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2. Exploratory neutron tomography of articular cartilage.

Author

B. Wrammerfors, E. Tobias, Törnquist, Elin, Pierantoni, Maria, Sjögren, Amanda, Tengattini, Alessandro, Kaestner, Anders, Zandt, René in 't, Englund, Martin, and Isaksson, Hanna

Abstract

To investigate the feasibility of using neutron tomography to gain new knowledge of human articular cartilage degeneration in osteoarthritis (OA). Different sample preparation techniques were evaluated to identify maximum intra-tissue contrast. Human articular cartilage samples from 14 deceased donors (18–75 years, 9 males, 5 females) and 4 patients undergoing total knee replacement due to known OA (all female, 61–75 years) were prepared using different techniques: control in saline, treated with heavy water saline, fixed and treated in heavy water saline, and fixed and dehydrated with ethanol. Neutron tomographic imaging (isotropic voxel sizes from 7.5 to 13.5 µm) was performed at two large scale facilities. The 3D images were evaluated for gradients in hydrogen attenuation as well as compared to images from absorption X-ray tomography, magnetic resonance imaging, and histology. Cartilage was distinguishable from background and other tissues in neutron tomographs. Intra-tissue contrast was highest in heavy water-treated samples, which showed a clear gradient from the cartilage surface to the bone interface. Increased neutron flux or exposure time improved image quality but did not affect the ability to detect gradients. Samples from older donors showed high variation in gradient profile, especially from donors with known OA. Neutron tomography is a viable technique for specialized studies of cartilage, particularly for quantifying properties relating to the hydrogen density of the tissue matrix or water movement in the tissue. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Transport of water through strain-hardening cement-based composite (SHCC) applied on top of cracked reinforced concrete slabs with and without hydrophobization of cracks--investigation by neutron radiography

Author

Schrofl, Christof, Mechtcherine, Viktor, Kaestner, Anders, Vontobel, Peter, Hovind, Jan, and Lehmann, Eberhard

Subjects
Building materials -- Service life, Reinforced concrete -- Analysis -- Mechanical properties, Cement -- Analysis -- Mechanical properties, Business, Construction and materials industries
Abstract

ABSTRACT Composite specimens of steel-reinforced concrete (RC) strengthened with strain-hardening cementbased composite (SHCC) were characterized according to their water uptake and drying kinetics by neutron radiography imaging. The specimens were [...]

Published
2015

15. Characterization of the bone-metal implant interface by Digital Volume Correlation of in-situ loading using neutron tomography.

Author

Le Cann, Sophie, Tudisco, Erika, Perdikouri, Christina, Belfrage, Ola, Kaestner, Anders, Hall, Stephen, Tägil, Magnus, and Isaksson, Hanna

Subjects
THERAPEUTIC use of tomography, METALS in surgery, BONE substitutes, ORTHOPEDIC implants, THREE-dimensional imaging, SAFETY, THERAPEUTICS
Abstract

Metallic implants are commonly used as surgical treatments for many orthopedic conditions. The long-term stability of implants relies on an adequate integration with the surrounding bone. Unsuccessful integration could lead to implant loosening. By combining mechanical loading with high-resolution 3D imaging methods, followed by image analysis such as Digital Volume Correlation (DVC), we aim at evaluating ex vivo the mechanical resistance of newly formed bone at the interface. X-rays tomography is commonly used to image bone but induces artefacts close to metallic components. Utilizing a different interaction with matter, neutron tomography is a promising alternative but has not yet been used in studies of bone mechanics. This work demonstrates that neutron tomography during in situ loading is a feasible tool to characterize the mechanical response of bone-implant interfaces, especially when combined with DVC. Experiments were performed where metal screws were implanted in rat tibiae during 4 weeks. The screws were pulled-out while the samples were sequentially imaged in situ with neutron tomography. The images were analyzed to quantify bone ingrowth around the implants. DVC was used to track the internal displacements and calculate the strain fields in the bone during loading. The neutron images were free of metal-related artefacts, which enabled accurate quantification of bone ingrowth on the screw (ranging from 60% to 71%). DVC allowed successful identification of the deformation and cracks that occurred during mechanical loading and led to final failure of the bone-implant interface. [ABSTRACT FROM AUTHOR]

Published
2017
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16. Root responses to soil Ni heterogeneity in a hyperaccumulator and a non-accumulator species

