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Tree root growth patterns and geotechnical roles on levee
Shih-Ming Chung and Alison M. Berry
Methods and Applications
Part II
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1. New field method for acquiring root system data
2. Data processing and model building
3. Analyzing root system patterns along levees
4. Data/models applications
Fieldwork Lab processing
Quantitative model Applications
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Systematic approach to acquire and categorize in situ root system data
• Consider root system complexity and spatial attributes
• Use critical variables of tree root architecture to determine the range (root system extent) and resolution (minimum unit)
• Include above-ground, slope, below-ground compartments
• Classify the data as spatial points (1D), linear connections (2D), surface patterns (3D), and resulting thematic spatial composition
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1 Pneumatic excavation
2 T-LiDAR scanning
Pneumatic Excavation And LiDAR Scanning (PEALS) system
• 15 Valley Oaks
• 5 Cottonwoods
• Most trees (18/20) on the water-side levee slope.
• Two control trees (flat)
20 trees in total
3D and in-situ
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1 2
3 4
Pneumatic excavation (compressed air) in situ root systems
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Ground-Based Tripod LiDAR scanning
1 2 3
4 5
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Process field data and acquire the resulting models
• Stage I: T-LiDAR point cloud data (3D)
• Stage II: conversion of point-cloud data
- Tomographic slicing, hierarchical nested dataset, biomass model
- Vectorization of polylines, topological dataset, vector model
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Stage I
Prescan: aboveground architecture and soil surface
LiDAR scan after root excavation Assembly of aboveground, soil surface, and root system
3D LiDAR image assembly of Pocket Levee Oaks (The Pocket site, Sacramento, CA)
1 2 3
4
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Stage II
• Tomographic slicing (hierarchical nested dataset) -- Root Biomass Model
• Vectorization of polylines (topological dataset) -- Root Vector Model
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(x1, y1, z1)
(x2, y2, z2)
(x3, y3, z3)
(xn, yn, zn)
3D Point-cloud data, XYZ format
Set up the coordinate system
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z axis: vertical axis
x axis: parallel to the levee
y axis: perpendicular to the levee
Origin of the coordinate system tree trunk center at the slope surface
Upslope Downslope
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Root biomass model
• Design the model based on spatial patterns: size, linkage, distribution
• Use root cross-sectional area or diameter as the critical variable
• Sample the variables in virtual trench profile (2D sampling)
• Tomographically reconstruct the 3D hierarchical nested dataset
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Virtual trench profile as the tomographic slices
Root CSA
Virtual trench profile
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Longitudinal Radial (Upslope, Downslope, Vertical)
Tomographic reconstruction can use linear or radial slices
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2D plot R statistical program
Spatial analysis format ArcGIS
Spatial metrics Fragstat
Slice ID Root # Root CSA /Slice Root Cumulative CSA DTC n n (m2) % (m)
Data sheet for root biomass model
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Root vector model branching pattern and directionality
• Vectorize the point-cloud data as “polylines”
• Using azimuth angle (to the north pole), zenith angle (to sky), root length, root order as the critical variables
• Reconstructing Topological relationship
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Vectorizing the point-cloud data
Point-cloud data
Making Polylines
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Root ID Root order Azimuth angle Vertical angle Branching angle
Root length Branching point Root Type
n n Degree (˚) Degree (˚) Degree (˚) m m H, V, O
Data sheet for root vector model
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Data analysis
• Root system info
• Root system morphological plasticity in relation to levee geometry
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Root system info
• Aboveground Info
- species, location, age, DBH, height, canopy
• Root system center (TCS point)
• Horizontal spread (Root system extent)
• Maximum rooting depth
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Horizontal spread Maximum rooting depth
Age (yr) X left limit X right limit Upslope limit Downslope limit Max Rooting Depth Avg. 12.7 2.10 2.35 1.70 2.35 1.58 SD 6.3 1.44 1.53 1.05 1.65 0.47 Max 34 5.89 5.85 4.34 7.18 2.61 Min 6 0.15 0.46 0.72 0.08 0.62
Unit: m
• Maximum root system extent was usually on the downslope side.
