When Strong Winds Uproot Trees
Marianne C. Ophardt
Washington State University Cooperative Extension
Area Extension Agent
It’s not unusual in this
region for strong winds to sometimes blow trees over and or at least cause
them to lean a bit more than they had been before the winds. Why do trees fall
over in the wind? When a tree blows over, it usually can't be blamed on the
size of the tree. Generally it's the failure of the root system to keep the
tree upright. After all, the roots have the job of anchoring the tree along
with the responsibility of absorbing water and nutrients.
There are many diagrams of
trees that show large trees with a big tap root directly beneath the trunk.
This concept has been proven wrong by many different studies of tree root
systems. Most trees do not have tap roots, especially when the soil is
compacted and where the there is a high water table.
You will not find tap roots on most of the trees in your yard.
The exception to the rule might be pines and oaks that may form tap
roots in sandy, well‑drained soils.
If there aren't deep tap roots in the soil, where are the
roots? Most tree roots are in the top 6 to 24 inches of soil.
Tree root system consists of larger, woody perennial roots and smaller,
fine feeder roots. The woody perennial roots grow primarily horizontally in a
network that spreads out from the base of the tree trunk.
Most of these roots will be found in the top six inches of soil, but
vertical anchoring roots along this horizontal network may grow several feet
deep or more. The function of the
woody perennial roots is anchorage, water conduction, mineral transport, and
food storage.
The fine feeder roots are
much smaller than the perennial roots. They
grow outward and upward from the perennial roots and are predominantly located
in the top several inches of soil. Feeder
roots die and are replaced on a regular basis.
While these feeder roots are only about 1/16 of an inch in diameter or
smaller, they contribute to the major portion of the root system's surface
area. This is because their
function is to absorb water and nutrients.
The greater the surface area, the easier it is to absorb the water and
nutrients a tree requires.
While tree roots may not
be as deep as we've imagined in the past, they make up in length what they
lack in depth. The framework of
major perennial roots often grows outward to a diameter one to two times the
height of the tree. This is much
further than the simple branch spread or "drip‑line", where
they were once thought to terminate. On
average, tree roots spread about three times the spread of the branches. Studies have indicated that over 50 per cent of the roots are
outside the drip‑line.
Now let's get back to the root system's job of anchoring the tree. In order for a root system to support a large, long‑lived plant like a tree, it must be free of structural defects and the main structural roots should be distributed evenly around the trunk. Wind‑throw results most often from poorly distributed roots or poorly developed root systems.
Poorly distributed roots can
result from kinks and circling roots; improper planting practices; physical
damage or severing of roots; restriction of root growth; or death of roots from
cultural or climatic factors. Poorly
developed root systems can result from improper planting practices; compacted
and shallow soils; and poor growing conditions.
To make a long story even
longer, roots fail to hold a tree upright when there isn't a healthy,
well‑distributed root system. When
it uproots and falls over in the wind, we have to ask ourselves what caused its
failure. This takes examining the
roots and trying to detect the cause. It
also involves reviewing the trees situation and history.
Were major tree roots severed recently or years ago?
Were there any girdling or kinked roots evident?
Was there a poorly developed system?
What might have been restricting root growth on one or more sides?
Can fallen trees be
uprighted and saved? Large trees,
over 8 feet tall can't and shouldn't be saved.
Removal is the only option. Even
if you can successfully upright the tree, it may become a hazard because of the
damage that has occurred to the anchoring woody roots. Uprighted trees can pose a serious hazard, especially as they
grow in size and girth.
For trees smaller than 8
feet, it may be possible to upright the tree and save it.
However, it will probably only be successful if one‑third to
one‑half of the roots are still in the soil and not exposed.... and if the
roots which are exposed are fairly compact and undisturbed.
The process of
“uprighting” the tree may require some type of lift equipment to pull the
tree upright. Before pulling it
upright, you should remove some of the soil beneath the exposed root mass to
allow the root mass to be situated at soil grade level.
Once you have the tree back in place, fill in the soil around the roots
as needed, being sure to keep the tree at the same soil level as it had been
before it blew over. Water the tree
thoroughly to get rid of air pockets and settle the soil around the roots.
Since the tree has lost a
portion of its anchoring roots when it blew over, you will need to give it some
support in the form of staking. Drive
two stakes into firm ground about six to eight inches away from the trunk.
Then tie the trunk to the stake at the lowest height which stabilizes the
tree in an acceptable upright position. The
stakes should be removed when the tree can stand by itself.
Check the tree every year to make sure it's still stable.
If it's not, removal may be needed to maintain safe conditions.