U. S. DEPARTMENT OF AGRICULTURE.
DIVISION OF VEGETABLE PHYSIOLOGY AND PATHOLOGY.
AND OBf
B. T. GALLOWAY AND ALBERT F. WOODS,
Chief and Assistant Chief, Division of Vegetable Physiology and
Pathology, U. S. Department of Agriculture.
[Reprinted from the Yearbook of the Department of Agriculture
for 1896.]
m V 1 1
i
/
CONTENTS.
Page.
General remarks . 237
Diseases due to soil conditions 239
Lack of food and water 239
Imperfect circulation of air in the soil 240
Gases and other poisonous substances in the soil _ 242
Diseases due to atmospheric conditions 242
Desiccation, or drying out 243
Excess of atmospheric moisture 244
Low temperatures - 245
Injurious gases in the air 247
Fungous diseases 247
Root diseases 248
Diseases of roots and branches 252
Miscellaneous fungous parasites of the stems and branches 253
Fungous diseases of the leaves 254
ILLUSTRATIONS.
Page.
Fig. 53. Stag head soft maple 241
54. Trunk of maple showing spread of fungous mycelium 248
55. Root-rot fungus ( Polyporns versicolor) 251
56. Fungus causing red rot of oak 252
57. Hectria cinnabarina - . 253
II
DISEASES OF SHADE AND ORNAMENTAL TREES.
By B. T. Galloway and Albert F. Woods,
Chief and Assistant Chief , Division of Vegetable Physiology and Pathology ,
U. S. Department of Agriculture.
GENERAL REMARKS.
Speaking generally, the diseases of trees may be divided into two
classes: (1) Those in which conditions of soil and climate are the con-
trolling factors, and (2) those where parasitic enemies, such as insects
and fungi, are the principal agents involved. Some of the more
important insects were described in the Yearbook for 1895, and there-
fore the present remarks will be confined for the most part to the
diseases in which conditions of soil and climate and parasitic fungi
are involved.
No sharp line can be drawn between the two classes of diseases to
which reference has been made. If they were controlled by a single
set of factors, this might be done, and the question of identifying them
would then be a very simple matter. Complications, however, are
always involved, and these become more intricate the more they are
investigated; in other words, the tree is ready at all times to adapt
itself, within certain limits, to surrounding conditions, and in doing
this elements of weakness may be develojDed which will result in dis-
ease or death. The adaptability of trees, therefore, to environment
is a most important matter in considering the question of diseases,
and to properly understand the latter it may be well to briefly review
some of the more important points involved in the former.
It is a matter of common observation that different types of soil and
climate support different kinds of trees and other plants. It is not
always, however, because we find certain kinds of trees growing in
certain soils and under certain conditions, that the peculiarities of the
soil and surroundings account for their growing there. Such trees
may grow very much better under different conditions if an oppor-
tunity is offered ; otherwise they will continue to grow where they are,
at the same time tacitly protesting against their environment by
responding to the more suitable surroundings if they appear.
An important matter for consideration in the question of adaptation
of plants is the fact that the individual is much more susceptible to
changes than is the species as a whole. For example, an individual
white oak tree in a moist, warm region would make a growth which
would quickly dry up if moved to a region where moisture is deficient,
237
238 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
but where other white oaks were growing, whereas if it had been
started from the first in the dry region it would have adapted itself to
the conditions and thrived there. Conversely, the tree growing in a
dry region or place, if moved to a wet location, is liable to suffer, as
it is unable to adjust itself to such a sudden change. It is a common
practice to transplant trees from the forest to yards and other places
where the conditions of soil and air are quite different from those
under which the plant originally grew. In such cases it is difficult
to get the trees to live, owing to their inability to adjust themselves to
the new requirements. If they do not entirely succumb to the effects
of changed surroundings, they may, during the period in which they
are trying to adjust themselves, be attacked by parasitic enemies,
which will simply result in death in another form.
From such facts as here adduced it would appear that disease or
death of trees is largely the result of combinations of unfavorable
factors, and that where these latter are favorable to the performance
of the normal functions of the trees they might continue to live indef-
initely. Unlike an annual or biennial plant, a tree renews itself
each year by a thin layer, which forms between the old bark and the
wood. This layer is the starting point for the next generation, so
that we have a great mass of dead and dying generations within,
coated outside with a live generation, which is just as distinct indi-
vidually from previous generations as a new plant produced from
a cutting or bud is distinct from the parent, and which, therefore,
strictly speaking, is never old.
As long as the conditions for obtaining food and water from the soil
and for conducting these to every part of the tree are favorable and
the effects of climate are not detrimental to growth, the living portion
of the tree should be as vigorous as ever. These conditions, however,
are seldom attained, and as a result the duration of life is long or
short according to the ability of the tree to overcome the difficulties
in the way of its development. Thus, if there is a continual drain on
the supply of soil foods, with no addition, the tree will eventually starve
to death or become so weakened that it will succumb to the attacks of
parasites; a period of drought may kill many feeding roots, branches,
and leaves, and as these decay openings will be left for parasitic fungi;
a period of cloudy, wet Aveather may do the same by asphyxiating
many roots and leaves; a severe cold spell may “kill back” young
growth and injure the young leaves in the spring; a late, warm, and
moist fall after a dry summer may induce a fall growth which can not
mature sufficiently to Avithstand winter cold, and is thus “killed back; ”
insects may defoliate the branches and borers mine the trunk and
limbs, and thus cut off the distribution of food and water and make
openings for the entrance of parasitic fungi; parasitic fungi may
attack some part of the tree under certain favorable conditions with-
out the tree being previously injured; a tender vegetative growth,
DISEASES OF SHADE AND ORNAMENTAL TREES.
