Typology, morphology and connectivity of pore space in claystones from reference site for research using BIB, FIB and cryo-SEM methods

Desbois, Guillaume; Urai, János L.; Houben, M.E.; Sholokhova, Yelena

doi:10.1051/epjconf/20100622005

Cited by 15 publications

(12 citation statements)

References 14 publications

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“…The localisation of microbial cells in 3D is possible either (i) by using the depth of field of the microscope (stereomicroscope, SEM, HIM, AFM), (ii) by reconstituting the sample in a non-destructive way using confocal laser scanning microscopy (Li et al, 2004), but due to the opacity of soil this is mainly useful in the analysis of transparent artificial soil models as in Sharma et al (2020), (iii) by progressively abrading the sample with a focused ion probe (FIB) (Berleman et al, 2016;Vidal et al, 2018), (iv) by reconstitution from thin sections: superimposed serial block face (SBF) sections or broad ion beam (BIB). However, the latter have been mainly used to study geo-materials (Desbois et al, 2010;Houben et al, 2013;Hemes et al, 2015).…”

Section: Localising Microorganismsmentioning

confidence: 99%

Opportunities and limits in imaging microorganisms and their activities in soil microhabitats

Védère¹,

Laure²,

Nunan³

et al. 2022

Soil Biology and Biochemistry

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Section: Localising Microorganismsmentioning

confidence: 99%

Opportunities and limits in imaging microorganisms and their activities in soil microhabitats

Védère¹,

Laure²,

Nunan³

et al. 2022

Soil Biology and Biochemistry

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“…Therefore, the tomography technique using FIB-SEM is used for the 3D reconstruction of cell organelles 11,12 . However, FIB can process a small area, limiting the processing of large samples 13 . Therefore, a broad argon ion beam (BIB) milling technique is applied for cross-sectional analysis using SEM and is widely used for sampling hard material 14,15 .…”

Section: Introductionmentioning

confidence: 99%

Intact observation of secondary xylem and parenchyma cells in woody plants using a combination of scanning electron microscopy and broad argon ion beam milling

Hatano

Nakaba

Horikawa

et al. 2022

Preprint

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The secondary xylem of woody plants consists of fragile living cells and rigid cell walls. However, xylem structures are easily damaged during mechanical cross-sectioning for electron microscopy analysis. A broad argon ion beam (BIB) milling technique is commonly employed for analysis using scanning electron microscopy (SEM) in material science to generate a large and distortion-free cross-section. However, BIB milling is rarely used in plant science. In this study, SEM combined with the BIB milling technique was validated as an accurate tool for structural observation of xylem tissues of two woody plants, Pinus densiflora (Japanese red pine) and Quercus phillyraeoides (Ubame oak), in comparison to cutting with the classical microtome. The BIB milling method does not require epoxy resin embedding because of prior chemical fixation and critical point drying of the sample, thus producing a three-dimensional image. The results showed that xylem structures were well-preserved in their natural state in the BIB-milled cross-section compared with the microtome cross-section. The observation using SEM with BIB milling was found to be useful for imaging hard and soft plant tissues, particularly the ultrastructure of fragile secondary xylem cells. Thus, we propose a new imaging method for detailed observation of plant tissue structures.

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“…Therefore, tomography with FIB-SEM is used for the 3D reconstruction of cell organelles 21 , 22 . However, FIB can only process a small area, limiting its use for large samples 23 . Therefore, broad argon ion beam (BIB) milling can be applied to cross-sectional SEM analysis, and it is widely used for sampling hard materials 24 , 25 .…”

Section: Introductionmentioning

confidence: 99%

A combination of scanning electron microscopy and broad argon ion beam milling provides intact structure of secondary tissues in woody plants

Hatano

Nakaba

Horikawa

et al. 2022

Sci Rep

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The secondary tissues of woody plants consist of fragile cells and rigid cell walls. However, the structures are easily damaged during mechanical cross-sectioning for electron microscopy analysis. Broad argon ion beam (BIB) milling is commonly employed for scanning electron microscopy (SEM) of hard materials to generate a large and distortion-free cross-section. However, BIB milling has rarely been used in plant science. In the present study, SEM combined with BIB milling was validated as an accurate tool for structural observation of secondary woody tissues of two samples, living pine (Pinus densiflora) and high-density oak wood (Quercus phillyraeoides), and compared with classical microtome cross-sectioning. The BIB milling method does not require epoxy resin embedding because of prior chemical fixation and critical point drying of the sample, thus producing a three-dimensional image. The results showed that xylem structures were well-preserved in their natural state in the BIB-milled cross-section compared with the microtome cross-section. The observations using SEM combined with BIB milling were useful for wide-area imaging of both hard and soft plant tissues, which are difficult to observe with transmitted electron microscopy because it is difficult to obtain sections of such tissues, particularly those of fragile reaction woods.

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Typology, morphology and connectivity of pore space in claystones from reference site for research using BIB, FIB and cryo-SEM methods

Cited by 15 publications

References 14 publications

Opportunities and limits in imaging microorganisms and their activities in soil microhabitats

Opportunities and limits in imaging microorganisms and their activities in soil microhabitats

Intact observation of secondary xylem and parenchyma cells in woody plants using a combination of scanning electron microscopy and broad argon ion beam milling

A combination of scanning electron microscopy and broad argon ion beam milling provides intact structure of secondary tissues in woody plants

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