2022
DOI: 10.1111/ejss.13300
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Assessment of global, national and regional‐level digital soil mapping products at different spatial supports

Abstract: Digital soil mapping provides estimates of soil properties and, in turn, an understanding of the spatial variation in soil across landscapes. In recent years, several digital soil mapping products have been released across the world. An end user in New South Wales (NSW), Australia, could choose between a global product (SoilGrids), a national product (Soil and Landscape Grid of Australia) and a state product (NSW digital soil maps). All predict at grid resolutions of 250 m or less, which approaches the require… Show more

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Cited by 8 publications
(2 citation statements)
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“…While many DSM studies promote the importance of the products for farmers, many farmers do not know they exist; or if they do, they may not trust the quality of the predictions. A study by Han et al (2022) demonstrated how poor global, national, and state DSM products were at representing withinfarm variability across a collection of diverse cropping fields and farms in Australia.…”
Section: Introductionmentioning
confidence: 99%
“…While many DSM studies promote the importance of the products for farmers, many farmers do not know they exist; or if they do, they may not trust the quality of the predictions. A study by Han et al (2022) demonstrated how poor global, national, and state DSM products were at representing withinfarm variability across a collection of diverse cropping fields and farms in Australia.…”
Section: Introductionmentioning
confidence: 99%
“…Spatial prediction machine learning models that incorporate terrain information may provide a powerful method to enhance process-based SOC models (see “Future Research” Section in the Results and Discussion Section). Recent studies have also pointed out that digital soil mapping (DSM) products generated over large spatial extents were unable to capture SOC variability at the local scale, , calling for DSM products to be created at different spatial scales. Accounting for the relationships between terrain and SOC at different scales may, therefore, be a key component for improving the monitoring, mapping, and predicting of SOC concentrations, thus supporting more accurate carbon accounting at various scales, as required for project-level interventions to national- and global-scale reporting …”
Section: Introductionmentioning
confidence: 99%