Farm
Tile Drains and Tree Roots
Table of Contents
Trees can grow on agricultural land in many useful and
profitable ways. These include: windbreaks, treed fence rows, fruit
and nut orchards, stream buffers, shelter for pastures, shelter for
farm buildings, plantations, woodlots and reforested marginal land.
Cropped farm fields and pastures are often under-drained with tile
to remove excess water to enhance crop production. Some species of
trees can aggressively plug farm drain tiles with roots while other
tree species rarely plug drains. If conditions are favourable, it
is believed that any tree species has the ability to plug farm drains
with roots. Where crop production is to continue, tree planting projects
on drained land must be designed to sustain the use of tile drains
and not interfere with removal of excess field water.
Figure 1. The section of plugged tile must be located and
cut out from the system. These dense clods of fibrous roots from a
nearby tree entered through perforations in the tile and blocked water
flow. The car keys help show the pipe diameter and size of the root
balls. These clods can break free and plug the line further on down
stream.
Sustaining
functional farm drains
A properly designed drainage system should quickly remove
water from farm soil whenever an excess amount of water is present.
Excess soil water can occur any time of year, however, is typically
most abundant from late winter to early spring, late summer to early
winter and sporadically during the growing season due to heavy or
prolonged rains. The need for field drainage can vary from season
to season. Field tiles that have remained fairly dry for several years
may run water frequently or constantly during wet seasons if water
tables become high. Tiles that drain natural springs will always run
water. During most seasons, farmers realize production advantages
by having field drains in place.
Drain lines blocked by tree roots will disrupt proper
water drainage. How can this problem affect crop production? Winter
melt water and spring rains may not drain adequately to allow early
tilling and seeding especially on heavy soils. Wet soils are cooler
and can delay crop germination and growth, reducing crop yields. Sporadic
summer flooding can remain pooled too long in low spots, resulting
in crop damage. In late summer and fall, soil may be too soft to permit
heavy harvest equipment onto the land. It costs time and money to
locate the plug and replace it with new pipe. Farmers depend on a
functional drainage system to remove excess field water.
Farm drainage is a production investment that can cost
$600 /acre to install. Tree plantings added to farmland can also be
designed as production investments. In order to establish trees and
shrubs on farmland in beneficial ways without risk of plugging drain
tiles with roots, recommendations on tile drain installation are outlined
in OMAFRA Publication 29, Drainage Guide for Ontario (see below). These
recommendations have been established through field experience and
are recognized by drainage contractors. If questions on tile and tree
root plugging arise, farmers should consult with their drainage contractor
or OMAFRA Agricultural Engineer.
Drain Management Problems:
Trees:
Drains that are within 15 m of trees and which carry water for prolonged
periods during the growing season may become plugged with tree roots.
If possible, all water-loving trees, such as willow, soft maple, elm,
and poplar, should be removed for a distance of 30 m from the drain;
other trees should have a clearance of 15 m. If a tree cannot be removed
or the drain rerouted, use continuous non-perforated pipe for a distance
of 15 m on either side of the tree.
Fruit trees are not included in these recommendations. However, a
header drain should be located at the higher end of an orchard to
intercept seepage water that might cause prolonged flow in lateral
drains.
Figure 2. A lengthy section of 10 inch mainline is plugged
solid with roots. The roots originated from a large willow tree located
more than 50 feet away from the buried drain. The plugged section,
about 80 feet in length, was cut out and replaced with non-perforated
pipe to prevent roots from entering again.
Precautions
for stream (riparian) buffers
Where trees, shrubs and weeds associated with wet soils
are established or are permitted to grow naturally along a watercourse,
perforated tile that passes under the buffer to an outlet can quickly
become plugged by roots. For field tiles that drain into buffered
streams, intermittent watercourses or ditches, a section of non-perforated
tile should be installed. The non-perforated section of tile should
extend from the outlet, pass under the vegetated buffer, and continue
for at least 15 meters into the cultivated field where it can then
connect to standard perforated pipe. Roots will not penetrate non-perforated
pipe. Worry-free drainage of field water will continue with added
benefits realized by having buffered vegetated watercourses.
How tree
roots grow in the soil
Roots of trees grow to new areas of soil to increase
the root surface area. Nutrient uptake, water absorption and anchorage
are key functions of roots.
Roots grow proportionately in size with the above ground
tree and maintain a specific root-to-shoot ratio.
Roots of many species of trees, some weeds, several
shrub and crop species can grow close to and within tile drains as
they expand their ability to acquire water and nutrients.
Back-filled soil over drainage tiles provides easy access
for roots to the tile due to the breakup of compacted soil layers
and loosening of the back-filled soil by the drainage installation
equipment.
Roots do not actively search the soil for moisture and
nutrients but grow more vigorously as they randomly encounter more
favorable growing conditions such as, increased moisture and nutrient
levels.
Root growth conditions can continue to improve until
moisture becomes excessive or nutrients reach toxic levels at which
point root growth declines.
The ideal amount of soil moisture or the ideal amount
of each nutrient is entirely dependent upon the tree species.