239
although perfectly healthy and normal, may at a certain phase of
development he unable to resist the attacks of certain parasites, while
later the parasite may not be able to gain entrance; the chemical com-
position of the juices, -or the prevalence of sugar, starch, and acids
or bases, may make it possible for parasites to attack the tissues
during certain stages of growth, and thus produce disease.
From the foregoing, it will be seen that any disease, no matter how
simple it may appear on the surface, involves complications which
require careful study, and it is only such study that will enable the
intelligent grower to obtain the highest success in his work.
DISEASES DUE TO SOIL CONDITIONS.
LACK OF FOOD AND WATER.
A disease known as “stag head” or “top dry” frequently results
from lack of proper food in the soil. The trouble manifests itself by
the gradual death of the top of the tree, the lower branches remaining
green, but making little active growth. It is common in forests,
especially where the conditions have been changed by cutting out or
burning the undergrowth, by greatly thinning out the trees,1 or by
excessive drainage of moist areas. It often appears in parks where
the natural undergrowth has been cut out and the trees have been
thinned, thus exposing large areas to the sun and the washing effects
of heavy rains. In such cases there is at first, as Hartig points out,
an accelerated decomposition of the humus which covers the soil. At
the same time the manufacture of sugar and starch by the leaves is
increased, owing to an increased supply of light. Stimulated by this
increase of food, all the benefited trees make a more vigorous growth,
dormant buds developing into leaves and branches, especially in the
previously shaded lower parts of the trees. This may continue for a
few years, or until the stock of humus and other available food mate-
rial is reduced. The soil then dries out to a considerable depth during
the summer, and as a result many of the upper feeding roots are
killed, the natural processes which render plant food available are
interfered with, and starvation begins. As the soil becomes poorer
and poorer the lower branches appropriate most of the food and water
and the upper ones, not being able to obtain their share, die.
Trees planted in parks, in yards, and along streets are especially
subject to this disease. Growing year after year where there is no
addition to the available soil foods, especially nitrogen, and where the
soil is dried out by the sun and grass, starvation necessarily follows.
The tree therefore gradually stops growing, the branches and limbs
slowly die, and other diseases set in, until finally the last branch is
dead. Another cause of this trouble is often found in the process of
grading, which removes what good surface soil there is, leaving one
1 Hartig, Diseases of Trees, pp. 270-272.
240 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
not only of poor physical quality, but also lacking in nitrogen, if not
in other available soil foods. In planting trees in such places a hole,
possibly of sufficient size,- is dug, and the tree is set in this, probably
with some richer soil, which will furnish food for an indefinite period,
according to its quality and amount. If the quality of the soil is
poor and the amount small, the tree will begin to starve in five or six
years; if the quality is better and the amount larger, it will last for a
much longer period. But no matter how good the soil may be to start
with, unless the food supply is properly renewed it is sure to become
exhausted as far as the tree is concerned, and starvation, with all its
incidental troubles, will follow. (Fig. 53. )
Preventive measures. — It is evident that a constant supply of proper
food is necessary to prevent this disease. If the soil is naturally rich,
well drained, and of good texture, little need be done in the way of
improving it. Wherever practicable, the ground underneath the tree
should not be completely sodded, but should be planted to low-grow-
ing, shade-enduring plants, so that most of it may be worked and
top-dressed each year, thus keeping up the food supply and the proper
aeration of the soil. The poorer the soil the greater the precautions
that must be taken in this direction. When trees are to be set in very
poor soil, as is often the case in cities, a hole at least 8 feet long, 2
feet deep, and 3 feet wide should be excavated and good soil sub-
stituted for that removed. Along streets and walks as large a park-
ing as possible should be left around the tree. Each year this should
be spaded as deep as possible without injuring the roots, and then
top-dressed with good rotten manure enriched by a sprinkling of
ground bone. Grass or weeds should not be permitted to grow in this
area, nor should the ground be allowed to become trampled down. If
these precautions are taken, the health and life of the trees will be
extended many years beyond what they would under less favorable
conditions.
IMPERFECT CIRCULATION OF AIR IN THE SOIL.
The proper aeration of the soil has an important bearing on the
health of trees. The amount of air and its circulation are affected by
the size and arrangement of the soil grains, amount of water present,
proximity of pavements, filling, grading, etc. Whatever may be the
cause of imperfect aeration, the effects are far-reaching and impor-
tant. In the first place, nitrifying organisms can not carry on the
important process of fixing atmospheric nitrogen in soils deficient in
air, especially its most important element, oxygen, while other sim-
ilar organisms may even cause the destruction of what nitrates there
are present. This is particularly true of wet soils and those of very
close texture. The presence of much water between the soil grains
prevents the circulation of air, and there is consequent loss of nitrates,
the most valuable of all soil foods. But aside from this important
consideration the plant roots themselves require a plentiful supply of
DISEASES OF SHADE AND ORNAMENTAL TREES.
