrogen fertilizer
should be avoided because it induces fall growth which
can lead to freeze injury.
Also in early fall, about a month before average first
frost date, watering should be decreased to induce
maturation. Prior to soil freeze-up, a deep watering
should be applied to woody ornamentals. If a warm dry
winter should occur with temperatures in the 50's or
above for long periods of time, a person should consider
watering their plants. |
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Crown Dieback
When the tops of trees die, foliage begins to thin
out and leaves and needle growth is stunted. Drought,
poor drainage, root rot, insects and disease can induce
crown dieback.
Management: Water and fertilize trees and shrubs to
maintain vigor. Spring fertilizing just prior to bud
break, is best. Fertilization with nitrogen should not
be practiced after June 1 to allow trees and shrubs to
adjust to seasonal conditions and start to slow down
their growth during summer stress periods. If
fertilizers are used in late August or early September,
it may stimulate tender vegetative growth (second
growth) that may be damaged by early fall frosts.
Mulch and water in late fall. Plant adapted trees and
shrubs in well drained, fertile soils and maintain a
good insect and disease management program. |
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Sun Scald
There are two types of sun injury; winter and
summer, though winter injury is a much more common cause
of leaf drying and trunk cankers. Winter sun scald is
caused by rapid temperature changes. On a sunny day,
temperatures increase sufficiently on exposed bark
surfaces to thaw normally dormant cells. When evening
air temperatures drop or a cloud obscures the sun, rapid
cooling causes cell injury. Injury is especially common
on such thin, smooth barked trees as mountain ash,
apple, maple, and shrubs like dogwood.
Following the injury, affected tissues appear dull or
discolored, and there may be some shrinkage due to
drying. The bark loosens from the wood and the brown,
dead portions can be readily peeled from the underlying
wood, which may also be discolored if not severely
damaged. With severe injuries, the bark splits, cracks
and produces an open wound. Moderate types of winter sun
scald are confined to small, upper trunks or branches on
the southwest facing side of the plant. Severely injured
trees and shrubs may die later in the season, while
those less injured will heal and survive.
Management: Follow practices that prevent excessive
heating of the surfaces exposed to sun. Accomplish this
by shading to protect the bark from direct action of the
sun, or modify the plants' surroundings to avoid
reflection of sun rays. Control insects and prevent
fungi and disease from entering the damaged tree tissue.
Fertilize trees/shrubs in the spring to stimulate
growth, maintain them in good condition during summer
and fall.
Splits in trunk area and loose bark can be cut back to
tight bark to help stimulate regrowth. Use a sharp knife
and remove only the loosened bark up or down to where it
is firmly attached. If possible, trim bark in an
elliptical shape to enhance healing. In time, a new
ridge of bark will come into the damaged area. Apply
tree wound dressing to cracks and dry bark areas.
Reduce bark temperature fluctuations by wrapping with
foil, tree wrap or other reflective material. Painting
the trunks, especially on the southwest side, with white
(non-lead) latex paint will also help even out the
temperature changes. |
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Sun Scorch; Leaf Scorch
Tree foliage appears scorched as if by a fire. The
needles or leaves dry and turn brown from the tips down
or inward. Excess needle drop beyond the normal rate may
occur in the interior of evergreens. Tips of the
branches begin to die back. This type of injury shows up
when hot, dry conditions follow periods of cloudy, rainy
weather. Severe winter weather and mite injury cause
similar symptoms. Trees, shrubs and ornamentals usually
affected are those on exposed sites, close to buildings
or poorly maintained.
Management: Keep plants watered when it is hot and dry.
Grow in protected areas with rich soil. Plant winter
hardy varieties and maintain a proper insect management
program. |
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Pollination
Inadequate pollination occurs on all small fruit
trees and vegetables. Without insects, berries tend to
be small and are frequently malformed. Stamens of
primary flowers may not form well during the cool
weather of early spring, thereby creating a shortage of
pollen. In such cases, large numbers of pollination
insects are needed to insure a good fruit set. The
careless application of insecticides during blooming
could seriously reduce populations of pollinating
insects. Maximum yields and fruit size are achieved when
abundant pollinating insects are present. On cool,
moist, windy days, pollinating insects do not fly, and
on some days pollinating insects are only active in
protected areas, such as shelterbelts.
