Please use this identifier to cite or link to this item: https://hdl.handle.net/11000/32251

Use of composite samples and NIR spectroscopy to detect changes in SOC contents


Thumbnail

View/Open:
 1-s2.0-S0016706121001439-main.pdf

1,79 MB
Adobe PDF
Share:
Title:
Use of composite samples and NIR spectroscopy to detect changes in SOC contents
Authors:
Guerrero, César
Lorenzetti, Romina  
Editor:
Elsevier
Department:
Departamentos de la UMH::Agroquímica y Medio Ambiente
Issue Date:
2021-04-10
URI:
https://hdl.handle.net/11000/32251
Abstract:
Depending on the land management, soils can behave as sources or sinks of carbon. Thus, monitoring the changes in the SOC (ΔSOC) is of significance. However, this monitoring is often challenging because the value of ΔSOC is typically small in comparison with the spatial variability, and a large sample size is required, which may incur prohibitive costs. In the absence of the necessary sample size, hypothesis testing may be performed under deficient statistical conditions, which may result in misleading conclusions. In this study, we compared several cost-effective approaches to solve the aforementioned problems: i) using composites, as the number of samples to be analysed is smaller, and the costs using a reference method do not represent a substantial amount; ii) using NIR spectroscopy, which is a fast and cheap technique, and allows the analysis of massive number of samples; and iii) the combination of these approaches. In particular, the approaches were compared by evaluating the corrected minimum detectable difference (MDDC), which corresponds to the MDD after the errors of the methods have been accounted for. Bulking into the composites reduced the analysis costs, and the variance was reduced as the sample size reduced. However, a larger penalisation of the random measurement errors increased the MDDC. Biased predictions were obtained when an NIR spectroscopy based national scale model was used to predict the SOC at the local scale, resulting in extremely high values of the MDDC. By using composites to adapt that model to the local conditions through spiking with the extra-weighting technique, the bias was considerably reduced, along with the MDDC. In addition to their role as a spiking subset, the composites exhibited a desirable effect when combined with the NIR spectroscopy technique, since they allowed to find the model that was predicting SOC contents with the lowest bias, and hence measuring the ΔSOC with the highest accuracy. This analysis was highly specific and cannot be applied using any other spiking subsets, and allowed to identify a model that obtained an MDDC smaller than that obtained using only the composites. Therefore, the combination of the composites and NIR spectroscopy can be used to monitor ΔSOC since it is inexpensive, accurate and robust, and the spatial distribution of the SOC contents is not lost. Moreover, the cost efficiency of this combined approach probably improves along successive rounds in the monitoring process.
Keywords/Subjects:
Composites
NIR spectroscopy
4p1000
Soil organic carbon
Spiking
Minimum detectable difference
Knowledge area:
CDU: Ciencias puras y naturales
Type of document:
application/pdf
Access rights:
info:eu-repo/semantics/openAccess
Attribution-NonCommercial-NoDerivatives 4.0 Internacional
DOI:
https://doi.org/10.1016/j.geoderma.2021.115069
Appears in Collections:
Artículos Agroquímica y Medio Ambiente



Creative Commons ???jsp.display-item.text9???