241
oxygen in order to carry on tlieir own life processes. Growth can not
take place without it, neither can the formation of reserve materials.
These processes are especially active in roots. .V deficiency of oxygen
for roots at once becomes apparent by cessation of growth, and, if too
long continued, by the death of the roots, followed by starvation and
death of the whole plant.
Trees are often injured in poorly drained soils during a wet period.
Of course, if the presence of water is constant and the tree has grown
up under these conditions,
it will produce many sur-
face and water roots, thus
adapting itself to a wet
situation. We refer here,
however, especially to soils
which are too wet only at
certain periods — low
places, underlaid by hard
pan; where ground water
comes close to the surface;
or in stiff soils, which,
becoming saturated, hold
water for a long time. The
roots produced in the
rather dry or moist soil are
injured or killed during
wet periods, especially the
deeper ones, like the tap-
root and the lower laterals.
A prolonged wet period fol-
lowed by a very dry one is
liable to completely kill the
tree under such conditions.
In some of the close-
textured soils of the West
and Southwest, naturally
deficient in aeration, trees
often suffer or are killed
during the rainy season,
or by excessive irrigation.
When the roots are not killed, they are so weakened as to be made
subject to the attacks of various root-rot fungi.
Trees planted along the paved streets of towns or cities nearly
always suffer from a lack of aeration of the soil. The exchange of
gases between the soil atmosphere and the air is greatly retarded by
pavements and walks and by the hard-packed surface of roads which
are not paved. This trouble is especially liable to occur along streets,
12 a96 1G
Fig. 53. —Stag head soft maple.
242 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
where the ground water is only a few feet from the surface. During
prolonged rainy weather the water rises, making the soil wet up close
to the surface. The pavement adds here to the evil of poor under-
drainage, preventing evaporation and aeration.
Another means of cutting off the soil air is by filling and deep plant-
ing. It often happens in grading that soil is filled in around trees,
sometimes to a depth of several feet.' In naturally well-aerated soils
the damage that may result from this practice is not so great or so
soon apparent. No special harm may result in such soils if the amount
added is not more than a foot in depth, but where it exceeds this
more or less rapid asphyxiation of the roots and lower part of the
trunk will follow. The tree may not be killed, but it will at least be
greatly checked and stunted in growth, making it more subject to
other diseases.
The same troubles often result from- too deep planting, especially
in heavy soils. The deeper roots rot, and the tree makes a slow,
stunted growth, and sometimes lasts for many years, when it either
dies of its own accord, is blown over by the wind, or death is hastened
by some parasitic disease. Large numbers of young trees set only a
few inches too deep are killed in this way.
Preventive measures. — In all cases where there is a lack of aeration
steps should be taken to keep the ground around the trees stirred. In
cities parking must be left, and where the ground is hard it should be
frequently spaded to a depth of 6 to 8 inches, as already described.
Where the ground has been filled in around the trees, the latter, if not
too old, may be saved by removing small patches of bark down to the
wood. This should be done at points beneath the soil so as to induce
the formation of new roots from the wounds. Some trees, like willows,
poplars, beech, and horn beam, but especially shrubs, produce adven-
titious roots just beneath the surface of the ground, and these are able
to preserve the trees though the deeper roots may be killed.
GASES AND OTHER POISONOUS SUBSTANCES IN THE SOIL.
Asphyxiation of the roots of trees is sometimes produced by illumi-
nating gas which has escaped from some gas main near by. It proba-
bly also acts as a direct poison. Diseases produced by other poisonous
substances in the soil or by too great concentration of substances not
poisonous are too rare to warrant their treatment here. The injuries
from escaping gas can be remedied only by stopping the leak, and
after removing as much of the old soil as possible filling in with fresh,
rich earth.
DISEASES DUE TO ATMOSPHERIC CONDITIONS.
As already pointed out, no sharp line can be drawn between the
diseases due to conditions of the soil and of the air. As a matter
of fact, a weakened state of the tree, due to certain conditions of
the soil, will make it all the more liable to succumb to atmospheric
DISEASES OF SHADE AND ORNAMENTAL TREES. 243
influences. Again, it may happen that very favorable conditions of
the soil may start growth at a time when it might be injured by cold
or other conditions of the atmosphere.
DESICCATION, OR DRYING OUT.
Young leaves and sometimes tender shoots which have pushed out
during a spell of cold or cloudy, moist weather frequently wither and
die when suddenly exposed to bright, hot sun . This is ordinarily called
sun scald. It is not, however, a true scalding of the tissues, but is due
to the fact that the latter lose water more rapidly than they can obtain
it, and so wilt and dry out beyond the power of recovery. The excess-
ive loss of water is brought about mainly by the leaves produced in very
moist air not being adapted to resist excessive evaporation, even when
there is an abundant supply of water in the soil and in the main parts
of the plant. The trouble occurs more often in spring, when growth
is rapid, and cloudy, moist days are followed by hot, dry ones. Later
in the season the death of the margins and tips of the leaves of a
great variety of trees, shrubs, and other plants is often observed.
