Climate and land use changes explain variation in the A horizon and soil thickness in the United States

Climate and land use changes explain variation in the A horizon and soil thickness in the United States

Understanding spatio-temporal changes in soil thickness and their natural and anthropogenic driving factors are essential for earth system modeling and natural resource conservation. It remains challenging to accurately quantify the spatial pattern of soil thickness, and there is no assessment of it...

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Bibliographic Details
Published in:Communications earth & environment Vol. 5; no. 1; pp. 129 - 11
Main Authors: Zhang, Yakun, Hartemink, Alfred E., Vanwalleghem, Tom, Bonfatti, Benito Roberto, Moen, Steven
Format: Journal Article
Language:English
Published: London Nature Publishing Group 01-12-2024
Nature Portfolio
Subjects:
Anthropocene
Anthropogenic factors
Biogeochemical cycles
Climatic zones
Conservation
Conservation practices
Horizon
Land resources
Land use
Natural resources
Resource conservation
Soil analysis
Soil erosion
Soil formation
Soil moisture
Soil surveys
Soil temperature
Spatial distribution
Temporal variations
Thickness
Topsoil
United States > US
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Summary:Understanding spatio-temporal changes in soil thickness and their natural and anthropogenic driving factors are essential for earth system modeling and natural resource conservation. It remains challenging to accurately quantify the spatial pattern of soil thickness, and there is no assessment of its temporal changes at the national scale across eco-climatic zones. Here we compiled a long-term (1950–2018), large-scale (conterminous United States of America) topsoil (A horizon, n = 37,712) and solum (22,409) thickness data to quantify their spatial and temporal variations using generalized additive models and selected chronosequences in land resource regions. Climate was found associated with the spatial distribution of soil thickness, and land use and erosion associated with its temporal variation. The A horizon and solum thickness displayed strong longitudinal patterns, correlated with soil moisture and temperature, respectively. Temporal changes in the thickness varied across land resource regions, affected by topography, land use, and erosion. Severe A horizon loss primarily occurred in Mollisols of the Central Great Plains, Alfisols on steep slopes, and soils under cropping. These findings enhanced our fundamental understanding of soil formation and biogeochemical cycles during the Anthropocene across scales and identified regions for conservation practices to reduce further topsoil loss.
ISSN:2662-4435
2662-4435
DOI:10.1038/s43247-024-01299-6