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Khosravi, Vahid; Gholizadeh, Asa; Žížala, Daniel; Kodešová, Radka; Saberioon, Mohammadmehdi; Agyeman, Prince Chapman; Vokurková, Petra; Juřicová, Anna; Spasić, Marko; Borůvka, Luboš
Soil & tillage research, September 2024, 2024-09-00, Letnik: 241Journal Article
Soil organic carbon (SOC) distribution and interaction with light is influenced by soil texture parameters (clay, silt and sand), which makes SOC prediction complicated, especially in samples with considerable pedological variability. Hence, understanding the relationship between SOC and soil texture is important within the context of SOC prediction using remote sensing data. The main objective of this study was to find the impact of soil texture on the performance of local SOC prediction models that were developed on Sentinel-2 (S2) multispectral and CASI/SASI (CS) hyperspectral airborne data as the main predictor variables. One approach to that objective was to lowering the texture variance by stratification of the samples. Therefore, soil samples collected from four agricultural sites in the Czech Republic were segregated based on the i) site-based and ii) texture-based stratification strategies. Random forest (RF) models were then developed on all stratified classes with and without considering the soil texture parameters as predictor variables and results were compared with those obtained by the RF models developed on the non-stratified (NS) samples. Both stratification strategies provided more homogeneous classes, which enhanced the accuracy of SOC prediction, compared to using the NS samples. In addition, the texture-based RF models yielded higher accuracy predictions than the site-based ones. Except sand, adding texture parameters to the main predictors improved accuracy of the models, so that the highest prediction performance was obtained by a texture-based model developed on clay added CS data. Overall, texture-based stratification could significantly enhance the SOC prediction, when the texture parameters were added to the S2 and CS data as the main predictor variables. •Adding texture parameters to remote sensing data was tested on SOC quantification.•Models developed on CS outperformed those developed on S2 data.•Stratification of samples yielded better predictions than using non-stratified ones.•Models developed on texture-based stratified samples were more successful.•Among all texture parameters, adding clay led the best prediction results.
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