This is especially noticeable when a rather moist spring, favorable to
growth, is followed by dry and very hot weather. Trees making a
poor, stunted growth suffer most, although any tree is liable to injury
if the right conditions prevail. In parts of the West and Southwest
the disease described is produced in a very short time by hot, dry
winds, which sometimes sweep over the country. Frequently the
leaves are literally cooked, but oftener the edges wilt, turn red or pale
yellow, and then dry up.
Desiccation may also occur in the winter; in such cases parts of the
tree or even the entire tree may be killed. Evergreens, especially
pines, are frequently seriously injured from this cause. A few warm
days occurring at a time when the roots are frozen or when the ground
is so cold that it hinders root action, cause the needles to turn reddish
yellow and fall. Frequently only the tips of the needles at the ends
of the branches are affected, and again young and exposed trees may
be thoroughly dried out and killed. Cold, dry winds may bring
about the same effects as warm ones with sunshine. Any conditions,
in fact, which will cause a more rapid evaporation of water than the
roots can supply will, if continued a sufficient length of time, even-
tually result in the injuries described.
Preventive measures. — In cases such as have been referred to it
would be difficult to cany out remedial measures. In most instances
the injuries are done before any steps are taken to prevent them, and
of course it is then too late to save the tree or the parts of it that may
have been injured. _ The efforts of growers, therefore, should be
largely toward keeping the trees in such condition that the injuries
may be prevented. The means of preventing summer desiccation,
while simple in themselves, are not always easily carried out. In
244 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
cases where the injury results from imperfect root action owing to soil
conditions, the latter may be changed by drainage, by cultivation,
and in other ways by which more air is given to the roots. If the soil
is too dry, as is often the case, its water-holding capacity may be
improved by proper cultivation, by the addition of organic matter or
humus, by mulching, etc. Top-pruning in dry seasons will often
check the excessive demand for water and thus prevent injuries to
the remainder of the tree. At present there seems to be no practical
way of preventing the sudden damage which may be done by hot
winds, except by copious watering of the soil, and even this may not
always prevent serious injury, owing to the rapid evaporation at such
times.
In the matter of preventing the winter ‘‘blighting,” or drying out,
of evergreens, every effort should be made to keep the roots in such
condition that they can respond when a demand for water is made
upon them. It is evident that if the soil is well dried out when winter
sets in injury will result whenever the conditions already described
prevail. When practicable, therefore, liberal applications of water
to the soil may enable the trees to successful^ pass through winters
which, if such precautions were not taken, might prove injurious.
Liberal mulching with straw or manure may also prove beneficial
both as a conservator of the moisture and as a means of preventing
the ground from freezing too deep and hard.
The most trying time for the trees is when they are young and
small, that is, before the roots have extended very deep into the soil.
At very little expense, however, such trees may be protected from
both wind and sun by straw.
EXCESS OF ATMOSPHERIC MOISTURE.
During periods of long-continued rains or fog, evaporation from the
leaves of trees is slow, and as a result the entire plant becomes charged
with water. One of the results of this is an unusual mechanical stim-
ulation of growth, and this growth is increased by changes in the cell
contents, which give the cell in question an abnormal attractive power
for water. XJnder these conditions nutrition is interfered with and
the growth produced is thin-walled, unhealthy, easily dried up, and a
ready prey for insects and fungi. Older parts of the plant are affected
by these conditions in various ways, one being the production of little
warts and swellings by the abnormal growth of cells, as described
above. These may appear on leaves or stems, the tissues of which
still possess some power of growth.
It often happens that leaves in the diseased condition described
become water-logged in spots. This is especially common where
two leaves are stuck together with a film of water, instances of
which have been observed this year on the Norway, the hard, and the
soft maples, as well as on various other trees and shrubs. The close
DISEASES OF SHADE AND ORNAMENTAL TREES.
245
contact of tlie water with the cells of the leaf is very favorable to its
absorption. Wet, translucent spots appear, especially around any
little injury like the puncture of an insect or tear in the leaf surface.
The presence of this water between these cells cuts olf their supply
of oxygen, and consequently they soon die and turn brown. The
same trouble occurs when the leaf surface remains wet for twenty-
four to forty-eight hours, even though not stuck to another leaf.
The conditions about Washington, D. C., for example, have been un-
usually favorable to this trouble during the present season. In early
spring vegetation was at first a little retarded by cool weather, but
this was suddenly followed by good growing weather, during which
the leaves of most trees and shrubs, especially those of Norway maples,
pushed out with great rapidity. This latter period was followed by
one quite dry and warm, during which red spiders increased to unu-
sual numbers, particularly on the lower and more protected leaves of
the crown. After this came a period of several days of rain y weather,
and many of the spiders were washed off, but the leaves where they
had been working became water-logged, as described elsewhere. The
Norway maples and horse-chestnuts suffered most, the leaves of these
trees in many cases appearing to have been scorched by fire.
