Geocarto International (Jan 2024)

Exploring laboratory-based spectroscopy for estimating NPK content in the hutton soils of Syferkuil Farmlands, South Africa

  • Frederick Mokibelo Mashao,
  • Sokisi Jonas Thaba,
  • Ntshuxeko Pertunia Muyambo,
  • Charity Ramathabatha Tjale,
  • Phumlani Sabelo Magnificent Zwane,
  • Lawrence Munjonji,
  • Dimakatso Nkuna,
  • Kingsley Kwabena Ayisi,
  • Kgabo Humphrey Thamaga

DOI
https://doi.org/10.1080/10106049.2024.2339289
Journal volume & issue
Vol. 39, no. 1

Abstract

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This study seeks to identify the key wavelengths and spectral transformation techniques that may be used to accurately estimate soil nitrogen, phosphorus, and potassium (NPK) concentration in the Hutton soils. For this purpose, the reflectance spectra of 74 soil samples were measured in the laboratory, and the chemical properties of the soil were analysed. Pearson correlation (r), stepwise multiple linear regression (SMLR), and Partial Least Square Regression were used to model the relationships between the selected variables under study. The study findings revealed that moderate to weak correlations (r = −0.2 − 0.6) exist between wavelengths (400 − 2500 nm) and soil NPK content. Important wavelengths for accurately predicting Soil NPK content were found within visible (400 nm − 729nm), near-infrared (805 nm − 1200nm) and mid-infrared region (1375 nm to 2462 nm). The PLSR model coupled with different spectral transformations was found to be the optimal model for estimating soil NPK (RPD > 2). The introduction of the first and second derivate spectral transformation approach markedly improved all the models investigated in this study. The results retrieved from the study provide a high-accuracy prediction of soil nutrient contents, which is critical for soil fertility management and sustainable food production.

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