Author

Moradi, Ahmad B., Conesa, Héctor M., Robinson, Brett H., Lehmann, Eberhard, Kaestner, Anders, and Schulin, Rainer

Subjects
PLANT roots, SOIL testing, SOIL pollution research, HYPERACCUMULATOR plants, CHICKPEA, NITROGEN in soils, NITROGEN & the environment, PLANT root morphology
Abstract

We compared root responses of the Ni-hyperaccumulator plant Berkheya coddii Rossler with the non-accumulator plant Cicer arietinum L. to Ni heterogeneity in soil. We grew plants in growth containers filled with control soil, homogeneously spiked, and heterogeneously spiked soil with Ni concentrations of 62 and 125 mg kg¿1. Neutron radiography (NR) was used to observe the root distribution and the obtained images were analysed to reveal the root volumes in the spiked and unspiked segments of the growth container. There was no significant difference in root distribution pattern of B. coddii among different concentrations of Ni. Unlike B. coddii, the roots of C. arietinum initially grew into the spiked segments. However, the later developing roots did not penetrate the spiked segment suggesting an avoidance strategy. Our results indicate that, B. coddii does not forage towards the Ni-rich patches, although presence of Ni in soil changes its root morphology. [Copyright &y& Elsevier]

Published
2009
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17. Extracellular polymeric substances from soil-grown bacteria delay evaporative drying.

Author

Benard, Pascal, Bickel, Samuel, Kaestner, Anders, Lehmann, Peter, and Carminati, Andrea

Subjects
*SOIL moisture, *NEUTRON radiography, *CRUST vegetation, *SOIL permeability, *SOIL drying
Abstract

• Soil water evaporation can be delayed by the complex biofilm producer B. subtilis. • An accelerated retreat of the evaporation front initiates decelerated water loss. • Reduced soil hydraulic conductivity and surface tension explain the process. • Modifications are result of a continuous adaptation. When soils dry, water flow and nutrient diffusion cease as the hydraulic microenvironments vital for soil life become fragmented. To delay soil drying locally and related adverse effects, bacteria and plants modify their surroundings by releasing extracellular polymeric substances (EPS). As a result, the physical properties of hotspots like biological soil crusts or the rhizosphere differ from those of the surrounding bulk soil. Specifically, the presence of EPS delays evaporative soil drying. Despite the evidence of reduced evaporation from EPS-amended soils, the mechanisms controlling soil water content dynamics remain elusive. Thus, our study aimed to elucidate the potential of bacteria to modify their local environment when exposed to oscillations in soil water content induced by evaporative drying. We incubated sand microcosms with two contrasting strains of Bacillus subtilis for one week in a flow cabinet. At the end of the incubation period, local water loss was quantified and spatially resolved using time-series neutron radiography. Strain NCIB 3610, a complex biofilm producer steadily modified soil evaporation dynamics during the incubation period resulting in a substantial delay in soil drying due to hydraulic decoupling of the evaporation front from the soil surface. Evaporation dynamics remained largely unaltered in the microcosms inoculated with the domesticated strain 168 trp+ compared to the control treatment. The mechanism of hydraulic decoupling induced by NCIB 3610 was verified by estimates of diffusive fluxes and the position of the evaporation plane in the microcosm. Additionally, the role of polymeric substances in hydraulic decoupling was confirmed by an evaporation experiment using xanthan as an EPS analogue. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Operando neutron imaging study of a commercial Li-ion battery at variable charge-discharge current densities.

Author

Nazer, Nazia S., Strobl, Markus, Kaestner, Anders, Vie, Preben J.S., and Yartys, Volodymyr A.

Subjects
*LITHIUM-ion batteries, *NEUTRONS, *DIAGNOSTIC imaging, *GRAPHITE oxide, *LITHIUM cells, *COLUMNS
Abstract

• Commercial Li ion cylindrical battery has been studied operando by neutron imaging. • It has been charged and discharged at current densities 1C and 2C. • Circulation of electrolyte was observed during charge-discharge. • Radiographs exhibited inhomogeneous distribution of lithium throughout the battery. • Ex-situ neutron tomography visualised the battery architecture. We report an operando neutron imaging study of a commercial ICR 10440 Li ion battery during charge and discharge. The cylindrical battery with a spiral configuration is composed of a multiphase layered oxide cathode and graphite anode. In spite of a two-dimensional nature of the projection data of this time-resolved study, structural and functional details of the neutron radiography study were successfully uncovered and visualized. The spatially resolved measurements with a resolution of 40 µm enabled to observe Li redistribution between the electrodes as well as a circulation of the electrolyte between the central column and the electrode layers at different states of charge (SoC) and at different current rates. Furthermore, ex-situ tomographic studies of the battery revealed the fine details of the structural inhomogeneity within the cell. [ABSTRACT FROM AUTHOR]

Published
2022
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19. A neutron radiography study on the drying of cement mortars: Effect of mixture composition and crack length.

