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Research update on best planting practices from the University of Minnesota.
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DEEP ROOTS RESEARCHUNRI Webcast – 08/13/08
“Dysfunctional Root Systems and Brief Landscape Lives”
Gary Johnson, Department of Forest Resources, University of Minnesota
University of Minnesota Urban Forestry and Horticulture Institute
Chad Giblin, Research Scientist
Jeff Gillman, Associate Professor
Dave Hanson, Research Specialist
Gary Johnson, Professor and corresponding presenter. johns054@umn.edu, 612-625-3765.
Rebecca Koetter, Research Fellow
Patrick Weicherding, Ext. Educator and Professor
University of Minnesota Urban Forestry and Horticulture Institute
Some Average Life Spans Bur Oak 250+ Years* Silver Maple 125+ Years* Boxelder 100+ Years* Jack Pine 80+ Years* Paper Birch 65+ Years* Ford F150 Truck 20+ Years** Urban Core Tree 7-10 Years***
*Silvics of North America. **I Hope. ***Kielbaso, 1989
State of the Urban Forest – 1989J.J. Kielbaso
Average Tree Lifespans “Downtown” Urban Trees: 7-10 years. Suburban Landscape Trees: 30-40 years. Rural Landscape Trees: 60-70 years. Native Undisturbed Sites: 150 years.
“Downtown” Urban Trees
“Suburban” Landscape Tree
“Rural” Landscape Tree
Native Undisturbed Sites
What’s a “Normal” Root System?
5 month root system from seed (butternut)
6 year sugar maple root system from seed
Approximately 20 year old root system of linden
White spruce root system
Pat Bartlett – Bartlett Forestry
What are “Normal” Roots? Seed Propagated Roots
“Normal” Roots: Adventitious Roots
Abnormal Root Systems
Root systems that deviate from normal or average root systems.
Balled and Burlapped
Containerized Root Systems
Plug Trays
J-Roots
Boulevards, Medians, Planters
Boulevards, Medians, Planters
Dysfunctional Root Systems
Roots in unhealthy interactions within a plant system.
Dysfunctional Root Systems
Buried root system growing to surface
Dysfunctional Root Systems
Stem Encircling Roots
Dysfunctional Root Systems
Stem Girdling Roots
Dysfunctional Root Systems
Stem Girdling Roots and Stem Girdling Suckers
Dysfunctional Root Systems
Pot-Bound Root System
Effects on Landscape Lives
Predisposition to other problems Stunted growth Premature death/failure Reduced ability to compartmentalize
Regarding Stem Girdling Roots and Tree Loss,Practitioners Stated:
•Relationship to tree decline and death - 82%
of the time.
•Relationship to the sudden failure of trees –
18% of the time
A Survey of Practitioners : North American Members of ISA (1998, n = 282)
Predisposed Health
Predisposed Health
Predisposed Health
Reduced Ability to Compartmentalize
Premature Death
Premature Failure in Loading Events
Three “Deep Root” Studies
Frequency of Buried Root Systems. Stem Girdling Roots & Storm Failures. Correcting Pot-Bound Root Systems.
Frequency of Buried Root Systems in the Landscape
Decline in Canopy Condition Associated with SGRs and Tilia.
July 7, 2006. Tilia cordata “Greenspire”
Depth of Soil Over Tree Roots:A Survey of 5 Landscape Species
1. Range of Soil Depths over Roots2. Condition of Canopies and Stems3. Frequency, Extent, Location and
Impact of Encircling or Stem Girdling Roots
Minneapolis 1997 - Acer saccharum, 1999 - Fraxinus
pennsylvanica,1999 - Tilia cordata,
Rochester 2001 - Celtis occidentalis,
Saint Paul 2004 - Gleditsia triacanthos
Depth of Soil over Roots Surveys: Sites and Selection
N = 100 (+/-)Per Species, Randomly Selected
•3-9” d.b.h. Trees
•Surveys included two teams.
