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An interlaboratory comparison of mid-infrared spectra acquisition : instruments and procedures matter

Authors
  • Safanelli, José L.
  • Sanderman, Jonathan
  • Bloom, Dellena
  • Todd-Brown, Katherine
  • Parente, Leandro L.
  • Hengl, Tomislav
  • Adam, Sean
  • Albinet, Franck
  • Ben-Dor, Eyal
  • Boot, Claudia M.
  • Bridson, James H.
  • Chabrillat, Sabine
  • Deiss, Leonardo
  • Demattê, José A.M.
  • Scott Demyan, M.
  • Dercon, Gerd
  • Doetterl, Sebastian
  • van Egmond, Fenny
  • Ferguson, Rich
  • Garrett, Loretta G.
  • And 34 more
Publication Date
Jan 01, 2023
Source
Ghent University Institutional Archive
Keywords
Language
English
License
Green
External links

Abstract

Diffuse reflectance spectroscopy has been extensively employed to deliver timely and cost-effective predictions of a number of soil properties. However, although several soil spectral laboratories have been established worldwide, the distinct characteristics of instruments and operations still hamper further integration and interoperability across mid-infrared (MIR) soil spectral libraries. In this study, we conducted a large-scale ring trial experiment to understand the lab-to-lab variability of multiple MIR instruments. By developing a systematic evaluation of different mathematical treatments with modeling algorithms, including regular preprocessing and spectral standardization, we quantified and evaluated instruments' dissimilarity and how this impacts internal and shared model performance. We found that all instruments delivered good predictions when calibrated internally using the same instruments' characteristics and standard operating procedures by solely relying on regular spectral preprocessing that accounts for light scattering and multiplicative/additive effects, e.g., using standard normal variate (SNV). When performing model transfer from a large public library (the USDA NSSCKSSL MIR library) to secondary instruments, good performance was also achieved by regular preprocessing (e. g., SNV) if both instruments shared the same manufacturer. However, significant differences between the KSSL MIR library and contrasting ring trial instruments responses were evident and confirmed by a semi-unsupervised spectral clustering. For heavily contrasting setups, spectral standardization was necessary before transferring prediction models. Non-linear model types like Cubist and memory-based learning delivered more precise estimates because they seemed to be less sensitive to spectral variations than global partial least square regression. In summary, the results from this study can assist new laboratories in building spectroscopy capacity utilizing existing MIR spectral libraries and support the recent global efforts to make soil spectroscopy universally accessible with centralized or shared operating procedures.

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