Author

Hu, Zhangli, Cajuhi, Tuanny, Toropovs, Nikolajs, Griffa, Michele, Wyrzykowski, Mateusz, Kaestner, Anders, De Lorenzis, Laura, and Lura, Pietro

Subjects
*MORTAR, *NEUTRON radiography, *SUPERABSORBENT polymers, *CEMENT, *NEUTRON measurement, *CONCRETE durability, *CRACK propagation (Fracture mechanics)
Abstract

The drying process has a prominent impact on the volume changes, crack propagation and durability of concrete structures. This study is to quantify the moisture distribution in real-time drying cement mortars. Mortar prisms with different water-to-cement ratios (w/c) and superabsorbent polymers (SAP) amounts were cut into slices and prepared with distinct lengths of cut notches. They were subjected to accelerated drying during neutron radiography measurements. In mortars with higher w/c, the coarser pores accelerate water transport and lead to more rapid drying. The large voids and the SAP in the bulk of the specimens are emptied well before the exposed surface starts to dry out. The presence of notches enhances drying. However, the moisture loss through the notches is less efficient than through the external surfaces. The competition between evaporation from the surfaces and moisture transport within the material, in both liquid and gas forms, governs the moisture distribution evolution. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Correlative study of liquid in human bone by 3D neutron microscopy and lab-based X-ray μCT.

Author

Østergaard, Maja, Naver, Estrid Buhl, Schüpbach, Delia, Kaestner, Anders, Strobl, Markus, Brüel, Annemarie, Thomsen, Jesper Skovhus, Schmidt, Søren, Poulsen, Henning Friis, Kuhn, Luise Theil, and Birkedal, Henrik

Subjects
*X-ray microscopy, *NEUTRONS, *X-ray imaging, *FEMUR, *POROSITY
Abstract

Liquid plays an important role in bone that has a complex 3D hierarchical pore structure. However, liquid (water) is difficult to discern from e.g. an organic matrix by X-ray imaging. Therefore, we use a correlative approach using both high resolution X-ray and neutron imaging. Human femoral bone with liquid adsorbed into some of the pores was imaged with both the Neutron Microscope at the ICON beamline, SINQ at PSI, and by lab-based μCT using 2.7 μm voxel size. Segmentation of the two datasets showed that, even though the liquid was clearly distinguishable in the neutron data and not in the X-ray data, it remained challenging to segment it from bone due to overlaps of peaks in the gray level histograms. In consequence, segmentations from X-ray and neutron data varied significantly. To address this issue, the segmented X-ray porosities was overlaid on the neutron data, making it possible to localize the liquid in the vascular porosities of the bone sample and use the neutron attenuation to identify it as H 2 O. The contrast in the neutron images was lowered slightly between the bone and the liquid compared to the bone and the air. This correlative study shows that the complementary use of X-rays and neutrons is very favorable, since H 2 O is very distinct in the neutron data, while D 2 O, H 2 O, and organic matter can barely be distinguished from air in the X-ray data. [Display omitted] • Vascular spaces in human bone visualized in 3D by combined high resolution neutron and X-ray 3D microscopy • The chemical nature of liquid in bone could be identified by their neutron attenuation values • Correlative X-ray and neutron imaging provides an attractive pathway for addressing questions in bone research [ABSTRACT FROM AUTHOR]

Published
2023
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21. Neutron tomographic imaging of bone-implant interface: Comparison with X-ray tomography.