•1st Team “blind” condition ratedcanopies and stems
•0-4 Rating System
Depth of Soil Over Roots: Survey Protocol
Criteria for Condition Rating Trees:Canopy and Stem Conditions
Canopy Pts Stem
No Dieback.Characteristic Density for the species.60%+ Live Crown Ratio (L.C.R.).Symmetrical.
4.0
No cambial loss*.No decay.No cracks/seams.
~ 10-25% Dieback, orLoss of Density, or<50% L.C.R., orLoss of Symmetry.
3.0 ~ 10% cambial loss.One crack and/or one seam.
Condition Rating: Canopies 0-4 Rating System:
0 = Dead 4 = No obvious defects.
Canopy condition rating factors: Characteristic density for the Species, Live crown ratio (60% standard), Crown symmetry, Dieback.
Condition Rating: Canopies
E.g., Greenspire Littleleaf Linden to the right. Canopy condition reduced due to density.
Condition Rating: Stems Factors:
Lost Bark/Living Cambium, Cracks/Ribs, Decay, Contributing Agents. Stem Girdling Roots (above ground)
0-4 Rating System: 0 = No living cambium in stem, 4 = No obvious defects.
Condition Rating: Stems
Dead Cambium
Frost Crack
•2nd Team performed root collar examination:
•Data Recorded:•Depth to first order roots,•Frequency and location of Stem Encircling Roots (SERs) and Stem Girdling Roots (SGRs),•% of stem affected.
Depth of Soil over Roots Surveys: Root Collar Exams
Typical tools for root depth evaluations:
•Surveyor’s arrow
•Hand tools
•Wet/Dry vac
•Air knife
Depth of Soil over Roots Surveys: Root Collar Exam Protocol
Summaries
•Majority Had > 1” Soil Over Roots*
•Tilia, Acer and Fraxinus Worst: > 90% w/4”+
•1”+ Soil = More SER’s
•Most Vulnerable Species: Tilia, Celtis, Fraxinus
•Worst Condition Rating:Soil Depth – Tilia, Acer, Fraxinus
•Most Common SGR’s:Soil Depth – Tilia, Fraxinus, Celtis, Acer
What IS Too Deep?
Frequency of Stem Encircling Roots: 1-3 Inches*
Frequency of Stem Girdling Suckers: 5 Inches**
Frequency of Stem Girdling Roots: 1-3 Inches*
*Sugar Maple, Green Ash, Littleleaf Linden, Hackberry, Honeylocust
**Littleleaf Linden
What IS Too Deep? Negative Effects on Health?
Species Dependent. 1-3.5 inches was Too Deep. Johnson and Johnson, 1997
Johnson and Borst, 1999 Johnson and Hauer, 2000 Johnson, et al., 2006. Planting Depth Interim Report.
Where it Began?: Containerized Depth Problems
Too Deep? Assume That It Is
How Often Does it Happen?
881 Trees Sampled out of 5500 Total B&B and Containerized 87%: Stem Buried 2+ Inches 50%: Stem Buried 4+ Inches
*Minneapolis Park and Recreation Board; St. Paul Division of Forestry
Nursery Stock Survey 2001-2002*
Why Does it Happen? To Stabilize Trees in Containers.
Does it Work? No!*
2002 University of MN/Bailey Nursery Experiment
4 Tree Species, 460 Trees Total
4 Planting Depths: 0 – 2 – 4 – 6 Inches
Results? All Leaned at Same Rates
Storm Failure Research:Most common pre-existing conditions
Storm Failure Triangle
Tree Condition and Defects
Loading Eventwind, ice, snow
Site Characteristics
Failure Potential
Gary Johnson, University of MN
Storm Failure:pre-existing conditions
Storm Failure:pre-existing condition
Premature Failure in Loading Events*
III. Most common pre-existing conditions: For all damage, separating preexisting conditions:
CONDITION % OF TOTALDecay Only 13Stem Girdling Roots (SGR) 12Included Bark Only 4Root Problems (other than SGR) 3Codominant Leaders Only 4Construction Damage Only 1
*Storm Damage 1995-2005; University of Minnesota
•Total Failures (Trees failed at or below ground line) Was Most Common Damage
Category = 54% of all damage,
•The presence of SGRs was the most common pre-existing condition (32%).
