Requiring the Owner to sign a maintenance agreement to receive stormwater credits can help ensure trees receive adequate maintenance. The following maintenance tasks are HIGHLY RECOMMENDED for using tree boxes and tree trenches for stormwater management.

Maintenance Inspections

Perform maintenance inspections per the maintenance checklist and perform actions needed per the inspection checklist (see File:Tree-Maintenance checklist-Final.xls).

Maintenance inspection checklist for trees.
Link to this table
To access an Excel version of form (for field use), click here.

Project Name:
Project Address:
Owner Name:
Owner Phone #:
Inspector Name:
Inspector Phone #:
Date of Inspection:
Weather at time of inspection:
Date of last rainfall prior to inspection:
Inspection item Inspection frequency Date last inspected Need to inspect during current inspection Describe signs of problems (if none, write "none") Action needed and deadline Date completed
Tree opening
Mulch layer less than 3" deep: needs additional mulch Yearly
Erosion *
Evidence of clogging *
Evidence of standing water *
Weeds present As needed
Accumulation of sediment, debris or trash *
Does drawdown time meet project requirements *
Inlet (Curb cut at tree opening, curb cut at catch basin, porous pavement, trench drain, or other)
Accumulation of sediment, debris or trash *
Erosion *
Pretreatment (curb cut at tree opening, catch basin, porous pavement, or other)
Accumulation of sediment, debris or trash *
Erosion *
Evidence of clogging *
Evidence of standing water *
Distribution and drainage pipes
Overflow/outlet structure *
Other
*
*
*
*

NOTES:

  • Inspect tree minimum once a month and after every major storm during first year after planting.
  • Unless otherwise notes in "minimum inspection frequency column", inspect items below minimum spring, fall, and after major storms; adjust frequency as needed based on project conditions.


Supplemental Watering

Newly planted trees need to be watered regularly. In the first three years after planting, trees typically need about 1.5 gallons of water per inch of trunk diameter whenever the soil feels dry or slightly damp in the top 6 inches (Johnson et al., 2008) and a minimum of once a week during the first growing season. However, the amount of water the tree needs will depend on many factors, including soil type, drainage and weather. Soil moisture sensors can be used to automate watering whenever the soil is dry enough to need watering.

Many people have found that one of the most reliable ways to ensure trees receive adequate water during the establishment phase is to minimize labor involved, by using watering bags or an automated watering system. Watering bags are cone shaped bags that hold about 20 gallons of water and zip around the tree trunk. They can be used for trees with a caliper between 1 and 8 inches. Once they are manually filled with water, they release water slowly directly above the root package, providing slow, deep, watering without losing any water to runoff evaporation. They are reusable, inexpensive and easy to use.

Once the tree has rooted out of the root package, watering should be tapered off to encourage the tree to grow deep, wide-spreading roots. Depending on factors such as, tree species, soil type, perviousness of the surface above the tree rooting zone, weather, and how much stormwater is directed to the tree, mature trees may also require supplemental watering during extended droughts. Urban trees are especially prone to drought as urban areas are typically warmer and there is often less pervious surface above the rooting zone of an urban tree. Soil moisture should be checked and trees watered as needed from spring until the soil freezes in the fall. Water whenever soil is dry 3 inches below the soil surface. Too much water can kill trees just as easily as not enough water, especially in compacted and degraded urban soils, so ensure trees receive enough water but are not overwatered.

To mimic the pre-settlement hydrological cycle as closely as possible by increasing both evapotranspiration and infiltration, harvest runoff, for example, from adjacent impervious surfaces, and use harvested runoff to irrigate trees. In urban areas dominated by impervious surfaces, evapotranspiration and infiltration are typically lower than in the pre-settlement hydrological cycle. Using harvested water to irrigate trees will increase both evapotranspiration and infiltration, and more closely mimic the pre-settlement hydrologic cycle.

Straightening Trees

Maintain all plants in a plumb position throughout the warranty period. Straighten all trees that move out of plumb including those not staked. Plants to be straightened should be excavated and the root ball moved to a plumb position, and then re-backfilled.

Mulching And Other Amendments

Wood mulch provides many benefits to the tree, including, for example, weed and turf suppression, and increased moisture retention. It also improves bioretention pollutant reduction function and increases the organic matter content of the soil.

Maintain a ring of mulch as wide as possible, 2 to 3 inches deep, around each tree. Ideally each tree should have at least an area two feet in diameter for each inch of tree trunk diameter, with a minimum mulch ring diameter of eight feet for trees with a stem diameter three inches or less (Gilman, 2013). This may not be feasible in urban areas. Where the tree opening does not permit an eight foot wide mulch ring, make the mulch ring as large as the tree opening permits.

Do not pile mulch against the trunk of the tree, and place only a thin layer, if any, mulch over the root ball. According to Gilman (2013), “This keeps the trunk dry and allows rainwater, irrigation, and air to easily enter the root ball. Mulch resting on the trunk or layered too thick can kill the plant by starving it of oxygen, killing the bark, causing stem and root decay, preventing hardening off, encouraging rodent damage to the trunk, keeping soil too wet, and repelling water. Mulch on the root ball has little impact on water lost from the tree since most of the moisture that leaves the root ball does so by transpiration, not evaporation. Only a small amount (less than 10 percent) leaves the root ball by evaporation from the surface of the root ball.”

