DRIFTing to Fast, Precise Data
Non-destructive technique identifies key variations in Alaskan soils, quickly providing insights into carbon levels.
The Science
The cold soils of northern regions contain vast amounts of carbon-rich, organic matter. To understand how warming these soils affects carbon storage, scientists need a fast, effective way to analyze organic matter. A team determined that a technique, called diffuse reflectance mid-infrared Fourier transform (DRIFT) spectroscopy, accurately estimates the quantity and chemical composition of organic matter. It can also assess the degradation state of the carbon-rich materials stored in the soil.
The Impact
Knowing the quantity and quality of the organic matter stored in soils informs our understanding of the environment. Data on variations in soil organic matter quality across large areas are limited because analysis by traditional laboratory methods is often time consuming and costly. It also requires relatively large samples. This study offers a promising way to quickly and reliably estimate both the content and quality of carbon in cold-region soils.
Summary
Researchers led by Argonne National Laboratory investigated the suitability of diffuse reflectance Fourier transform mid-infrared (DRIFT) spectroscopy — a non-destructive, cost-effective analysis method — to discriminate variations in the physical and chemical properties of soil to improve estimates of the spatial variability of carbon stocks and the extent of organic matter decomposition in these soils. The researchers analyzed archived soils collected from a 2800-km latitudinal transect across Alaska to provide a representative range of climate, vegetation, surficial geology, and soil types for the region. The chemical composition of organic matter, as well as site and soil properties, exerted strong multivariate influences on the DRIFT spectra. Spectral differences indicated that soils with less decomposed organic matter contained more relatively fresh materials, such as carbohydrates and aliphatics; whereas, clays and silicates were incorporated into more degraded soils. The team identified a single spectral band that might be used to quickly estimate soil organic carbon and total nitrogen concentrations. Overall, the study demonstrated that DRIFT spectroscopy can serve as a valuable tool for quickly and reliably assessing variations in the amount and composition of organic matter in northern cold-region soils.
Contact
BER Program Manager
Daniel Stover
U.S. Department of Energy, SC-23.1
[email protected] (301-903-0289)
Principal Investigator
Julie D. Jastrow
Argonne National Laboratory
[email protected] (630-252-3226)
Corresponding Author
Roser Matamala
Argonne National Laboratory
[email protected] (630-252-9270)
Funding
This study was supported by the U.S. Department of Energy, Office of Science, Office of Biological and Environmental Research, Climate and Environmental Science Division, Terrestrial Ecosystem Science Program under contract DE-AC02-06CH11357 to Argonne National Laboratory. F. Calderón was supported by the U.S. Department of Agriculture, Agricultural Research Service.
Publications
R. Matamala, F.J. Calderón, J.D. Jastrow, Z. Fan, S.M. Hofmann, G.J. Michaelson, U. Mishra, and C.L. Ping, “Influence of site and soil properties on the DRIFT spectra of northern cold-region soils.” Geoderma 305, 80-91 (2017). [DOI: 10.1016/j.geoderma.2017.05.014]
Related Links
Argonne Terrestrial Ecosystem Science Focus Area
Highlight Categories
Performer: DOE Laboratory
Additional: Collaborations , Non-DOE Interagency Collaboration