Characterization of structural disturbances in peats by <scp>X</scp>‐ray <scp>CT</scp>‐based density determinations

Turberg, Pascal; Zeimetz, Fränz; Grondin, Yannick; Elandoy, C.; Buttler, Alexandre

doi:10.1111/ejss.12148

Cited by 11 publications

(8 citation statements)

References 19 publications

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“…Therefore, these metrics were discounted because they do not help distinguish between peats that have similar overall porosities but different pore size distributions and pore connectivity. To obtain this additional information, studies have adopted methods including slicing and imaging peat sections [ Quinton et al ., ] or imaging the entire peat samples using X‐ray computed tomography [ Rezanezhad et al ., ; Kettridge and Binley , ; Turberg et al ., ]. Of the methods available, X‐ray computed tomography is the least intrusive and provides fine spatial resolution images of peat structure in two or three dimensions.…”

Section: Methodsmentioning

confidence: 99%

The effect of pore structure on ebullition from peat

2016

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The controls on methane (CH 4 ) bubbling (ebullition) from peatlands are uncertain, but evidence suggests that physical factors related to gas transport and storage within the peat matrix are important. Variability in peat pore size and the permeability of layers within peat can produce ebullition that ranges from steady to erratic in time and can affect the degree to which CH 4 bubbles bypass consumption by methanotrophic bacteria and enter the atmosphere. Here we investigate the role of peat structure on ebullition in structurally different peats using a physical model that replicates bubble production using air injection into peat. We find that the frequency distributions of number of ebullition events per time and the magnitude of bubble loss from the physical model were similar in shape to ebullition from peatlands and incubated peats. This indicates that the physical model could be a valid proxy for naturally occurring ebullition from peat. For the first time, data on bubble sizes from peat were collected to conceptualize ebullition, and we find that peat structure affects bubble sizes. Using a new method to measure peat macrostructure, we collected evidence that supports the hypothesis that structural differences in peat determine if bubble release is steady or erratic and extreme. Collected pore size data suggest that erratic ebullition occurs when large amounts of gas stored at depth easily move through shallower layers of open peat. In contrast, steady ebullition occurs when dense shallower layers of peat regulate the flow of gas emitted from peat. RAMIREZ ET AL.THE EFFECT OF PORE STRUCTURE ON BUBBLES 1646 PUBLICATIONS

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Section: Methodsmentioning

confidence: 99%

The effect of pore structure on ebullition from peat

2016

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“…Because of an overlay of the scan slices, the space between consecutive slices was 0.3 mm. The 5 freeze-cores were all scanned with the same parametrization of the scanner, which was specifically developed for geomaterials and already used in Turberg et al (2014) and Amossé et al (2015b). X-ray beams emitted from the rotating scanner source were focused on a 1.2 mm focal spot with a peak energy of 120 KeV and a tube current of 500 mA.…”

Section: Freeze-core Preparation and Conditioningmentioning

confidence: 99%

“…The soil bulk density of each frozen subsample was measured with the Sand Density method described in detailed in Turberg et al (2014). A precise metal recipient with known mass and volume (V cylinder = 196.35 cm 3 ) was initially completely filled with a homogenous, finely textured sand and weighted to determine the density of the sand.…”

Section: Complementary Soil Analysesmentioning

confidence: 99%

“…Studying peat soil structure and various types of loamy and silty soils respectively, Turberg et al (2014) and Rogasik et al (2003) have shown the potential to observe changes in soil bulk density based on variations in voxel intensity. Based on the visual identification of different soil units from the previously drawn profiles and from the X-ray CT cross sections the direct correlation between the voxel intensity and the frozen wet soil bulk density has also been demonstrated in the present analysis.…”

Section: Comparison Of Soil Unitsmentioning

confidence: 99%

“…The process of CT image acquisition is described in detail in Ketcham and Carlson (2001). CT scans provide a 3D intensity map of the soil where gray level variations are essentially related to changes in material density (Rogasik et al, 2003;Sander et al, 2008;Turberg et al, 2014). In the following text, the term radiodensity, as a commonly-used term to measure the transparency of a material to X-rays, will be used to refer to the soil bulk density imaged by X-ray data and expressed by changes in gray level values.…”

Section: Introductionmentioning

confidence: 99%

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Coupling X-ray computed tomography and freeze-coring for the analysis of fine-grained low-cohesive soils

et al. 2017

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A B S T R A C TThis paper presents the coupling of freeze-core sampling with X-ray CT scanning for the analysis of the soil structure of fine-grained, low-cohesive soils. We used a medical scanner to image the 3D soil structure of the frozen soil cores, providing X-ray CT data at a millimetric resolution over freeze-cores that are up to 62.5 cm long and 25 cm wide. The obtained data and the changes in gray level values could be successfully used to identify and characterize different soil units with distinctly different physical properties. Traditional measurements of soil bulk density, carbon and particle size analyses were conducted within each of the identified soil units. These observations were used to develop a 3D model of soil bulk density and organic matter distribution for five freeze-cores obtained at a restored floodplain in Switzerland. The millimetric X-ray CT scanning was applied to detect the impact of freeze-coring on the soil structural integrity. This allows identifying undisturbed zones, a critical precondition for any subsequent assessment of soil structure. The proposed coupling is thought to be applicable to a wide range of other low-cohesive soil types and has a large potential for applications in hydrogeology, biology or soil science.

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There is no such thing as ‘undisturbed’ soil and sediment sampling: sampler-induced deformation of salt marsh sediments revealed by 3D X-ray computed tomography

2020

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Do w nlo a d e d fro m: h t t p://i n si g h t. c u m b ri a. a c. u k/i d/ e p ri n t/ 5 1 4 0/ U s a g e o f a n y i t e m s f r o m t h e U n i v e r s i t y o f C u m b r i a' s i n s t i t u t i o n a l r e p o s i t o r y 'I n s i g h t' m u s t c o n f o r m t o t h e f o l l o w i n g f a i r u s a g e g u i d e l i n e s .Any it e m a n d it s a s s o ci a t e d m e t a d a t a h el d in t h e U niv e r si ty of C u m b ri a 's in s ti t u tio n al r e p o si t o ry In si g h t (u nl e s s s t a t e d o t h e r wi s e o n t h e m e t a d a t a r e c o r d) m a y b e c o pi e d, di s pl ay e d o r p e rfo r m e d, a n d s t o r e d in lin e wi t h t h e JISC fai r d e ali n g g ui d eli n e s (av ail a bl e h e r e ) for e d u c a tio n al a n d n o t-fo r-p r ofit a c tiviti e s SEDIMENTS, SEC 2 • PHYSICAL AND BIOGEOCHEMICAL PROCESSES • RESEARCH ARTICLE 1 2 There's no such thing as 'undisturbed' soil and sediment sampling: sampler-induced 3 deformation of salt-marsh sediments revealed by 3D X-Ray computed tomography 4

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Characterization of structural disturbances in peats by X‐ray CT‐based density determinations

Cited by 11 publications

References 19 publications

The effect of pore structure on ebullition from peat

The effect of pore structure on ebullition from peat

Coupling X-ray computed tomography and freeze-coring for the analysis of fine-grained low-cohesive soils

There is no such thing as ‘undisturbed’ soil and sediment sampling: sampler-induced deformation of salt marsh sediments revealed by 3D X-ray computed tomography

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