According to Gilman (2013), “No amendments of any kind are necessary in the backfill soil because extensive research clearly shows that they typically do not increase survival nor growth after planting.”

Fertilizer

Most trees generally do not need to be fertilized regularly, especially if they are receiving nutrient rich stormwater. Trees should not be fertilized with nitrogen unless diagnosis by an arborist deems it necessary. Other nutrients should be applied only if soil tests indicate the soil has insufficient nutrients.

If soil tests or diagnosis by an arborist indicate a need to fertilize,

  • do not apply more fertilizer than the soil lab or arborist recommends. Overdosing could harm the tree and leach nutrients into downstream water bodies.
  • Water well before and after fertilizing.
  • Fertilize in the fall after the tree has lost its leaves, or in the spring before buds develop.
  • If fertilizer is needed, use a slow release fertilizer.

Protecting the tree trunk

The bark of young deciduous trees should be protected with a trunk guard to prevent rabbits, mice, and deer from damaging the trunk. Trunk wounding can create long term damage. Install light colored plastic tubing, or ¼ inch mesh hardware cloth around the trunk with 1 to 4 inches of space between the guard and the trunk. The guard should extend 1 to 2 feet above the snowline for protection from small rodents, and as tall as possible for deer protection. It should be pushed into the ground or mulch about an inch to secure it but not enough to damage the roots. The guard should be in place at a minimum during winter months, but can be left in place year round if it does not touch the trunk. Enlarge or remove trunk guard once there is no longer at least 1 inch between the tree trunk and tree guard.

Removing Stakes

Staking, if used, should be removed 1 to 2 years after planting. Check staking and tree guying material at the end of the first growing season after planting. If the tree is stable without the stake and guying material, remove stake and guys. If tree is unstable, retie guying to stake and remove stake and guying at the second growing season after planting.

Pruning

Trees are pruned for safety, health and aesthetics. Johnson et al. (2008) recommend the following pruning frequency:

  • once in year 2 or 3 after planting;
  • every three years during years 4 to 10 after planting; and
  • after 10 years from planting, every 5 years for deciduous trees and as needed for conifers.

Check with your city or town to see if they have laws regarding pruning. Never prune trees or branches that are within 10 feet of utility lines; contact the utility company. Pruning guidelines can be found in

Check tree health

Check trees for damage from mowers and weed whips, vandals, and animals. Inspect leaves, branches,crown and trunk for signs of insect or disease problems. Contact an arborist if needed. Guidance on how to hire an arborist can be found on page 28 of Johnson et al. (2008).

Tree health troubleshooting guidelines (adapted from Johnson et al., 2008).
Link to this table

If you see: Potential cause: You should:
TRUNK
A flat-sided trunk at the base of the tree Encircling root restriciting the flow of water and nutrients between the roots and rest of the tree Excavate to check for encircling root
Bark damage near the bottom of the tree Rodent or string trimmer Apply mulch/trunk guard to protect from further damage
An elm tree with liquid oozing from the trunk Slime flux or wetwood Not worry about health
BRANCHES
An elm tree with bright yellow leaves on one or two branches Dutch elm disease Immediately call the university* or an arborist
Webs in the branches or webs covering the tips of branches Fall webworm or Eastern tent caterpillar Not worry about health
Many branch tips snipped off and laying on the ground Squirrel damage Not worry about health
Black clumps on branches of a cherry tree Black knot Call for advice*
Very little growth Many Call for advice*
Hole in trunk or branches Many Call for advice*
LEAVES
Leaves sticky and covered with a black velvety coating (like soot) Piercing, sucking insect and sooty mold Hose down leaves to get rid of sap
Leaves wilted Many Call for advice*
Spots on leaves Many Call for advice*
Small leaves Many Call for advice*
Sparse leaves Many Call for advice*
Yellow or brown leaves Many Call for advice*
Holes in leaves Insect feeding Not worry about health
Bumps on leaves Many Not worry about health
*Call an arborist or other qualified professional


Check tree safety

Johnson et al. (2008) recommends checking trees after storms for the following signs of potential danger.

  • broken, dead, or hanging branches
  • cracks, fungi, and cavities
  • weak trunk or branch unions
  • encircling root compressing the trunk (a flat sided trunk at the ground level is a good indicator)
  • recent lean (especially if the soil or grass has lifted on one side).

If any of the above are found, contact an arborist. Guidanceon how to hire an arborist can be found on page 28 of Johnson et al 2008, and on the International Society of Arboriculture’s website.

Check for Girdling Roots and Correct

Roots that encircle the trunk will likely cause health or safety problems. Remedy girdling roots at planting. Check for girdling roots (roots that encircle the trunk) every 4 to 5 years after planting and if girdling roots are found, contact an arborist for treatment (Johnson et al 2008). Girdling roots can be removed if caught early.

Clean root collar

Girdling roots are encouraged if root collar is covered with soil or mulch. Clean root collar once a year by removing soil and mulch until the first set of roots is exposed. Removing soil with a wet-dry vacuum (Johnson et al 2008) or air spade speeds the work without harming the roots.

References