Preventive measures. — Water logging and other injuries resulting
from an excess of moisture in the air are not easily prevented; in
fact, it is questionable whether anything practical can be done in
such cases. However, trees can be made much less liable to such
trouble by proper care in planting, feeding, etc. As already described,
such trees as Norway maple and horse-chestnut, which are peculiarly
susceptible to injuries of this kind, require special care, and it is a
question whether it would not be best in the end to discard them
entirely where the conditions are such as to make it almost impossible
to keep them in health.
LOW TEMPERATURES.
The injuries from freezing are closely related to those brought on
by desiccation. In fact, freezing of the tissues is a drying out of the
water which they contain. If the tissues are dried beyond the point
where they are able to again take up water, they are killed.
In a state of maturity and rest most of our trees and shrubs indige-
nous to regions subject to frosts stand freezing without the slightest
injury, provided they do not thaw out too rapidly. In case of plants
introduced from warmer climates, however, all degrees of ability to
withstand cold are to be found, some being killed by the slightest
frost, while others appear to adapt themselves readily to the changed
conditions and withstand quite severe freezing. The fact that trees,
especially exotics, growing in wet situations are more easily injured
by cold than those growing in drier places, is probably because the
former do not mature their growth, while the latter do to a great
246 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
extent. This is true also as regards the more succulent parts of
plants, which are notably more subject to frost injury than the drier
portions. Smooth-barked trees sometimes have their trunks and
larger branches injured on the southwest side during winter, the
injuries being characterized by the death of large patches of bark.
During the latter part of winter and early spring, when there are
periods of several days of warm weather, the cambium on the south
side of the trunk and larger limbs is stimulated to premature activ-
ity. If the warm spell is followed by cold, freezing weather, these
partially active areas will be killed, after which they gradually dry
out, the bark, young wood cells, and cambium shrinking. After a
time the bark separates from the wood and finally splits. This may
not occur until pretty well into the summer months, and may not
then be evident except upon close examination. During rains these
portions become water-soaked, various ferment and decay-producing
fungi gain entrance, and the rotting of that part of the trunk begins,
extending rapidly from year to year, until the tree either blows over
or is killed.
Cracks occur in a great variety of trees during very cold spells,
especially when the fall of temperature is very sudden. It is a well-
known fact that trees shrink under the influence of intense cold in the
same way that felled timber does in drying. This shrinkage is due to
the withdrawal of water from the cell walls, in the first case by freez-
ing and in the second by evaporation. The extent of shrinkage is
dependent upon the amount of water withdrawn. The cell walls of
the outer new wood usually contain more water than do the walls
of the heartwood. The outer wood will shrink in drying more than
will the inner wood and will therefore split. The chance of splitting
is greater when the outer-wood layers freeze before the inner ones, as
they do during a sudden fall of temperature. This is Hartig’s expla-
nation of frost cracks and the one which has the most experimental
evidence in its favor. Other explanations have been given, but it will
be unnecessary to discuss them here. The cracks usually close up
again during warm weather and ultimately heal over, doing little
damage to the trees from the standpoint of this article.
Preventive measures. — The injuries to the trunks and branches by
alternate freezing and thawing and the diseases resulting from them
may be prevented by shading the parts exposed to the sun by means
of a board set up on the south side of the tree, or, as is sometimes
done, by screening the parts with straw, burlap, building paper, or
ot her material which may be easily fastened to the trunk and branches.
When once injuries of this kind have been produced, the dead areas
should be cut out down to the healthy wood and the wound thus made
covered with coal tar, varnish, or “hard oil.”1
Yearbook of the U. S. Department of Agriculture for 1895, pp. 257-300.
DISEASES OF SHADE AND ORNAMENTAL TREES.
247
INJURIOUS GASES IN THE AIR.
In the vicinity of manufacturing establishments and often in cities
and tillages where large quantities of bituminous coal are used,
vegetation, especialty trees and other woody plants, are frequently
seriously injured by the fumes which are thrown off iff to the atmos-
phere. Smelting works, fertilizing manufactories, brick kilns where
soft coal is used, and similar establishments are the principal agen-
cies involved. Frequently the injuries maybe limited to a small area
immediately adjacent to the factory or other place from which the
fumes are given off. Again, the effects of gases may be seen for
several miles, usually extending farthest in the direction of the pre-
vailing winds. The effects of such gases on the trees are various,
and it is often difficult to distinguish the injuries produced in this
way from those resulting from purely climatic causes. From the evi-
dence at hand it appears that the chief injury in such cases is due to
sulphurous and hydrochloric acids, acting singly or in combination.
The effects of these poisons are shown by the leaves turning reddish
brown in spots or along the edges and eventually drying up entirely.
The injuries are cumulative, certain branches of the trees being killed
each year, while the others may make a feeble, struggling growth,
owing to the cutting off of the food supply through the injuries to
the leaves.
