Soil spectral inference in the Western Highveld, South Africa: evaluating spiking as a tool for improved modeling accuracy

Soil spectral inference in the Western Highveld, South Africa: evaluating spiking as a tool for improved modeling accuracy

Global soil spectral libraries are a cornerstone of precision agriculture, yet their predictive accuracy is often limited in underrepresented regions like South Africa due to a lack of local data. This study evaluates a spiking strategy –where the global Open Soil Spectral Library (OSSL) is augmente...

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Bibliographic Details
Main Authors: A Kock, G M Van Zijl
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:Environmental Research Communications
Subjects:
soil spectroscopy
local prediction models
machine learning
cubist
mid-infrared
data augmentation
Online Access:https://doi.org/10.1088/2515-7620/adf698
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Summary:Global soil spectral libraries are a cornerstone of precision agriculture, yet their predictive accuracy is often limited in underrepresented regions like South Africa due to a lack of local data. This study evaluates a spiking strategy –where the global Open Soil Spectral Library (OSSL) is augmented with local data– to improve soil property prediction in South Africa’s Western Highveld. Using mid-infrared (MIR) spectroscopy, we created a local dataset and spiked the OSSL at varying levels. We then employed machine learning models to predict key agricultural soil properties (extractable Ca, K, Mg, Na, and P as Bray-1). Results showed that spiking dramatically improved prediction accuracy; a one-fold spiking level reduced the Root Mean Square Error (RMSE) for Ca from 1128.45 mg.kg ^−1 to 46.09 mg.kg ^−1 and for Mg from 206.92 mg.kg ^−1 to 45.12 mg.kg ^−1 . Despite this success, locally calibrated models remained superior, achieving an R ^2 of 0.84 for Ca compared to the best spiked model’s 0.51. We also found that excessive spiking yielded diminishing returns, with the prediction error for some properties increasing at higher spiking concentrations. This spiking approach offers a scalable method to enhance global spectral libraries for data-sparse regions, but our findings underscore that it complements, rather than replaces, the development of local calibrations for achieving the highest accuracy in sustainable land management.
ISSN:2515-7620

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