Predictive soil property map: Clay content

These data were compiled to demonstrate new predictive mapping approaches and provide comprehensive gridded 30-meter resolution soil property maps for the Colorado River Basin above Hoover Dam. Random forest models related environmental raster layers representing soil forming factors with field samples to render predictive maps that interpolate between sample locations. Maps represented soil pH, texture fractions (sand, silt clay, fine sand, very fine sand), rock, electrical conductivity (ec), gypsum, CaCO3, sodium adsorption ratio (sar), available water capacity (awc), bulk density (dbovendry), erodibility (kwfact), and organic matter (om) at 7 depths (0, 5, 15, 30, 60, 100, and 200 cm) as well as depth to restrictive layer (resdept) and surface rock size and cover. Accuracy and error estimated using a 10-fold cross validation indicated a range of model performances with coefficient of variation (R2) for models ranging from 0.20 to 0.76 with mean of 0.52 and a standard deviation of 0.12. Models of pH, om and ec had the best accuracy (R2 > 0.6). Most texture fractions, CaCO3, and SAR models had R2 values from 0.5-0.6. Models of kwfact, dbovendry, resdept, rock models, gypsum and awc had R2 values from 0.4-0.5 excepting near surface models which tended to perform better. Very fine sands and 200 cm estimates for other models generally performed poorly (R2 from 0.2-0.4), and sample size for the 200 cm models was too low for reliable model building. More than 90% of the soils data used was sampled since 2000, but some older samples are included. Uncertainty estimates were also developed by creating relative prediction intervals, which allow end users to evaluate uncertainty easily.

Data e Risorse

Campo Valore
accessLevel public
bureauCode {010:12}
catalog_@context https://project-open-data.cio.gov/v1.1/schema/catalog.jsonld
catalog_conformsTo https://project-open-data.cio.gov/v1.1/schema
catalog_describedBy https://project-open-data.cio.gov/v1.1/schema/catalog.json
datagov_dedupe_retained 20220722114234
identifier USGS:5e90b1aa82ce172707ed639c
metadata_type geospatial
modified 20200827
old-spatial {"type": "Polygon", "coordinates": [[[-116.0000, 33.3000], [-116.0000, 44.0000], [ -105.2000, 44.0000], [ -105.2000, 33.3000], [-116.0000, 33.3000]]]}
publisher U.S. Geological Survey
publisher_hierarchy Department of the Interior > U.S. Geological Survey
resource-type Dataset
source_datajson_identifier true
source_hash 2a9c196958daea97878a8503e166a16484764a9f
source_schema_version 1.1
spatial {"type": "Polygon", "coordinates": [[[-116.0000, 33.3000], [-116.0000, 44.0000], [ -105.2000, 44.0000], [ -105.2000, 33.3000], [-116.0000, 33.3000]]]}
theme {geospatial}
Gruppi
  • AmeriGEOSS
  • National Provider
  • North America
Tag
  • accuracy-and-error-estimated
  • amerigeo
  • amerigeoss
  • arizona
  • available-water-capacity
  • bulk-density
  • calcium-carbonate
  • ckan
  • colorado
  • colorado-river
  • colorado-river-basin
  • colorado-river-basin-above-hoover-dam
  • digital-soil-mapping
  • electrical-conductivity
  • environmental-conditions
  • environmental-raster-layers
  • erodibility
  • geo
  • geoscientificinformation
  • geoss
  • gypsum
  • hoover-dam
  • interpolate
  • machine-learning
  • maps-and-atlases
  • national
  • nevada
  • new-mexico
  • north-america
  • organic-matter
  • predicitve-modeling
  • predictive-mapping
  • predictive-maps
  • random-forest-models
  • random-forests
  • restrictive-layer
  • rock
  • sodium-adsorption-ratio
  • soil-conductivity
  • soil-density
  • soil-forming-factors
  • soil-ph
  • soil-properties
  • soil-property-maps
  • soil-sciences
  • soil-texture
  • soils
  • surface-rock-cover
  • surface-rock-size
  • texture-fractions
  • uncertainty
  • united-states
  • usgs-5e90b1aa82ce172707ed639c
  • utah
  • wyoming
isopen False
license_id notspecified
license_title License not specified
maintainer Travis W Nauman
maintainer_email tnauman@usgs.gov
metadata_created 2025-11-21T19:22:54.791845
metadata_modified 2025-11-21T19:22:54.791849
notes These data were compiled to demonstrate new predictive mapping approaches and provide comprehensive gridded 30-meter resolution soil property maps for the Colorado River Basin above Hoover Dam. Random forest models related environmental raster layers representing soil forming factors with field samples to render predictive maps that interpolate between sample locations. Maps represented soil pH, texture fractions (sand, silt clay, fine sand, very fine sand), rock, electrical conductivity (ec), gypsum, CaCO3, sodium adsorption ratio (sar), available water capacity (awc), bulk density (dbovendry), erodibility (kwfact), and organic matter (om) at 7 depths (0, 5, 15, 30, 60, 100, and 200 cm) as well as depth to restrictive layer (resdept) and surface rock size and cover. Accuracy and error estimated using a 10-fold cross validation indicated a range of model performances with coefficient of variation (R2) for models ranging from 0.20 to 0.76 with mean of 0.52 and a standard deviation of 0.12. Models of pH, om and ec had the best accuracy (R2 > 0.6). Most texture fractions, CaCO3, and SAR models had R2 values from 0.5-0.6. Models of kwfact, dbovendry, resdept, rock models, gypsum and awc had R2 values from 0.4-0.5 excepting near surface models which tended to perform better. Very fine sands and 200 cm estimates for other models generally performed poorly (R2 from 0.2-0.4), and sample size for the 200 cm models was too low for reliable model building. More than 90% of the soils data used was sampled since 2000, but some older samples are included. Uncertainty estimates were also developed by creating relative prediction intervals, which allow end users to evaluate uncertainty easily.
num_resources 2
num_tags 55
title Predictive soil property map: Clay content