4.5 Article

Fusion of visible near-infrared and mid-infrared data for modelling key soil-forming processes in loess soils

Journal

EUROPEAN JOURNAL OF SOIL SCIENCE
Volume 73, Issue 1, Pages -

Publisher

WILEY
DOI: 10.1111/ejss.13208

Keywords

chemical weathering; clay minerals; grain size; pedogenesis; random forest; Rb; Sr

Categories

Funding

  1. Innovative Postdoctoral Research Foundation of Hubei [248253]
  2. National Natural Science Foundation of China [41772032, 41820101003, 41972040, 42002042, 42102031, 42172045]
  3. Postdoctoral Research Foundation of China [2020M672440, 2020M680206, BX20200002]

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This study used spectral data to predict pedogenesis-related soil properties in a loess sequence in China and improved the model predictions using sensor-fusion techniques. The results demonstrate the potential of spectral proxies and the sensor-fusion method for studying pedogenic evolution.
Pedogenic weathering of aeolian materials plays an essential role in global nutrient and carbon cycling. A quick and effective approach for temporally high-resolution and spatially large-scale pedogenic investigations has long been needed. Here, we used visible and near-infrared, mid-infrared and sensor-fused data to predict pedogenesis-related soil properties (i.e., grain-size distribution, clay-mineral properties and geochemical ratios) in a thick loess sequence in central China. Sensor fusion was achieved at three different levels: (1) direct combination of spectral parameters (low-level fusion; Fusion(para)); (2) combination of spectral features selected by principal component analysis (middle-level fusion; Fusion(PCA)) and (3) fusion using outer product analysis (high-level fusion; Fusion(OPA)). Sensor-fusion generally improves the model predictions for all soil properties, with increases in the values of the model efficiency coefficient (MEC) of 8% and the performance-to-interquartile range of 12%. Whole-soil properties are optimally predicted with the Fusion(para) dataset using the random forest algorithm, yielding a mean MEC of 0.85. Spectral parameters D-2200/D-1900 and AS(2200) are demonstrated as promising new pedogenic proxies, with higher values indicating more intense hydrolysis during pedogenesis. Spectral proxies along the loess sequence suggest that intense soil formation occurred during warm and humid interglacial periods when the East Asian summer monsoon intensified. The sensor-fusion technique improved model performance for assessing mineral transformations and chemical weathering intensity, providing a quick and efficient means of interpreting pedogenic evolution, especially in the case of spatially large-scale soil investigations. Highlights Fusion of VNIR and MIR spectra to model loess pedogenesis. Spectral modeling provides a robust surrogate for pedogenic evolution studies. Sensor fusion improves the performance of chemometric models. Sensor-fusion models can reconstruct loess pedogenesis.

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