Management: Plant in wind-protected and sheltered areas.
Some varieties of apples and other fruits require two
trees for cross pollination. Check with our expert staff
for pollination information on your plants. Apply
pesticides late in the day to avoid exposure to
pollinating insects. |
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Thatch Build-up
Dead grass buildup on the soil surface can reduce
lawn vigor. This organic layer is a medium for fungi
growth. It also keeps the soil cool in the spring
delaying grass emergence and prevents fertilizer and
water penetration into the soil. Under summer heat
stress, excessive thatch may aggravate turf desiccation
problems by preventing water penetration to the soil.
This may cause localized dry areas, especially on high
spots where water runs off to surrounding turf.
When thatch builds up over one half inch, the lawn may
die or at least become thinner. If mechanical aeration
does not work, remove the thatch down to the soil before
reseeding. Seeding over thatch does not allow the seed
to reach the soil where the roots need to penetrate.
Power rakes set to touch the soil surface will aid
thatch removal.
Management: Remove the thatch and loosen the grass mat
by mechanical aeration. Clippings from normally
maintained lawns contribute little to thatch problems
but do contribute a significant amount of nitrogen as
they break down. |
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Snow Mold and Fusarium Patch
These diseases are especially severe on bent
grasses, but may also occur on other lawn grasses. Snow
mold, or winter scald, is caused by several different
fungi. It is most severe when snow covers grass for long
periods. It is particularly difficult to control if the
grass is green and actively growing when covered by
lasting snow.
Fusarium patch, also known as pink snow mold, can occur
during the growing season when humidity is high and
daily temperatures fall below 65 degrees Fahrenheit. Any
condition that keeps the turf excessively wet, such as
poor surface drainage, favors these diseases.
Symptoms: Snow mold symptoms appear first as a white
cottony growth on the leaves. As the leaves die, they
turn light brown and cling together. Diseased areas are
usually 1 to 12 inches or more in diameter and
discolored dirty white, gray, or slightly pink.
Fusarium patch is characterized by development of
irregular pale yellow areas from several inches to
several feet in diameter. Later, affected areas become
whitish gray. Sometimes the edge of an affected area has
a faint pinkish color.
Control: Condition of the turf as it goes into the
winter determines whether the snow mold fungus can get
established. Do not apply high nitrogen fertilizers late
in the fall, because that may stimulate growth and
result in a actively growing turf when it snows. Keep
the lawn cut in the fall to prevent a mat of grass from
developing.
In most situations, recovery occurs without special
chemical treatments. |
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Poor Drainage
Most fruit and ornamental plants are affected by
poorly drained soils. When roots sit in water, lack of
oxygen keeps them from developing properly and the
plants are weak. Root rot may result when roots are
under these conditions for prolonged periods of time.
Management: Water until soil is saturated but not soggy.
Allow soil to drain well between watering. You may need
to modify the soil by adding organic matter or sand.
To avoid problems, you can use a moisture meter to
indicate moisture levels. A simpler moisture test is to
use a spade to dig down 6 to 8 inches to reveal the
moisture conditions. If it is wet, wait several days (3
to 5) and check again. Once you do this several times,
you can estimate the amount of time it takes your soil
to use water and will be able to better manage your
watering. You may need to repeat this process during hot
or very windy weather, because the loss of moisture
through evaporation will dry the soil more quickly than
in cool calm periods.
To help loosen heavy clay soils, add gypsum or fish
meal. Sulphur could also be used, but though it would
lower the soil pH, it would do little to improve the
soil. These products can be broadcast over an
established lawn and watered in. Gardens, shrubs, trees
and roses can be treated by top dressing or by tilling
these products into the soil and by watering them in.