Storm Damage in Minnesota: 1995-2005 n=1584
What IS Too Deep?
Impact On Storm Damage to Trees? Most common reason for total failure:
Buried SGRs. Species dependent. 1-4 inches. Johnson, 2006. “Storm Damage in
Minnesota, 1995-2005.”
When Roots and Stems Conflict
Soil Line
SGR compression point
Layers of Stem Girdling Roots: Tilia
Soil Line
SGR Compression
Storm Damage in Minnesota: SGRs below ground with compression
Norway Maple (Acer platanoides)
Total Tree Failures In BoulevardsMost Commonly Damaged Size (d.b.h.) ranges
1998 1995-2005Size (d.b.h.) Range % of Total % of Total6-10 inches 28.6 29.0
>25 inches 25.7 26.0
20-25 inches 15.7 16.0
10-15 inches 14.3 14.0
15-20 inches 14.3 14.0
Storm Damage in Minnesota: 1998 n=564 1995-2005 n=1584
•32% of all tree failures , located on the edges of storms
•26% of all boulevard total tree failures (53% of 6-10” category)
•68% of Little-leaf Lindens that failed in boulevards (#3rd most common species)
•> 90% of trees that had SGRs had stems buried 4” or more.
Storm Damage in Minnesota: Failures due to Stem Girdling Roots1995-2005 n=1584
Commonly Damaged Species with Chronic Problems
1998 1995-2005
Little Leaf Lindens: 73% of all 76%that failed were 4”+ deep and had
stem girdling roots causing stem compression.These trees failed below the stem compression points.
Storm Damage in Minnesota: 1998 n=564 1995-2005 n=1584
Decline in Stem Condition Associated with SGR’s and Tilia
Stem Girdling Suckers!
•University of Minnesota Planting Depth Study 2000-2007
•Lindens at 5” depth = Higher Frequency of Suckering.
•Higher Frequency of Suckering = Stem Girdling Suckers and Higher Mortality Rate
Stem Girdling Suckers!
Stem Girdling Suckers
Stem Girdling Suckers
Correcting Pot-Bound Root Systems
Study One: 14 month experiment. 2 species (Tilia and Salix). 3 Treatments (slice, butterfly and
“tease”). No statistical differences between
treatments and controls on survival (100%) and root production.
Arboriculture & Urban Forestry, Volume 33, Issue 1, January 2007.
Correcting Pot-Bound Root Systems
Study Two: Five years. Four species: Acer platanoides, Acer x
freemanii, Thuja occidentalis, Malus sp. Two treatments: slicing, “boxing.” Data: survival, condition ratings, caliper
increase, root production.
Correcting Pot-Bound Root Systems
•Complete randomized block design.
•Control and 2 treatments.
•8 replicates.
•11-05 to 11-10 study.
Correcting Pot-Bound Root Systems
“Boxing”
Control
Scoring
Correcting Pot-Bound Root Systems
Results to Date (08-08-08): Mortality Rates: Controls:0; Slice
Treatment:0; Boxing Treatment:0. Condition Rating: No significant
differences. Growth Rates: No significant differences.
Other Research?
Douglas Airhart – Tennessee Tech U. Bonnie Appleton – VA Tech. Mike Arnold – Texas A & M Susan Day – VPI Donna Fare – U. S. National
Arboretum Ed Gilman – U of Florida Christina Wells – Clemson University
Other Research? J. Roger Harris, VPI Gary Watson,
Morton Arboretum David Williams and
Gary Kling, U of IL T. Davis Sydnor
and Richard Rathjens, Ohio State University
Other Research?
Recommended