skip to main content
OSTI.GOV title logo U.S. Department of Energy
Office of Scientific and Technical Information

Title: A hybrid data–model approach to map soil thickness in mountain hillslopes

Journal Article · · Earth Surface Dynamics (Online)
; ORCiD logo; ORCiD logo; ; ; ORCiD logo; ORCiD logo;

Abstract. Soil thickness plays a central role in the interactions between vegetation, soils, and topography, where it controls the retention and release of water, carbon, nitrogen, and metals. However, mapping soil thickness, here defined as the mobile regolith layer, at high spatial resolution remains challenging. Here, we develop a hybrid model that combines a process-based model and empirical relationships to estimate the spatial heterogeneity of soil thickness with fine spatial resolution (0.5 m). We apply this model to two aspects of hillslopes (southwest- and northeast-facing, respectively) in the East River watershed in Colorado. Two independent measurement methods – auger and cone penetrometer – are used to sample soil thickness at 78 locations to calibrate the local value of unconstrained parameters within the hybrid model. Sensitivity analysis using the hybrid model reveals that the diffusion coefficient used in hillslope diffusion modeling has the largest sensitivity among all input parameters. In addition, our results from both sampling and modeling show that, in general, the northeast-facing hillslope has a deeper soil layer than the southwest-facing hillslope. By comparing the soil thickness estimated between a machine-learning approach and this hybrid model, the hybrid model provides higher accuracy and requires less sampling data. Modeling results further reveal that the southwest-facing hillslope has a slightly faster surface soil erosion rate and soil production rate than the northeast-facing hillslope, which suggests that the relatively less dense vegetation cover and drier surface soils on the southwest-facing slopes influence soil properties. With seven parameters in total for calibration, this hybrid model can provide a realistic soil thickness map with a relatively small amount of sampling dataset comparing to machine-learning approach. Integrating process-based modeling and statistical analysis not only provides a thorough understanding of the fundamental mechanisms for soil thickness prediction but also integrates the strengths of both statistical approaches and process-based modeling approaches.

Research Organization:
Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Biological and Environmental Research (BER)
Grant/Contract Number:
AC02- 05CH11231; AC02-05CH11231
OSTI ID:
1825184
Alternate ID(s):
OSTI ID: 1827349
Journal Information:
Earth Surface Dynamics (Online), Journal Name: Earth Surface Dynamics (Online) Vol. 9 Journal Issue: 5; ISSN 2196-632X
Publisher:
Copernicus GmbHCopyright Statement
Country of Publication:
Germany
Language:
English

References (49)

