2021
DOI: 10.3389/fpls.2021.668929
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Microbial Identification, High-Resolution Microscopy and Spectrometry of the Rhizosphere in Its Native Spatial Context

Abstract: During the past decades, several stand-alone and combinatorial methods have been developed to investigate the chemistry (i.e., mapping of elemental, isotopic, and molecular composition) and the role of microbes in soil and rhizosphere. However, none of these approaches are currently applicable to characterize soil-root-microbe interactions simultaneously in their spatial arrangement. Here we present a novel approach that allows for simultaneous microbial identification and chemical analysis of the rhizosphere … Show more

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Cited by 20 publications
(24 citation statements)
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References 62 publications
(114 reference statements)
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“…Freeze-drying of the soil samples resulted in a major volume reduction and a brittle structure of the soil. Conventional resin-embedding requires chemical fixation and the removal of water before the embedding ( Mueller et al, 2013 ; Bandara et al, 2021 ) and is prone to extract or delocalize small molecules from the soil. Gelatin was previously used for the stabilization of soil samples for microscopic examination of soil structure ( Anderson, 1978 ), and a mixture of gelatin and CMC was recently used for sediment samples ( Alfken et al, 2019 ; Wörmer et al, 2019 ).…”
Section: Discussionmentioning
confidence: 99%
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“…Freeze-drying of the soil samples resulted in a major volume reduction and a brittle structure of the soil. Conventional resin-embedding requires chemical fixation and the removal of water before the embedding ( Mueller et al, 2013 ; Bandara et al, 2021 ) and is prone to extract or delocalize small molecules from the soil. Gelatin was previously used for the stabilization of soil samples for microscopic examination of soil structure ( Anderson, 1978 ), and a mixture of gelatin and CMC was recently used for sediment samples ( Alfken et al, 2019 ; Wörmer et al, 2019 ).…”
Section: Discussionmentioning
confidence: 99%
“…• The sampling and sample preparation strategy has to preserve the structural integrity of the root-soil system, even in the vacuum of the ion source (Mueller et al, 2013;Veličković et al, 2020b;Bandara et al, 2021). • The chemical composition of the potential target molecules must not be altered by agents used for fixation, embedding media, or solvents that could selectively remove compounds (Alfken et al, 2019).…”
Section: Introductionmentioning
confidence: 99%
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“…The progressive shift in emphasis from the macroscale to the microscale over the last few years has been rendered possible by tremendous technological advances, such as the advent of dedicated table-top X-ray computed tomography scanners, and the development of various synchrotron-based techniques (such µXRF or NEXAFS) as well as NanoSIMS. Experimental research in this field has been very active and is currently undergoing a major expansion around the world, in particular in work that combines several different observation techniques (e.g., Schlüter et al, 2019;Lucas et al;Bandara et al, 2021;Gerke et al, 2021).…”
mentioning
confidence: 99%
“…This has been illustrated schematically by Baveye et al (2018), in a diagram that we reproduce here in Figure 1. There has been some progress achieved since 2018 in several respects, for example in terms of spatial measurements of the distribution of bacteria in soils (e.g., Juyal et al, 2019;Juyal et al, 2020;Juyal et al, 2021) and in the combination of physical, chemical, and biological measurements to obtain a full picture of microenvironments at the scale of microorganisms (e.g., Schlüter et al, 2019;Lucas et al;Bandara et al, 2021;Gerke et al, 2021). Nevertheless, one can argue that a "half-empty-glass" perspective remains appropriate, and there is still some way to go before enough microscale measurements will be available to reasonably rigorously assess microscale models.…”
mentioning
confidence: 99%