AUTHOR=Lammel Daniel R. , Arlt Tobias , Manke Ingo , Rillig Matthias C. 

TITLE=Testing Contrast Agents to Improve Micro Computerized Tomography (μCT) for Spatial Location of Organic Matter and Biological Material in Soil

JOURNAL=Frontiers in Environmental Science

VOLUME=7

YEAR=2019

URL=https://www.frontiersin.org/journals/environmental-science/articles/10.3389/fenvs.2019.00153

DOI=10.3389/fenvs.2019.00153

ISSN=2296-665X

ABSTRACT=<p>Soil carbon is essential for soil and ecosystem functioning. Its turnover and storage in soil are multifaceted processes that involve microbial activity in complex physical matrices. Biological litter, which include plants, animals, and microorganisms, is decomposed in soil stimulating soil biota (archaea, bacteria, fungi, protists, and animals) activity and yielding soil organic matter (SOM). Such decomposition processes are influenced by local physico-chemical characteristics including the spatial distribution of aggregates and pores. More refined analytical tools are needed to better understand these processes, especially considering the spatial 3D structure of soil matrices. Using synchrotron radiation (X-ray) micro computerized tomography (SR-μCT), we tested different contrast agents (staining methods) based on silver (Ag), eosin (Br based), and liquid and gaseous iodine (I) in order to spatially image biological material and SOM in soil samples. We also performed K-edge SR-μCT for the Ag and I<sub>2</sub> treatments and conventional μCT for additional soil samples applying the I<sub>2</sub> treatment. Our results indicated that I<sub>2</sub> was the most efficient contrast method for SR-μCT imaging of soil samples. I<sub>2</sub> qualitatively improved the images, but mainly, by using the K-edge SR-μCT, this method provided a powerful tool to determine the spatial location of SOM. We acknowledge that the use of SR-μCT is an expensive technique to study soil samples, which comes with bottlenecks in terms of access to facilities and measurement time. Nevertheless, we show that the I<sub>2</sub> treatment improved soil images also using standard μCT. In conventional μCT the I<sub>2</sub> treatment improved the visualization of biological material and consequently improved the qualitative analysis of fine plants roots and micro-fauna (<italic>Collembola</italic>). This improvement may have a positive implication in soil biology, by improving a non-destructive method to detect fungi (SR-μCT), soil fauna (conventional μCT) and roots in undisturbed soil samples. An unexpected finding was that the I<sub>2</sub> treatment also stained the plastic sample containers (nylon and polyimide), indicating the potential for the I<sub>2</sub> staining procedure to be applied for the detection of plastic pollution in soil samples.</p>