A review of factors that affect the static load-bearing capacity of urban trees

TY - JOUR

T1 - A review of factors that affect the static load-bearing capacity of urban trees

AU - Dahle, Gregory A.

AU - James, Kenneth R.

AU - Kane, Brian

AU - Grabosky, Jason C.

AU - Detter, Andreas

N1 - Publisher Copyright: © 2017 International Society of Arboriculture.

PY - 2017/7

Y1 - 2017/7

N2 - Over the last 30 years, researchers have begun to employ biomechanical principles to understand the stability of urban trees. This review concentrates on literature pertaining to trees in temperate urban landscapes, but also includes relevant work from other disciplines and climates as appropriate. The load-bearing capacity of a tree depends on its size and shape and the material properties of its wood. As the trunk and branches increase in diameter, their load-bearing capacity increases. Material properties (e.g., moduli of elasticity and rupture) describe intrinsic wood stiffness and strength, which influence deflection under load and load-bearing capacity, respectively. In wood, material properties vary in relation to a variety of factors, including the direction of loading, moisture content, and tree age. Wood decay reduces a tree's load-bearing capacity. Although practitioners have developed guidelines to assess its effect, existing guidelines should be investigated, refined or rejected on the basis of rigorous scientific testing. Static load tests have been developed to address this question, as well as investigate the likelihood of uprooting, which accounts for up to 35% of tree failures. While much has been learned, many questions remain about the static load-bearing capacity of trees growing in urban landscapes.

AB - Over the last 30 years, researchers have begun to employ biomechanical principles to understand the stability of urban trees. This review concentrates on literature pertaining to trees in temperate urban landscapes, but also includes relevant work from other disciplines and climates as appropriate. The load-bearing capacity of a tree depends on its size and shape and the material properties of its wood. As the trunk and branches increase in diameter, their load-bearing capacity increases. Material properties (e.g., moduli of elasticity and rupture) describe intrinsic wood stiffness and strength, which influence deflection under load and load-bearing capacity, respectively. In wood, material properties vary in relation to a variety of factors, including the direction of loading, moisture content, and tree age. Wood decay reduces a tree's load-bearing capacity. Although practitioners have developed guidelines to assess its effect, existing guidelines should be investigated, refined or rejected on the basis of rigorous scientific testing. Static load tests have been developed to address this question, as well as investigate the likelihood of uprooting, which accounts for up to 35% of tree failures. While much has been learned, many questions remain about the static load-bearing capacity of trees growing in urban landscapes.

KW - Allometry

KW - Biomechanics

KW - Decay

KW - Literature Review

KW - Material Properties

KW - Modulus of Elasticity

KW - Modulus of Rupture

KW - Soil-Root Plate

KW - Static Load Tests

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M3 - Review article

SN - 1935-5297

VL - 43

SP - 89

EP - 106

JO - Arboriculture and Urban Forestry

JF - Arboriculture and Urban Forestry

IS - 4

ER -