Sand (80% by volume or greater) can be added as a
permanent way to improve drainage. Use of french drains
in localized poorly drained areas may also be helpful. |
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Yellowing Turf
Grass may turn yellow due to over watering, poor
drainage or lack of nutrients. Nitrogen deficient turf
appears yellowish throughout the plant, and if it lacks
iron, the yellowing appears between leaf veins of new
leaves only.
Over watering leaches out nutrients such as nitrogen and
potash from the root zone of the grass and creates a
deficiency.
Yellowing can occur because of porous soils (sandy,
rocky, etc.). When the grass has a nutrient problem
following drought, at first the symptoms will be a dark
grey green color and wilting (foot printing when walked
upon). These symptoms are usually followed by yellowing
or browning.
Management: Manage water and add nitrogen and/or iron.
In poor soils, fertilizing as often as once every two
weeks may be needed if a lush lawn is desired. However,
this depends upon analysis of the fertilizer. Organic
fertilizers are available more slowly, can be applied at
higher rates and used less frequently, perhaps twice a
season. In sandy soils, nitrogen can leach out quickly.
To alleviate this, apply half as much but twice as
often. |
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Yellowing Plant Leaves
As with turf, yellowing may be the result of
nitrogen deficiency, iron deficiency or poor soil and
water drainage.
A frequent cause of chlorosis or yellowing plants is the
unavailability of iron. Iron is required to form
chlorophyll,the green pigment in plants. Without
adequate iron, chlorophyll cannot by synthesized and the
leaves yellow. Iron deficiency may lead to stunted or
weakened plants and, often, decreased yields in fruits
or reduced attractiveness in ornamentals.
Iron deficiency symptoms are seldom due to a lack of
this element in the soil, but often are the result of
soil conditions which make the element unavailable. In
Montana, one of the major causes of iron deficiency in
plants is alkaline soils. Under alkaline conditions,
iron is complexed with phosphorus in a form not
available to plants. For this reason, applications of
the common iron compounds seldom correct iron deficiency
chlorosis for long.
Certain plant species appear to have greater
requirements for iron than others or else have less
ability to acquire the element from the soil. Some of
the plants most often observed to suffer from iron
deficiency chlorosis in Montana are apple, gladiolus,
maple, peony, plum raspberry, rose and strawberry.
However, it is probable that vigor and appearance of
others could be improved by adequate iron supply.
Affected plant leaves usually provide the quickest means
of determining iron deficiency. Plants suffering from
lack of iron typically show a yellow to white color in
the interveinal areas of the younger leaves only, but
the principal veins of the leaves are usually sharply
marked in green. Iron deficiency symptoms may be
expressed only by a few leaves, branches, or the entire
foliage.
Management: Numerous practices have been used for
correcting iron chlorosis, but some of these are
effective only under limited conditions. Iron can be
applied to plants by:
1. Foliage application: Plants can absorb materials
through the surface of the leaves and overcome soil
fixation of iron. Several spray treatments may be
required during the season to prevent chlorosis in later
developing leaves.
2. Soil application: This method involves direct
treatment of the soil with iron compounds. The materials
may be applied in holes or ditches around bases of
plants or else broadcast on the soil surface and then
worked in.
Chelated iron gives excellent results for soil treatment
of iron deficiency chlorosis in many plants. It is
important that the soil be well watered after the
chelates are applied so that the compound penetrates to
the roots. Excessive watering should be avoided to
prevent leaching of the chelate.
3. Altering soil pH around affected plants root zone by
incorporating elemental sulfur (95%), gypsum, aluminum
sulfate and other sulfur products to release soil pH
bound iron, as well as improving effectiveness of
chelated iron products.
Acknowledgements: This information taken from
Circular 9001, by Laurence Hoffman, MSU Extension Agent,
Lewis and Clark County, supplemented and reviewed by:
Amy Grandpre, Yellowstone County Horticulture Assistant;
George Evans, MSU Extension Horticulturalist; and Kevin
Laughlin, Toole County Extension |
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 Ranunculus
Radiant |
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 Peony
Bashful |
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 Iris
My compliments |
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