Author

Isaksson, Hanna, Le Cann, Sophie, Perdikouri, Christina, Turunen, Mikael J., Kaestner, Anders, Tägil, Magnus, Hall, Stephen A., and Tudisco, Erika

Subjects
*METALS in surgery, *NEUTRONS, *PROSTHETICS, *TOMOGRAPHY, *X-rays
Abstract

Metal implants, in e.g. joint replacements, are generally considered to be a success. As mechanical stability is important for the longevity of a prosthesis, the biological reaction of the bone to the mechanical loading conditions after implantation and during remodelling determines its fate. The bone reaction at the implant interface can be studied using high-resolution imaging. However, commonly used X-ray imaging suffers from image artefacts in the close proximity of metal implants, which limit the possibility to closely examine the bone at the bone-implant interface. An alternative ex vivo 3D imaging method is offered by neutron tomography. Neutrons interact with matter differently than X-rays; therefore, this study explores if neutron tomography may be used to enrich studies on bone-implant interfaces. A stainless steel screw was implanted in a rat tibia and left to integrate for 6 weeks. After extracting the tibia, the bone-screw construct was imaged using X-ray and neutron tomography at different resolutions. Artefacts were visible in all X-ray images in the close proximity of the implant, which limited the ability to accurately quantify the bone around the implant. In contrast, neutron images were free of metal artefacts, enabling full analysis of the bone-implant interface. Trabecular structural bone parameters were quantified in the metaphyseal bone away from the implant using all imaging modalities. The structural bone parameters were similar for all images except for the lowest resolution neutron images. This study presents the first proof-of-concept that neutron tomographic imaging can be used for ex-vivo evaluation of bone microstructure and that it constitutes a viable, new tool to study the bone-implant interface tissue remodelling. [ABSTRACT FROM AUTHOR]

Published
2017
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22. Water percolation through the root-soil interface.

Author

Benard, Pascal, Kroener, Eva, Vontobel, Peter, Kaestner, Anders, and Carminati, Andrea

Subjects
*SOIL percolation, *PLANT roots, *PLANT-soil relationships, *PHOTOSYNTHESIS, *CARBON in soils, *RHIZOSPHERE
Abstract

Plant roots exude a significant fraction of the carbon assimilated via photosynthesis into the soil. The mucilaginous fraction of root exudates affects the hydraulic properties of the soil near the roots, the so called rhizosphere, in a remarkable and dynamic way. After drying, mucilage becomes hydrophobic and limits the rewetting of the rhizosphere. Here, we aim to find a quantitative relation between rhizosphere rewetting, particle size, soil matric potential and mucilage concentration. We used a pore-network model in which mucilage was randomly distributed in a cubic lattice. The general idea was that the mucilage concentration per solid soil surface increases the contact angle between the liquid and solid phases consequently limiting the rewetting of pores covered with dry mucilage. We used the Young–Laplace equation to calculate the mucilage concentration at which pores are not wettable for varying particle sizes and matric potentials. Then, we simulated the percolation of water across a cubic lattice. Our simulations predicted that above a critical mucilage concentration water could not flow through the porous medium. The critical mucilage concentration decreased with increasing particle size and decreasing matric potential. The model was compared with experiments of capillary rise in soils of different particle size and mucilage concentration. The experiments confirmed the percolation behaviour of the rhizosphere rewetting. Mucilage turned hydrophobic at concentrations above 0.1 mg/cm 2 . The critical mucilage concentration at matric potential of −2.5 hPa was ca. 1% [g/g] for fine sand and 0.1 % [g/g] for coarse sand. Our conceptual model is a first step towards a better understanding of the water dynamics in the rhizosphere during rewetting and it can be used to predict in what soil textures rhizosphere water repellency becomes a critical issue for root water uptake. [ABSTRACT FROM AUTHOR]

Published
2016
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23. The cork viewed from the inside.

Author

Lagorce-Tachon, Aurélie, Karbowiak, Thomas, Loupiac, Camille, Gaudry, Alexandre, Ott, Frédéric, Alba-Simionesco, Christiane, Gougeon, Régis D., Alcantara, Valentin, Mannes, David, Kaestner, Anders, Lehmann, Eberhard, and Bellat, Jean-Pierre

Subjects
*BOTTLE corks, *CORK oak, *WINE bottles, *WINE storage, *MESOPOROUS materials, *DIGITAL photography, *NEUTRON radiography
Abstract

Cork is the natural material stripped from the outer bark of cork oak. It is still the most used stopper to seal wine bottles and to preserve wine during storage. Cork stoppers are sorted in different classes according to apparent defects, named lenticels, which can be related to the cork macroporosity. The more lenticels there are, the worst cork quality is. The present work aims at investigating defects analysis of cork stoppers from two classes by comparing images recorded by digital photography and neutron imaging. Surface analysis of defects obtained from photography leads to more surface defects in class 4 (6.7%) than in class 0 (4.1%). Neutron radiography and tomography are powerful methods that really show the defects inside the material. From neutron radiography and tomography, class 4 contains 7.5% of volume defects and class 0 5.9%. Moreover, tomography also allows observing defects distribution along the whole stopper and possible interconnectivity. [ABSTRACT FROM AUTHOR]

Published
2015
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24. Real-time observation of hydrogen absorption by LaNi5 with quasi-dynamic neutron tomography.

