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Extrapolation of Digital Soil Mapping Approaches for Soil Organic Carbon Stock Predictions in an Afromontane Environment

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  • Jaco Kotzé

    (Department of Soil, Crop, and Climate Sciences, University of the Free State, Bloemfontein 9301, South Africa
    Afromontane Research Unit, Department of Geography, University of the Free State, Qwaqwa Campus, Private Bag X13, Phuthaditjhaba 9866, South Africa)

  • Johan van Tol

    (Department of Soil, Crop, and Climate Sciences, University of the Free State, Bloemfontein 9301, South Africa
    Afromontane Research Unit, Department of Geography, University of the Free State, Qwaqwa Campus, Private Bag X13, Phuthaditjhaba 9866, South Africa)

Abstract

Soil scientists can aid in an essential part of ecological conservation and rehabilitation by quantifying soil properties, such as soil organic carbon (SOC), and is stock (SOCs) SOC is crucial for providing ecosystem services, and, through effective C-sequestration, the effects of climate change can be mitigated. In remote mountainous areas with complex terrain, such as the northern Maloti-Drakensberg in South Africa and Lesotho, direct quantification of stocks or even obtaining sufficient data to construct predictive Digital Soil Mapping (DSM) models is a tedious and expensive task. Extrapolation of DSM model and algorithms from a relatively accessible area to remote areas could overcome these challenges. The aim of this study was to determine if calibrated DSM models for one headwater catchment (Tugela) can be extrapolated without re-training to other catchments in the Maloti-Drakensberg region with acceptable accuracy. The selected models were extrapolated to four different headwater catchments, which included three near the Motete River (M1, M2, and M3) in Lesotho and one in the Vemvane catchment adjacent to the Tugela. Predictions were compared to measured stocks from the soil sampling sites (n = 98) in the various catchments. Results showed that based on the mean results from Universal Kriging (R 2 = 0.66, NRMSE = 0.200, and ρ c = 0.72), least absolute shrinkage and selection operator or LASSO (R 2 = 0.67, NRMSE = 0.191, and ρ c = 0.73) and Regression Kriging with cubist models (R 2 = 0.61, NRMSE = 0.184, and ρ c = 0.65) had the most satisfactory outcome, whereas the soil-land inference models (SoLIM) struggled to predict stocks accurately. Models in the Vemvane performed the worst of all, showing that that close proximity does not necessarily equal good similarity. The study concluded that a model calibrated in one catchment can be extrapolated. However, the catchment selected for calibration should be a good representation of the greater area, otherwise a model might over- or under-predict SOCs. Successfully extrapolating models to remote areas will allow scientists to make predictions to aid in rehabilitation and conservation efforts of vulnerable areas.

Suggested Citation

  • Jaco Kotzé & Johan van Tol, 2023. "Extrapolation of Digital Soil Mapping Approaches for Soil Organic Carbon Stock Predictions in an Afromontane Environment," Land, MDPI, vol. 12(3), pages 1-18, February.
  • Handle: RePEc:gam:jlands:v:12:y:2023:i:3:p:520-:d:1075067
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    References listed on IDEAS

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    1. Kelebohile Rose Seboko & Elmarie Kotze & Johan van Tol & George van Zijl, 2021. "Characterization of Soil Carbon Stocks in the City of Johannesburg," Land, MDPI, vol. 10(1), pages 1-12, January.
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