Bark
Beetles > Elm Bark Beetle
Name of Pest: Elm Bark Beetle. Hylurgopinus rufipes
(Eichoff); the native elm bark beetle colytus multistriatus
(Marsham); the smaller European elm bark beetle
Order: Coleoptera
Family: Scolytidae
Host Plants:
Several species of elms (Ulmus ); the American elm, in
particular.
Description:
Both of these species are important solely for their ability
to inadvertently vector (transmit) Dutch elm disease to healthy
susceptible elms. The smaller European elm bark beetle is far more
aggressive, and therefore more successful, at colonizing weakened
elms. They often virtually exclude the native elm bark beetle from
any particular tree. However, the native elm bark beetle is more
successful in the northern areas of New York, New England and in
Canada where the low winter temperatures limit the success of the
other species (USDA).
The Problem:
The adults of these species emerge from under the bark of unhealthy
elms in the early spring and seek the tender bark on healthy trees
where small twigs form crotches. If the elm from which they emerged
was infected with Dutch elm disease (DED), then their bodies will
be covered with those fungal spores. By feeding on the tender bark
of healthy tree twigs in the spring, and creating wounds, they then
inoculate that tree with DED from the spores on their bodies. Adult
emergence occurs over several weeks in the spring. Unhealthy trees
are then sought by the females for egg laying. The female will chew
through the bark and form a tunnel at the interface of the inner
bark and the outer wood. This tunnel may be 2-3 inches long and
eggs will be laid along its path. The female will then emerge at
the other end. The larvae will hatch soon thereafter and feed by
making galleries perpendicular to the female’s gallery. The
adult egg-laying gallery of the smaller European elm bark beetle
runs parallel to the grain of the wood while that of the native
elm bark beetle goes across the grain. Over-wintering usually occurs
within the host as either a larva or a pupa. In Canada, there is
only one generation per year, but in more southern regions there
may be two generations per year.
The Solutions:
Soon after an elm becomes infected with Dutch elm disease the
foliage in that area will quickly yellow and droop, creating what
is known as a "yellow flag". This usually occurs on the upper perimeter
of the tree’s canopy beginning in late May through much of
June; it may also occur later in the season. Depending on the number
of feeding sites or "hits" that the tree experiences from the bark
beetles, there may be several flags appearing, which indicates multiple
infection sites. These flags usually affect the terminal two feet
of the branch tips and are a result of the DED fungus growing in
the vascular system and slowly spreading down the branch toward
the main trunk. Therefore, it is essential to monitor for yellow
flags and immediately have them removed from the tree and sent to
a diagnostic lab for verification of DED. If DED is found to be
the cause of the flagging, then as much of that branch as possible
should be quickly pruned from the tree; perhaps as much as 15 or
20 feet. This is the only way to stop the spread of DED from reaching
the main trunk and becoming completely systemic in the tree and
killing it. All pruned out wood, and trees that are cut down, due
to DED, cannot just be left lying around, even as cut and split
firewood; it will act as a breeding site for the beetles and a reservoir
for the disease. Therefore, it immediately needs to be de-barked
or destroyed. Any trees that are lost to DED must be removed as
soon as possible. Elm bark beetles require a tree in a very weakened
state or one that is freshly dead in order to be successful in colonization;
elms dying from DED are perfect breeding sites for these beetles.
Once a tree has been dead for a year or more it is usually too dry
for elm bark beetle attack but usually they are colonized long before
this occurs. Elm trees that were infected in the previous growing
season and not pruned will die in the second season and the disease
will exist throughout its vascular system, including in the roots.
DED can be spread from one tree to another via root grafts. Infected
trees, from the previous season, that are next to a healthy elm
pose a great threat to that tree. Therefore, root trenching should
be performed between the two trees to reduce this risk. Certain
fungicides are available, as a preventative measure, not curative,
and have shown good results in helping a healthy tree resist the
invasion of this disease. Overall, careful monitoring and sound
sanitation practices are essential for preventing Dutch elm disease.
Images
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An American elm displaying flagging and
being sampled for Dutch elm Disease.
(photo by: R. Childs)
The same American elm, as in photo 1,
in the second summer of infection with
Dutch elm disease. At this point, it was
too late to save the tree.
(photo by: R. Childs)
A stem of an American elm with the bark pulled back to show
the brown streaking
in the vascular system. This is indicative of Dutch elm disease
but testing
in a qualified diagnostic laboratory is essential for a positive
verification.
(photo by: R.Childs)
A cross section of an elm stem displaying brown discoloration
in the vascular
system that suggests the presence of Dutch elm disease. (photo
by: R. Childs)
The tunneling galleries of the European elm bark beetle. (photo
by: R.Childs)
Using a bucket truck to sample yellow
flags from high within the tree for
analysis of Dutch elm disease.
(photo by: R. Childs)
These feeding scars on the small elm twigs, near crotches,
were caused by adult
elm bark beetles. When this wounding occurs, Dutch elm disease
can then
be introduced. (photo by: R. Childs)
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Bark
Beetles index:
Conifer Bark Beetle
Elm Bark Beetle
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