• Average maximum rooting depth equals 1.58m (± 0.47 SD), always the taproot, every tree on levee has a taproot.
Tree numbers on levee: 17
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Root system morphological plasticity in relation to levee geometry
0o 360o Alternating growth directions
Shallow surface growth pattern
Tap root
2nd order
3rd
4th
5th
3rd
asymmetry Slope profile
symmetry Parallel to the levee
Horizontal growth pattern
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Root system Upslope VS. Downslope asymmetry
• Downslope side: more trees have further root extent, greater biomass, and higher root number
• Why are more roots on downslope side of the levee than upslope side?
Upslope Downslope
Further Root Extent 5 11
Greater Biomass 5 11
Higher Root Number 4 12
Upslope Levee side
Downslope river side
Bulk density
0 m
150 m
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Root biomass distribution
Upslope VS. Downslope
• Based on the Root Biomass Model by using the Tomographic approach
• Biomass = a + b * Root Extent
• Yi = ß0 + ß1 Xi + ß2 Xi 1(Xi) + εi, i = 1, 2, …, 48
- Yi is the natural logarithm of the RCSA/profile of the ith VTP map
- Xi is the ith VTP map’s distance to the TCS point
- 1(Xi) is an indicator function defined as:
- 1(Xi) = 1, if Xi is downslope; 1(Xi) = 0, if Xi is upslope.
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Root biomass rate of decrease Tree ID Upslope Downslope Pr(>|t|)
v6 √ <0.05
v7 √ <0.05
v8 √ <0.05
v9 √ <0.05
v12 √ <0.05 v13 - disturbed
slope √ <0.05
v14 √ <0.05
v15 √ <0.05 v16 - tiny root
system √ NS
v17 √ <0.05
v19 √ <0.05
v20 √ <0.05
v21 √ <0.05
v22 √ <0.05
v23 √ NS
p2009 √ <0.05
Upslope
Downslope
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Root system symmetry
1
2 3
4
5
6 7
8
• The second order roots as the major structural roots (the 1st order root is the taproot)
• Two groups
- Parallel to levee (1, 4, 5, 8 sectors)
- Perpendicular to levee (2, 3, 6, 7 sectors)
• More second order roots parallel to levee for every tree Levee
River Parallel VS. Perpendicular
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Shallow/horizontal growth pattern
• Average rooting depth from 0.35m to 0.8m.
• 90% root biomass from the depth of 0.38m to 1.55m
• More horizontal roots than other type of roots in every root system
0 360
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Root branching pattern
• Oppelt et al. 2001
• Quantitatively illustrating the branching pattern of root systems
• Dichotomous (RT=0) to herringbone (RT=1) branching RT= 0.109 RT= 1
General patterns of root systems
Use root topological index (RT)
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Root branching pattern vs. DBH
DBH
RT Index
• Bigger tree has lower RT index
• Small trees are tend to be more herringbone branching
• Higher RT index may represent mechanically stable
Aboveground parameter:
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Trees growing in flat ground • General patterns of root
systems on a flat plain may be more symmetrical (Stokes and Mettheck, 1996)
• Our results (One cottonwood and one valley oak in Vernalis) correspond with the previous study
• Symmetrical and absence of taproot
• Root biomass radially distributes with an exponential decreasing trend
Valley Oak Cottonwood
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Data/Model applications
1. Below-ground biomass estimation
2. Levee slope stability modeling
3. Levee slope surface erosion mapping
4. Levee vulnerability assessment
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1. Below-ground biomass estimation
Aboveground parameter: DBH
Root Biomass R2=0.83
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2. Levee slope stability modeling
• Virtual trench profiles can be used to locate the root system within the potential failure plane of levee slope for modeling
• RAR and CSA can then be used to determine Factor Of Safety (FOS) in levee slope stability model
• RAR and CSA
Virtual trench profile of potential failure plane
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3. Levee slope surface erosion mapping
Soil - Root source/sink dynamics
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4. Levee vulnerability assessment
Potential root system
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Thanks, Q & A