Clays Are Not Created Equal: How Clay Mineral Type Affects Soil Parameterization

Clays Are Not Created Equal: How Clay Mineral Type Affects Soil Parameterization

Abstract Clay minerals dominate the soil colloidal fraction and its specific surface area. Differences among clay mineral types significantly influence their effects on soil hydrological and mechanical behavior. Presently, the soil clay content is used to parameterize soil hydraulic and mechanical p...

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Bibliographic Details
Main Authors: P. Lehmann, B. Leshchinsky, S. Gupta, B. B. Mirus, S. Bickel, N. Lu, D. Or
Format: Article
Language:English
Published: Wiley 2021-10-01
Series:Geophysical Research Letters
Subjects:
clay mineral
Soil hydraulic properties
pedotransfer functions
friction angle
clay fraction
Online Access:https://doi.org/10.1029/2021GL095311
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Summary:Abstract Clay minerals dominate the soil colloidal fraction and its specific surface area. Differences among clay mineral types significantly influence their effects on soil hydrological and mechanical behavior. Presently, the soil clay content is used to parameterize soil hydraulic and mechanical properties (SHMP) for land surface models while disregarding the type of clay mineral. This undifferentiated use of clay leads to inconsistent parameterization, particularly between tropical and temperate soils, as shown herein. We capitalize on recent global maps of clay minerals that exhibit strong climatic and spatial segregation of active and inactive clays to consider spatially resolved clay mineral types in SHMP estimation. Clay mineral‐informed pedotransfer functions and machine learning algorithms trained with datasets including different clay types and soil structure formation processes improve SHMP representation regionally with broad implications for hydrological and geomechanical Earth surface processes.
ISSN:0094-8276
1944-8007

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