Preventive measures. — The question of remedying or preventing
such evils is an important one and may often involve complicated
legal questions. It may happen that the establishment of a factory
in a certain neighborhood will result in much injury to farmers in the
immediate vicinity by destroying their trees and crops. All the evi-
dence goes to show that little can be done toward mitigating the
trouble in the way of special apparatus for collecting the gases, high
chimneys, etc. The question therefore resolves itself into one respect-
ing the rights of the farmer on the one hand and the factory owners
on the other. These matters, however, are beyond the province of
this article.
FUNGOUS DISEASES.
All portions of the tree are subject to the attacks of fungi — minute
parasitic plants, whose vegetative parts, known as mycelium, pene-
trate the tissues and by their action on them cause the various forms
of blight, rot, etc. The fungi are rapidly propagated by means of
spores and also in other ways, which do not concern us here. There
is a very close relation between these organisms and the various other
factors, such as the condition of the air, soil, etc., already discussed.
In other words, the growth and development of the fungous parasites
are intimately related to the condition of the host, which is in turn, as
we have already seen, materially affected by the weather and by the
soil. There are many fungi which under ordinary conditions could
248 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
never injure a tree, and yet if by some chance a favorable opportunity
is offered they may prove quite destructive. (Fig. 54.) For example,
a limb may be blown or cut off, hail may make a bruise, or in other
ways wounds maybe produced, and in these the spores of certain fungi
may lodge and germinate and start decay that could not have been
produced in any other way. Trees ma}r succumb to the attacks of
fungi only in certain stages of growth. Thus, young conifers are
seldom affected by the disease known as canker, because any wound
made in the trunk or branches is quickly covered with a coating of
resin, which prevents the spores of the canker fungus from developing.
When the trees get to be quite
old, however, the wounds are
not covered with resin and the
spores of the canker fungus fall
in these places, germinate, and
spread into the surrounding
tissue, and the tree is killed.
On the other hand, the young,
tender, rapidly growing tissues
are more susceptible to the
attacks of certain fungi than
those older and better matured.
With these introductory re-
marks, we may now pass to
some of the diseases in detail.
•
ROOT DISEASES.
In considering any case where
fungi are found attacking the
roots the importance of the
previous effects of soil condi-
tions must not be overlooked.
An injury or a weakened con-
dition produced by any of the
means already pointed out may
permit the entrance and devel-
Fig. 54.-
Trunk of maple showing spread of fun-
gous mycelium.
opment of some disease-producing fungus which might not otherwise
gain entrance or find suitable conditions for development. On the
other hand, there are fungi which, while they are better able to develop
under these conditions, are nevertheless able to gain entrance into and
kill what appear to be perfectly healthy roots.
Southern root rot. — This disease, which is produced by a fungus
known as Ozonium auriconiurn , attacks a great variety of trees and
other plants, including the elm, basswood, oak, cottonwood, mesquite,
china tree, mulberry, etc. It also attacks cotton and the sweet po-
tato— in fact, no plant appears to escape except the plum and some
closely allied groups.
DISEASES OF SHADE AND ORNAMENTAL TREES.
249
The disease first becomes apparent by the sudden wilting of the
leaves, and soon the death of the tree follows. Examination of the tap-
root and many of the other roots shows them to be dead and partly
rotten, and thus unable to furnish the top with water or food. Trees
growing in well-drained and well-aerated soils are seldom attacked,
while those in soils very retentive of moisture are the first to succumb.
The disease is confined largely to the Southern and Southwestern States,
and is especially bad in wet seasons and where excessive amounts of
water are used in irrigation. If the roots are examined closely, a
whitish or usually yellowish-brown growth of loosely interwoven, hair-
like threads will be seen on the surface and in the decaying tissues.
These are not confined to decaying parts, but attack apparently healthy
roots. Once inside, the fungus spreads rapidly through the cortex
and wood, killing the cells and causing their decay. Only the myce-
lium, or plant body, is known, and this is reproduced from branches
or pieces which may be broken or washed off. It has been observed
growing in decaying vegetable material taken from the side of an
irrigating ditch which furnished water for pears, cottonwood, alfalfa,
and other plants dying from the disease. It is probable, therefore,
that it may sometimes be distributed in this way. It spreads along
roots and decaying material from plant to plant through the soil, and
its distribution may also be hastened by tools used in cultivation.
Treatment. — It is seldom that a plant once attacked can be saved, as
the trouble is not apparent until the root system is nearly destroyed.
If there is any reason to fear this disease, trees should not be set
on recently cleared land until the roots of the original vegetation
have rotted and the soil is cleared of sticks, limbs, etc. If the
trouble appears, the diseased trees should be removed, with as much
of the root system as possible, and the roots burned; or it is still
better to cut the tree down, leaving a stump 1 or 2 feet high, and
then remove the earth about the roots and allow them to dry out.
When dry enough the stump should be burned in its original position.
Most of the fungus will in this way be burned and that in the neigh-
boring soil killed. Every precaution should be taken to keep the
soil well drained, well aerated, and free from weeds.
Honey mushroom ( Agaricus melleus).— Another form of root rot
is produced by the mycelium of the honey Agaric, or mushroom.