Physical soil properties can become more favorable for
root growth with increasing moisture. Roots may develop more vigorously
towards an increasing humidity gradient and moisture gradient. Roots
can push their way through soil easier towards an increasing moisture
gradient as soil becomes more pliable due to increasing amounts of
water.
Other soil factors such as oxygen concentrations and
soil particle size also contribute to ease of root growth.
How tree
roots plug drain tiles
Drainage tiles that are perforated with holes (modern
plastic pipe), have gaps (sectional clay tile) or are damaged by cracks
can be plugged by roots. Non-perforated pipe cannot be plugged by
roots since there are no entry points.
Roots are more likely to be found within tile after
a prolonged dry period as root systems expand downward to increase
their ability to absorb water.
A root will likely stop growing once it enters a dry
tile but can remain alive. The root will not proliferate to plug the
tile if the root does not encounter a water source.
Once running water or standing water becomes available
inside a tile, tree roots that are present may proliferate and plug
the tile.
The rate of root growth and an ability to plug is dependent
on the species of the root occupying the tile. Roots will plug tile
slower if other sources of water are available outside the tile during
the same period of time.
Figure 3. At first glance a plug tile may appear blocked
by soil. Try washing the soil out with a garden hose to see if anything
else is causing the blockage.
Figure 4. The same tile as in figure 3 after rinsing. Washing
out the soil may reveal roots of trees or other vegetation that has
entered through perforations. The roots are often fine and fibrous,
packed very tight within the drain. Although soil was caught in the
root mass, the real cause of the blockage was by roots.
How
do you know when field drains are plugged?
Drainage problems are first noticed by the farmer as a wet spot in a
field that does not drain as fast as it did in previous seasons or as
an area of unhealthy crop. Upon inspection of tile outlets water may
be observed running later in the spring and early summer. The late water
flow may not be due to 'late flowing water' but can be due to a slow
leak in the plug itself. A backup of water up the tile system may simply
be taking a much longer time to drain.
The root growth which created the plug could have progressed
the previous season in early autumn and continued as late as December.
The plug may have developed over several seasons. An old tile system
may be losing the ability to effectively drain the land due to accumulations
of sediment or pipe collapse. Plugged sections of tile will need to
be located, cut out and a new section of tile spliced into the line.
Root masses that form within tile can occasionally break
free from the parent plant and travel downstream inside the tile,
eventually blocking water flow at a different location. These shifting
plugs have been found blocking drains of interconnected neighbouring
farms causing crop damage. Determining where the root mass originated
from can sometimes be difficult.
Conditions
that could cause plugging
Water can run through tile constantly or it can flow
for an extended duration into the growing season due to drainage of
natural springs or drainage of areas in a field where the water table
meets a tile. Indication of this water flow can usually be observed
at the tile outlet.
Depth to the water table can vary from one season to
the next and is dependent upon seasonal rainfall patterns. Tiles that
are dry during average growing seasons may have late flow of water
during wet seasons. Field locations having wet tile will be a risky
area to establish any tree species since plugging by roots may eventually
occur.
Water may be running through sections of field drainage later into
the growing season but may not be realized by the farmer. Tile can
drain water from an up-slope, wet area or from a spring however, as
the water makes its way down the tile to drier areas the water can
leave the tile through perforations. The water can re-enter the soil
in another area before reaching the drain outlet. In these situations,
and unknown to a farmer, trees planted close to tiles that have standing
or flowing water could cause root-plugging problems.
At a low field elevation, plugging in tile by roots
may encourage proliferation of roots of other trees upstream in the
line since water remains present until the plug is noticed and subsequently
released.
Since trees take up soil water,
could trees be used to drain farmland naturally?
By transpiration, trees, like crops, can remove significant
amounts of water from soil. If planted dense enough, could trees act
as an effective natural substitute for tile drainage on farmland?
Trees remove little soil water during times of critical farming activities.
In order to remove soil water through transpiration, water must evaporate
through photosynthesizing deciduous leaves or needles of conifers.
Trees remove water from soil when crops absorb water from soil, during
the growing season, from mid-spring to early autumn. At other times
of the year, trees transpire very little water out of the soil. Although
some moisture evaporates from trees during winter dormancy, the amount
is small. Trees remove very little water from soil before early spring
and after mid-autumn since leaves are absent or are no longer functional,
and for most conifers, needles are either ending or beginning their
winter dormant period. Early spring and fall are critical times when
land needs to be drained to allow access by heavy farm equipment.
Field tile will adequately drain field water at these important times.
During heavy summer rains and occasional flooding, soil
oxygen levels can be depleted enough to cause many tree species to
stop water uptake altogether, especially dry-site trees. Tree species
that tolerate wet soil and are able to continue absorbing water during
floods would not remove field water fast enough to enable nearby crops
to survive the prolonged saturated conditions. Trees will not function
as a natural substitute for tile drainage during sporadic saturation
of farm soil during the growing season.
Trees
that can plug farm drains
Tree species that naturally tolerate or thrive in wet
or flooded conditions and are shallow to intermediately rooted can
proliferate and plug wet drainage tiles. Plugging may occur quickly
or it may require several seasons of repeated wet conditions.
