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Table of Contents
Preface
Foreword
What is Digital Soil Morphometrics and Where Might it be Going?
Part I: Soil Profile Properties
Quantifying Soil Structure and Porosity Using Three-dimensional Laser Scanning
Portable X-ray Fluorescence (pXRF) for Determining Cr and Ni Contents of Serpentine Soils in the Field
In situ Analysis of Soil Mineral Composition Through Conjoint Use of Visible, Near-infrared and X-ray Fluorescence Spectroscopy
The Effect of Soil Moisture and Texture on Fe Concentration Using Portable X-ray Fluorescence Spectrometers
Estimating Soil Texture from a Limited Region of the Visible/Near-infrared Spectrum
Estimating Soil Properties with a Mobile Phone
Part II: Soil Profile Imaging
Advances Towards Quantitative Assessments of Soil Profile Properties
Computer Graphics Procedural Modeling of Soil Structure
Soil Profile Imaging for Estimating the Depth Distributions of Clay, Iron, and Hydrological Conditions of Soils Under Rice in Northern Taiwan
Variation of Soil Properties in a Mollisol Profile Wall
Mapping a Profile Wall of a Typic Udipsamments from the Central Sands in Wisconsin, USA
Comparative analysis of Saturated Hydraulic Conductivity (Ksat) Derived from Image Analysis of Soil Thin Sections, Pedotransfer Functions, and Field-measured Methods
Part III: Soil Depth Functions
Measuring and Modelling Soil Depth Functions
Electrical Conductivity Depth Functions for Delineating Paleosols
Numerical Clustering of Soil Series Using Profile Morphological Attributes for Potato
Digital Summaries of Pedon Descriptions
Probabilistic Representation of Genetic Soil Horizons
Using Soil Depth Functions to Distinguish Dystric from Xanthic Ferralsols in the Landscape
Comparing Soil C Stocks from Soil Profile Data Using Four Different Methods
Evaluation of Pedotransfer Equations to Predict Deep Soil Carbon Stock in Tropical Podzols Compared to Other Soils of the Brazilian Amazon Forest
Part IV: Digital Soil Morphometrics
Use and Applications
The Next Generation of Soil Survey Digital Products
Digital Soil Morphometrics Brings Revolution to Soil Classification
From Profile Morphometrics to Digital Soil Mapping
Cone Penetrometers as a Tool for Distinguishing Soil Profiles and Mapping Soil Erosion
Use of Ground Penetrating Radar to Determine Depth to Compacted Layer in Soils Under Pasture
Part V: Summary and Conclusions
Developments in Digital Soil Morphometrics.
Foreword
What is Digital Soil Morphometrics and Where Might it be Going?
Part I: Soil Profile Properties
Quantifying Soil Structure and Porosity Using Three-dimensional Laser Scanning
Portable X-ray Fluorescence (pXRF) for Determining Cr and Ni Contents of Serpentine Soils in the Field
In situ Analysis of Soil Mineral Composition Through Conjoint Use of Visible, Near-infrared and X-ray Fluorescence Spectroscopy
The Effect of Soil Moisture and Texture on Fe Concentration Using Portable X-ray Fluorescence Spectrometers
Estimating Soil Texture from a Limited Region of the Visible/Near-infrared Spectrum
Estimating Soil Properties with a Mobile Phone
Part II: Soil Profile Imaging
Advances Towards Quantitative Assessments of Soil Profile Properties
Computer Graphics Procedural Modeling of Soil Structure
Soil Profile Imaging for Estimating the Depth Distributions of Clay, Iron, and Hydrological Conditions of Soils Under Rice in Northern Taiwan
Variation of Soil Properties in a Mollisol Profile Wall
Mapping a Profile Wall of a Typic Udipsamments from the Central Sands in Wisconsin, USA
Comparative analysis of Saturated Hydraulic Conductivity (Ksat) Derived from Image Analysis of Soil Thin Sections, Pedotransfer Functions, and Field-measured Methods
Part III: Soil Depth Functions
Measuring and Modelling Soil Depth Functions
Electrical Conductivity Depth Functions for Delineating Paleosols
Numerical Clustering of Soil Series Using Profile Morphological Attributes for Potato
Digital Summaries of Pedon Descriptions
Probabilistic Representation of Genetic Soil Horizons
Using Soil Depth Functions to Distinguish Dystric from Xanthic Ferralsols in the Landscape
Comparing Soil C Stocks from Soil Profile Data Using Four Different Methods
Evaluation of Pedotransfer Equations to Predict Deep Soil Carbon Stock in Tropical Podzols Compared to Other Soils of the Brazilian Amazon Forest
Part IV: Digital Soil Morphometrics
Use and Applications
The Next Generation of Soil Survey Digital Products
Digital Soil Morphometrics Brings Revolution to Soil Classification
From Profile Morphometrics to Digital Soil Mapping
Cone Penetrometers as a Tool for Distinguishing Soil Profiles and Mapping Soil Erosion
Use of Ground Penetrating Radar to Determine Depth to Compacted Layer in Soils Under Pasture
Part V: Summary and Conclusions
Developments in Digital Soil Morphometrics.