The general appearance of the diseased plant is much the same as
when attacked by the Southern root rot. Young trees may be killed
within a year, but older ones show a weakened, stunted growth, and
finally, after several years, dry up suddenly and die when a hot,
dry spell comes on. Upon examination the bark at the base of the
trunk and on the larger roots will be found to be dead. If a portion of it
is removed, a white, leathery growth will be seen between the bark and
the wood and between the different layers of bark. It may often
be taken out in large sheets of varying thickness. The same will be
found between the cortex and wood of the roots. On the outside of
250 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
tlie roots and in the surrounding earth dark- brown strands, varying
in thickness from one twenty-fifth to one-twelfth of an inch, will be
found. These may in many cases be traced to the white mycelium
between the bark and Avood. It is simply the mycelium growing in
a different form, as it is not subjected to pressure between the bark
and wood. These Rhizomorphs, as they are called, spread a few
inches under the surface of the ground from tree to tree, and thus
large areas may become diseased from a single center. In the
autumn, from the base of the diseased tree and from exposed roots
and Rhizomorphs, the fruiting bodies of this fungus develop. They
are yellowish-brown, and are from 3 to 8 inches high and 2 to 4 inches
across the top.
Treatment. — When once a tree is attacked by the fungus, there is
no hope of saving it. If the tree is one of a group, it should be
isolated by digging a ditch around it. The ditch should be dug deep
and wide enough to get beyond the point where the brown strands of
the fungus have reached. This precaution will be necessary only
with the pines and allied trees, as others are not usually attacked
unless first injured.
Polyporus versicolor. — There is good evidence that this fungus,
which is a very common one, may produce root rot in many trees.
It is probable, however, that such trees have been previously weak-
ened, thus giving the fungus an opportunity to get in. When it
occurs on the side of a stump or root, it forms a thin, rigid, shell-
shaped growth, extending out at right angles to the surface. Usually
many grow together, more or less united to each other at the back.
The individual shells vary in size from one-half inch to 2 inches or
more in diameter. The concave surface is always down and is made
up of a layer of very small pores, in which the spores are produced.
This porous surface is usually of a whitish-yellow color. The upper
surface is shining, smooth, and velvety, marked with various dull-
colored zones. (Fig. 55.)
The mycelium forms a white, felt-like covering on the roots, pene-
trating and causing the decay of the bark and wood. The first indi-
cation of the disease is in the decreased production or stunted growth
of the wood and a tendency to overproduction of fruit. Examination
of the roots of such trees reveals the white felted fungous strands,
which continue to increase in abundance until the roots are nearly all
rotted off. It is usually several years from the time a tree is first
attacked until its death.
The mycelium spreads from tree to tree along decaying roots, so
that in the course of years the trees over large areas are destroyed.
Healthy, vigorous trees, in good soil, are much less liable to succumb
than those growing under less favorable conditions. Trees planted
in soil which has been recently cleared are most liable to attack, first,
because the fungus is abundant in the decaying roots, and, second,
for the reason that after a few years the nitrogen becomes greatly
decreased, as explained elsewhere. The trees which have up to this
DISEASES OF SHADE AND ORNAMENTAL TREES.
251
time been highly fed and growing vigorously are checked by the
decrease of soil food. If this is not at once remedied by fertilization
Fig. 55. — Root-rot fungus ( Polyporus versicolor) .
and cultivation of the soil, the fungus may gain a foothold and the
tree is doomed.
252 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
Treatment. — In all cases the rapid changes in soil conditions which
follow clearing should be guarded against by not planting until these
changes have taken place and until the roots of the original vegetation
have rotted and proper, soil conditions have been established. If inju-
ries occur on the larger roots or the base of the trunk, the places should
be cleaned and coated with pitch or coal tar. Burning the stumps and
roots of diseased trees where they stand is advisable if the condi-
tions are favorable for the spread of the fungus. In the early stages
of the disease the tree may often be saved and enabled to outgrow
the trouble by removing the eartli from the base of the trunk and
larger roots, clearing them as thoroughly as possible of diseased tis-
sue, and applying coal tar to the wounds.
DISEASES OF THE TRUNK AND BRANCHES.
Red ROT of oak ( Polyporus sulphur eus). — This disease is most
common in oak, but it is also found in the chestnut, poplar, cherry,
and willow. Ilartig de-
scribes it as parasitic
also in locust, alder, wal-
nut, and pear. As a
parasite it gains en-
trance to the body of
the tree through some
wound. The mycelium
then spreads through
the wood, causing it to
dry, shrink, crack, and
turn reddish brown. In
the cracks the mycelium
forms large sheets or
felted masses, as in the
case of the red rot of the
fir and pine. The inside
of a trunk may become
completely rotten in a
few years from this cause. Whenever any wound permits the myce-
lium of the fungus to come to the surface, a large group of fruits are
produced, extending out from the tree like brackets. The under surface
is made up of a layer of thin- walled pores, whitish at first, then snlpliur-
yellow. The top is a whitish-yellow. The brackets are irregular in
shape and size and are usually all grown together in an inseparable
mass, which is usually from 6 to 20 inches or more across and from 2
to 4 inches thick. (Fig. 56.)