The following list of tree species can tolerate and
grow in saturated soil or free water and should not be planted near
perforated field drains:
Shallow rooted trees - Have roots that grow laterally
for long distances (30 meters or more have been observed) and develop
primarily within 1 meter of the soil surface, have many fibrous roots
that can form very dense root systems causing thick blockage of drainage
lines.
Poplar:
Balsam poplar (Populus balsamifera)
Eastern cottonwood (Populus deltoides ssp. Deltoides)
Trembling aspen (Populus tremuloides)
Largetooth aspen (Populus grandidentata)
Carolina or Hybrid poplar (Populus nigra x Populus deltoides)
Willow:
Golden weeping willow (Salix alba)
Black willow (Salix nigra)
Peachleaf willow (Salix amygdaloides)
Bebb willow (Salix bebbiana)
Pussy willow (Salix discolor)
Balsam willow (Salix pyrifolia)
All other willows
Speckled alder, gray alder (Alnus incana ssp. rugosa)
European black alder (Alnus glutinosa)
Flowering dogwood (Cornus florida)
Black maple (Acer nigrum)
Manitoba maple (Acer negundo)
Red maple (Acer rubrum)
Silver maple (Acer saccharinum)
Eastern larch, tamarack (Larix laricina)
Eastern white cedar (Thuja occidentalis)
Black spruce (Picea mariana)
Intermediate rooted - Most roots have uniform
thickness and grow outwards and downwards from the tree in a circular
pattern, have some deeper lateral roots but are fairly wide spreading
in growth, can completely block field tile with many small diameter
roots.
American elm (Ulmus americana)
Black ash (Fraxinus nigra)
Green ash (Fraxinus pennsylvanica)
White ash (Fraxinus americana)
Honey locust (Gleditsia triacanthos)
Manitoba maple (Acer negundo)
Pin oak, swamp oak (Quercus palustris)
Swamp white oak (Quercus bicolor)
Sycamore, American plane-tree (Platanus occidentalis)
Red mulberry (Morus rubra)
White mulberry (Morus alba)
Deep rooted - usually consist of one or two deep
taproots that extend straight down deep into the soil for many meters.
The roots do not tend to spread out laterally and are least likely
to plug wet drain lines unless planted within 1 or 2 meters of the
underlying drain.
Bur oak (Quercus macrocarpa)
English oak (Quercus robur)
Black walnut (Juglans nigra)
Black walnut rootstock (Juglans nigra) with Persian walnut
grafts (Juglans regia)
Common hackberry (Celtis occidentalis)
Bitternut hickory, swamp hickory (Carya cordiformis)
Shellbark hickory (Carya laciniosa)
Other plants - Field horsetail (Equisetum arvense)
is a common weed that can plug perforated drainage tile. Rhizome roots
of horsetail can penetrate to more than 1 meter below ground forming
thick mats of root. Other species reported to have plugged farm field
drains include canola, sugar beet, kale, rape, brambles, watercress,
hawthorn, nettles, dandelion, meadow grass, dock, buttercup, fleabane
and rushes.
Trees that rarely
plug farm drains
Roots of tree species that prefer dry or well-drained
soil are least likely to plug farm drains especially when grown on
fast draining soils. Roots may encounter conditions within tiles that
are too wet for the roots to survive. It is important to know that
drain plugging by dry-site trees is rare but can still occur depending
on the situation. For example, roots of peach and black locust have
been observed plugging farm tile and both are dry-site species.
The following list of tree species do not tolerate wet soils for extended
periods of time and are least likely to plug farm field drains:
Shallow rooted trees:
American beech (Fagus grandifolia)
European beech (Fagus sylvatica)
Black cherry (Prunus serotina)
Black locust (Robinia pseudoacacia)
European white birch, weeping or silver birch (Betula pendula)
Paper birch (Betula papyrifera)
Norway maple (Acer platanoides)
Staghorn sumac (Rhus typhina)
Eastern hemlock (Tsuga canadensis)
Eastern white pine (Pinus strobus)
Jack pine (Pinus banksiana)
Red pine (Pinus resinosa)
Scots pine (Pinus sylvestris)
Norway spruce (Picea abies)
White spruce (Picea glauca)
Colorado spruce (Picea pungens)
Intermediately rooted trees:
Apple (Malus sylvestris)
Sweet cherry (Prunus avium)
Sour cherry (Prunus cerasus)
Peach (Prunus persica)
Pear (Pyrus)
Plum (Prunus americana)
Grape, wine and fresh (Vitis labrusca and Vitis vinifera)
American chestnut (Castanea dentata)
Chinese chestnut (Castanea mollissima)
Sugar maple (Acer saccharum)
Deep rooted trees:
Red oak (Quercus rubra)
White oak (Quercus alba)
Butternut (Juglans cinerea)
Heartnut (Juglans ailantifolia var. cordiformis)
Pecan, northern (Carya illinoensis)
Shagbark hickory (Carya ovata)
Tuliptree (Liriodendron tulipifera)
