Digital soil mapping(DSM)aims to produce detailed maps of soil properties or soil classes to improve agricultural management and soil quality assessment.Optimized sampling design can reduce the substantial costs and efforts associated with sampling,profile description,and laboratory analysis.The purpose of this study was to compare common sampling designs for DSM,including grid sampling(GS),grid random sampling(GRS),stratified random sampling(StRS),and conditioned Latin hypercube sampling(cLHS).In an agricultural field(11 ha)in Quebec,Canada,a total of unique 118 locations were selected using each of the four sampling designs(45 locations each),and additional 30 sample locations were selected as an independent testing dataset(evaluation dataset).Soil visible near-infrared(Vis-NIR)spectra were collected in situ at the 148 locations(1m depth),and soil cores were collected from a subset of 32 locations and subdivided at 10-cm depth intervals,totaling 251 samples.The Cubist model was used to elucidate the relationship between Vis-NIR spectra and soil properties(soil organic matter(SOM)and clay),which was then used to predict the soil properties at all 148 sample locations.Digital maps of soil properties at multiple depths for the entire field(148 sample locations)were prepared using a quantile random forest model to obtain complete model maps(CM-maps).Soil properties were also mapped using the samples from each of the 45 locations for each sampling design to obtain sampling design maps(SD-maps).The SD-maps were evaluated using the independent testing dataset(30 sample locations),and the spatial distribution and model uncertainty of each SD-map were compared with those of the corresponding CM-map.The spatial and feature space coverage were compared across the four sampling designs.The results showed that GS resulted in the most even spatial coverage,cLHS resulted in the best coverage of the feature space,and GS and cLHS resulted in similar prediction accuracies and spatial distributions of soil properties.The SOM content was underestimated using GRS,with large errors at 0-50 cm depth,due to some values not being captured by this sampling design,whereas larger errors for the deeper soil layers were produced using StRS.Predictions of SOM and clay contents had higher accuracy for topsoil(0-30 cm)than for deep subsoil(60-100 cm).It was concluded that the soil sampling designs with either good spatial coverage or feature space coverage can provide good accuracy in 3D DSM,but their performances may be different for different soil properties.

Yakun ZHANG;Daniel D.SAURETTE;Tahmid Huq EASHER;Wenjun JI;Viacheslav I.ADAMCHUK;Asim BISWAS

University of Wisconsin-Madison,Department of Soil Science,FD Hole Soils Lab,1525 Observatory Drive,Madison WI53706(USA);School of Environmental Sciences,University of Guelph,50 Stone Road East,Guelph ON NIG 2W1(Canada);College of Land Science and Technology,China Agricultural University,Beijing 100083(China);Department of Bioresource Engineering,McGill University,21111 Lakeshore Road,Ste-Anne-de-Bellevue QC H9X 3V9(Canada)

土壤圈（英文版）

[1]Yakun ZHANG;Daniel D.SAURETTE;Tahmid Huq EASHER;Wenjun JI;Viacheslav I.ADAMCHUK;Asim BISWAS-.Comparison of sampling designs for calibrating digital soil maps at multiple depths)[J].土壤圈（英文版）,2022(04):588-601

StRS,cLHS,Quebec

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