Treatment. — As the fungus can not gain entrance except through a
wound, it may be readily guarded against by properly caring for
wounds, as suggested in other parts of this article.
White rot of oak. — This disease is produced by Polyporus ignia-
rius , a common fungus, which sometimes attacks the oak, hickory,
Fig. 56.— Fungus causing red rot of oak.
DISEASES OF SHADE AND ORNAMENTAL TREES.
253
willow, and other trees. The mycelium of the fungus grows through the
wood, reducing it to a yellowish-white, spongy condition. The Poty-
porus itself develops on the surface of the bark or wood. It is at first
spherical in shape, but later assumes the form of a hoof, with the flat
side turned down.
Treatment. — The fungus seldom, if ever, attacks sound tissues,
hence the proper care of wounds is all that is required to preserve
trees from its attacks.
There are numerous other fungi closely related to those described
which may produce various kinds of rots in growing trees. Nearly
all these gain entrance through cuts and wounds, hence the neces-
sity of properly caring for these, especially during summer, when
parasitic enemies of all kinds are active.
MISCELLANEOUS FUNGOUS PARASITES OF THE STEMS AND BRANCHES.
The fungi described under the previous heads have for the most
part prominent fruit forms. There is another group much less con-
spicuous, but which sometimes
causes considerable i n j u r y .
This group — the so-called black
fungi (Pyrenomycetes) — usually
appear as dark-colored pustules
on the bark of the stems and
branches. The injuries in most
cases are local, but in many in-
stances a stem or branch may be
completely girdled, and of course
serious results will then follow.
One of the common members of
the group is Nectria cinnabarina
(fig. 57). It occurs on nearly all
kinds of deciduous trees, attack-
ing dead and wounded branches
and occasionally wounded roots.
The fungus can not kill the
living cambium and cortex, but grows rapidly through the wood,
causing it to turn black and die, while the cambium and cortex are
still sound. The wood in this condition, however, is unable to con-
duct water, so that the parts dependent on it dry up and die.
Another species, Nectria diUssima, with bright red fruiting warts, also
attacks a great variety of deciduous plants. It spreads very slowly, how-
ever (not more than 1 or 2 inches in a year). The invaded tissue rots, but
the surrounding healthy parts increase in growth, so that the part of the
branch around the wound may become greatly distorted and swollen,
producing what is ordinarily known as a canker spot. Nectria cucur-
bitula causes a similar canker disease of conifers, especially the spruce.
Various other canker-producing fungi attack trees, but it is not
necessary to enter into detailed descriptions of them here.
Fig. 57. — Nectria cinnabarina.
254 YEARBOOK OF THE U. S. DEPARTMENT OF AGRICULTURE.
Another class of fungi, belonging to the group of rusts, frequently
cause considerable injury to trees, especially conifers. The Peri-
dermiums are probably the most destructive of these parasites,
attacking steins, branches, and leaves, and causing various knots,
swellings, and blister-like patches.
Treatment . — From the nature of the fungi just considered, it will be
seen that about the only means of checking them is to cut out and
destroy the diseased parts as soon as possible. In many cases the
injuries to trunks and branches are of such a nature that the diseased
parts can be removed without trouble. This should be done, and all
wounds thus made should be carefully covered with tar or grafting wax.
FUNGOUS DISEASES OF THE LEAVES.
In common with other plants, the leaves of shade and ornamental
trees are subject to the attacks of many forms of fungi. Some of
these produce local injuries, while others so affect the leaves as to
cause them to fall prematurely. In all cases where the leaves are
affected it will be seen that the more they are injured the more serious
the results to the tree as a whole, for the leaves are the laboratories
in which the food is prepared, and any check or injury to them
results in a check to the growth of the tree. Probably the most com-
mon fungous parasites of the foliage of trees are those producing
various kinds of spot diseases. Maples, chestnuts, oaks, basswoods,
sycamores, poplars, and various other trees are more or less subject
to the maladies in question. These spots are produced by certain
species of fungi, which attack the tissues, and by their action first
weaken and then destroy them. The spots vary in color, size, and
shape, and can usually be distinguished from those brought on by
sun scald and similar agencies only by microscopic studies.
Of the other diseases of the foliage, the powdery mildews and rusts
are probably the most common. The former attack many trees and
shrubs, producing a whitish, spider-web-like growth on the surface.
A common example of this group of fungi is found in the mildew
which occurs in late summer on the lilac. Maple leaves are also fre-
quently attacked, and the same is true of the chestnut, willow, and
other trees. The rusts are limited to a comparatively few groups of
trees, among which may be mentioned the pines, poplars, and willows.
Treatment. — There is comparatively little that can be done toward
checking these diseases. Spraying in many cases is not practicable
on account of the size of the trees, and even if it were, it is questionable
whether the injury resulting from the parasites is sufficient, except
in some few cases, to pay for the trouble involved. As many of the
fungi pass the winter either in or on the old leaves, burning these in
the autumn may help materially in keeping the parasites in check.
Careful attention to the needs of the trees in the matter of food and
water will also go far toward freeing them from the attacks of such
enemies as have been described.
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