LORICA – A new model for linking landscape and soil profile evolution: Development and sensitivity analysis journal May 2016
The utility of remotely-sensed vegetative and terrain covariates at different spatial resolutions in modelling soil and watertable depth (for digital soil mapping) journal February 2013
The Ecology of Soil Carbon: Pools, Vulnerabilities, and Biotic and Abiotic Controls journal November 2017
Hydrologic controls on equilibrium soil depths: HYDROLOGIC CONTROLS ON SOIL DEPTH journal April 2011
Hydrogeomorphological differentiation between floodplains and terraces: DISTINGUISHING BETWEEN FLOODPLAINS AND TERRACES journal October 2017
Prediction of soil depth using environmental variables in an anthropogenic landscape, a case study in the Western Ghats of Kerala, India journal October 2009
Modeling soil depth from topographic and land cover attributes: SOIL DEPTH FROM TOPOGRAPHY AND LAND COVER journal October 2009
Factorial Sampling Plans for Preliminary Computational Experiments journal May 1991
A quantitative model for integrating landscape evolution and soil formation: MODELLING LANDSCAPE AND SOIL FORMATION journal April 2013
Assessment of Spatiotemporal Variability of Evapotranspiration and Its Governing Factors in a Mountainous Watershed journal January 2019
Which way do you lean? Using slope aspect variations to understand Critical Zone processes and feedbacks: Which way do you lean? journal February 2018
Geomorphically based predictive mapping of soil thickness in upland watersheds: PREDICTION OF SOIL THICKNESS journal September 2009
Soil production on a retreating escarpment in southeastern Australia journal September 2000
Hillslope evolution by diffusive processes: The timescale for equilibrium adjustments journal June 1997
The frontier beneath our feet: FRONTIER BENEATH OUR FEET journal April 2017
Performance Comparison of Overland Flow Algorithms journal April 1998
Climate in the Southern Sawatch Range and Elk Mountains, Colorado, U.S.A., during the Last Glacial Maximum: Inferences Using a Simple Degree-Day Model journal May 2010
Global covariation of carbon turnover times with climate in terrestrial ecosystems journal September 2014
A new dynamic wetness index (DWI) predicts soil moisture persistence and correlates with key indicators of surface soil geochemistry journal June 2020
Hillslope Hydrology in Global Change Research and Earth System Modeling journal February 2019
The illusion of diffusion: Field evidence for depth-dependent sediment transport journal January 2005
Evidence for nonlinear, diffusive sediment transport on hillslopes and implications for landscape morphology journal March 1999
The soil production function and landscape equilibrium journal July 1997
Hillslope evolution by nonlinear, slope-dependent transport: Steady state morphology and equilibrium adjustment timescales journal August 2001
Evidence for biotic controls on topography and soil production journal September 2010
Fitting degradation of shoreline scarps by a nonlinear diffusion model journal January 1987
The East River, Colorado, Watershed: A Mountainous Community Testbed for Improving Predictive Understanding of Multiscale Hydrological–Biogeochemical Dynamics journal January 2018
Predicting soil thickness on soil mantled hillslopes journal August 2018
Numerical methods for nonlinear hillslope transport laws: NUMERICAL METHODS FOR NONLINEAR HILLSLOPE TRANSPORT journal June 2011
An empirical geomorphology-based approach to the spatial prediction of soil thickness at catchment scale: CATCHMENT-SCALE SOIL DEPTH PREDICTION journal May 2010
Sustainability of soil organic carbon in consolidated gully land in China’s Loess Plateau journal October 2020
Problems for Judgment and Decision Making journal February 2001
Mapping the global depth to bedrock for land surface modeling: GLOBAL MAP OF DEPTH TO BEDROCK journal January 2017
Stochastic processes of soil production and transport: erosion rates, topographic variation and cosmogenic nuclides in the Oregon Coast Range journal January 2001
Coevolution of nonlinear trends in vegetation, soils, and topography with elevation and slope aspect: A case study in the sky islands of southern Arizona: COEVOLUTION IN SKY ISLANDS journal May 2013
Topographic controls of soil organic carbon on soil-mantled landscapes journal April 2019
Three‐Dimensional Modeling of the Coevolution of Landscape and Soil Organic Carbon journal February 2019
The ‘humped’ soil production function: eroding Arnhem Land, Australia journal September 2009
Integrating airborne remote sensing and field campaigns for ecology and Earth system science journal September 2020
Aspect control of water movement on hillslopes near the rain-snow transition of the Colorado Front Range: SNOWMELT AND HYDROLOGICAL FLOW PATHS ON OPPOSING HILLSLOPE ASPECTS journal October 2012
An effective screening design for sensitivity analysis of large models journal October 2007
Making sense of global sensitivity analyses journal April 2014
Thickness of the chemical weathering zone and implications for erosional and climatic drivers of weathering and for carbon-cycle feedbacks journal September 2012
A gridded global data set of soil, intact regolith, and sedimentary deposit thicknesses for regional and global land surface modeling journal January 2016
The Jackknife, the Bootstrap and Other Resampling Plans book January 1982
Predicting sedimentary bedrock subsurface weathering fronts and weathering rates journal November 2019
Random Forests journal January 2001
A process-based model for colluvial soil depth and shallow landsliding using digital elevation data journal April 1995
A generic framework for spatial prediction of soil variables based on regression-kriging journal May 2004

Similar Records

Related Subjects

58 GEOSCIENCES