On the Uprooting Stability of Trees: Combined Loading Effect on Tree Stability Assessment

Matteo Andreozzi; Giacomo Marrazzo; Andrea Marsiglia; David Boldrin; Riccardo Pietro Castellanza; Jonathan Knappett; Matteo Ciantia

doi:10.3390/f16121780

On the Uprooting Stability of Trees: Combined Loading Effect on Tree Stability Assessment

Matteo Andreozzi
, Giacomo Marrazzo
, Andrea Marsiglia
, David Boldrin
, Riccardo Pietro Castellanza
, Jonathan Knappett
, Matteo Ciantia (Lead / Corresponding author)

Research output: Contribution to journal › Article › peer-review

Abstract

Tree stability under wind loading is a critical concern for risk management in urban and natural environments. Despite advances in assessment methods, discrepancies persist between theoretical predictions and real-world tree behaviour. This study presents results from an extensive field investigation conducted at the University of Dundee Botanic Gardens to evaluate tree uprooting stability through non-destructive static, dynamic, and uprooting tests. This paper focusses on the programme of non-destructive and uprooting tests conducted across twenty-one trees of a variety of coniferous and deciduous species. Regarding the non-destructive tests, multiple tests were carried out on the same trees, varying both the pulling direction and the pulling height. Geotechnical properties, including shear strength, water content, soil water retention behaviour, and granulometry, were characterized to assess their role in root anchorage. These characteristics were seen to be at least as important as species. The results revealed that the maximum overturning moment (ML) occurred between a 1.6 and 2.9° inclination during uprooting for the partially saturated ground conditions at the time of testing, irrespective of species or biometric parameters. The findings contribute to refining tree stability assessments, offering practical insights for arboriculture and urban planning.

Original language	English
Number of pages	33
Journal	Forests
Volume	16
Issue number	12
DOIs	https://doi.org/10.3390/f16121780
Publication status	Published - 27 Nov 2025

Keywords

field testing
overturning capacity
tree stability
uprooting
winching test

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10.3390/f16121780Licence: CC BY

Final Published VersionFinal published version, 12 MBLicence: CC BY

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title = "On the Uprooting Stability of Trees: Combined Loading Effect on Tree Stability Assessment",

abstract = "Tree stability under wind loading is a critical concern for risk management in urban and natural environments. Despite advances in assessment methods, discrepancies persist between theoretical predictions and real-world tree behaviour. This study presents results from an extensive field investigation conducted at the University of Dundee Botanic Gardens to evaluate tree uprooting stability through non-destructive static, dynamic, and uprooting tests. This paper focusses on the programme of non-destructive and uprooting tests conducted across twenty-one trees of a variety of coniferous and deciduous species. Regarding the non-destructive tests, multiple tests were carried out on the same trees, varying both the pulling direction and the pulling height. Geotechnical properties, including shear strength, water content, soil water retention behaviour, and granulometry, were characterized to assess their role in root anchorage. These characteristics were seen to be at least as important as species. The results revealed that the maximum overturning moment (ML) occurred between a 1.6 and 2.9° inclination during uprooting for the partially saturated ground conditions at the time of testing, irrespective of species or biometric parameters. The findings contribute to refining tree stability assessments, offering practical insights for arboriculture and urban planning.",

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author = "Matteo Andreozzi and Giacomo Marrazzo and Andrea Marsiglia and David Boldrin and Castellanza, \{Riccardo Pietro\} and Jonathan Knappett and Matteo Ciantia",

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T2 - Combined Loading Effect on Tree Stability Assessment

AU - Andreozzi, Matteo

AU - Marrazzo, Giacomo

AU - Marsiglia, Andrea

AU - Boldrin, David

AU - Castellanza, Riccardo Pietro

AU - Knappett, Jonathan

AU - Ciantia, Matteo

PY - 2025/11/27

Y1 - 2025/11/27

N2 - Tree stability under wind loading is a critical concern for risk management in urban and natural environments. Despite advances in assessment methods, discrepancies persist between theoretical predictions and real-world tree behaviour. This study presents results from an extensive field investigation conducted at the University of Dundee Botanic Gardens to evaluate tree uprooting stability through non-destructive static, dynamic, and uprooting tests. This paper focusses on the programme of non-destructive and uprooting tests conducted across twenty-one trees of a variety of coniferous and deciduous species. Regarding the non-destructive tests, multiple tests were carried out on the same trees, varying both the pulling direction and the pulling height. Geotechnical properties, including shear strength, water content, soil water retention behaviour, and granulometry, were characterized to assess their role in root anchorage. These characteristics were seen to be at least as important as species. The results revealed that the maximum overturning moment (ML) occurred between a 1.6 and 2.9° inclination during uprooting for the partially saturated ground conditions at the time of testing, irrespective of species or biometric parameters. The findings contribute to refining tree stability assessments, offering practical insights for arboriculture and urban planning.

AB - Tree stability under wind loading is a critical concern for risk management in urban and natural environments. Despite advances in assessment methods, discrepancies persist between theoretical predictions and real-world tree behaviour. This study presents results from an extensive field investigation conducted at the University of Dundee Botanic Gardens to evaluate tree uprooting stability through non-destructive static, dynamic, and uprooting tests. This paper focusses on the programme of non-destructive and uprooting tests conducted across twenty-one trees of a variety of coniferous and deciduous species. Regarding the non-destructive tests, multiple tests were carried out on the same trees, varying both the pulling direction and the pulling height. Geotechnical properties, including shear strength, water content, soil water retention behaviour, and granulometry, were characterized to assess their role in root anchorage. These characteristics were seen to be at least as important as species. The results revealed that the maximum overturning moment (ML) occurred between a 1.6 and 2.9° inclination during uprooting for the partially saturated ground conditions at the time of testing, irrespective of species or biometric parameters. The findings contribute to refining tree stability assessments, offering practical insights for arboriculture and urban planning.

KW - field testing

KW - overturning capacity

KW - tree stability

KW - uprooting

KW - winching test

U2 - 10.3390/f16121780

DO - 10.3390/f16121780

M3 - Article

SN - 1999-4907

VL - 16

JO - Forests

JF - Forests

IS - 12

ER -

On the Uprooting Stability of Trees: Combined Loading Effect on Tree Stability Assessment

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Keywords

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