Author

Wood, Bradley M., Ham, Kyungmin, Hussey, Daniel S., Jacobson, David L., Faridani, Adel, Kaestner, Anders, Vajo, John J., Liu, Ping, Dobbins, Tabbetha A., and Butler, Leslie G.

Subjects
*HYDROGEN absorption & adsorption, *SCIENTIFIC observation, *LANTHANUM compounds, *NEUTRONS, *NICKEL hydrides, *MICROSTRUCTURE
Abstract

Abstract: The uptake of hydrogen by lanthanum pentanickel (LaNi5) to form lanthanum nickel hydride (LaNi5H6) is followed with three-dimensional imaging by neutron tomography. The hydrogen absorption process is slower than the time needed for acquiring a single radiograph, about 10s, but fast relative to the time to acquire a fully-sampled tomographic data set, about 6000s. A novel data acquisition scheme is used with angles based upon the Greek Golden ratio, a scheme which allows considerable flexibility in post-acquisition tomography reconstruction. Even with tomographic undersampling, the granular structure for the conversion of LaNi5 particles to LaNi5H6 particles is observed and visually tracked in 3D. Over the course of five sequential hydrogen uptake runs with various initial hydrogen pressures, some grains are repeatedly observed. [Copyright &y& Elsevier]

Published
2014
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25. Neutron radiography with sub-15μm resolution through event centroiding

Author

Tremsin, Anton S., McPhate, Jason B., Vallerga, John V., Siegmund, Oswald H.W., Bruce Feller, W., Lehmann, Eberhard, Kaestner, Anders, Boillat, Pierre, Panzner, Tobias, and Filges, Uwe

Subjects
*NEUTRON radiography, *THERMAL neutrons, *COLD neutrons, *STRONG interactions (Nuclear physics), *TOMOGRAPHY, *NUCLEAR facilities
Abstract

Abstract: Conversion of thermal and cold neutrons into a strong ∼1ns electron pulse with an absolute neutron detection efficiency as high as 50–70% makes detectors with 10B-doped Microchannel Plates (MCPs) very attractive for neutron radiography and microtomography applications. The subsequent signal amplification preserves the location of the event within the MCP pore (typically 6–10μm in diameter), providing the possibility to perform neutron counting with high spatial resolution. Different event centroiding techniques of the charge landing on a patterned anode enable accurate reconstruction of the neutron position, provided the charge footprints do not overlap within the time required for event processing. The new fast 2×2 Timepix readout with >1.2kHz frame rates provides the unique possibility to detect neutrons with sub-15μm resolution at several MHz/cm2 counting rates. The results of high resolution neutron radiography experiments presented in this paper, demonstrate the sub-15μm resolution capability of our detection system. The high degree of collimation and cold spectrum of ICON and BOA beamlines combined with the high spatial resolution and detection efficiency of MCP-Timepix detectors are crucial for high contrast neutron radiography and microtomography with high spatial resolution. The next generation of Timepix electronics with sparsified readout should enable counting rates in excess of 107 n/cm2/s taking full advantage of high beam intensity of present brightest neutron imaging facilities. [Copyright &y& Elsevier]

Published
2012
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26. Dimethylglyoxime (DMG) staining for semi-quantitative mapping of Ni in plant tissue

Author

Gramlich, Anja, Moradi, Ahmad B., Robinson, Brett H., Kaestner, Anders, and Schulin, Rainer

Subjects
*PLANT cells & tissues, *NICKEL, *HYPERACCUMULATOR plants, *OXIMES, *SOLVENTS, *CHLOROPHYLL, *BIOACTIVE compounds, *EFFECT of metals on plants
Abstract

Abstract: Determination of the nickel (Ni) distribution in tissues of hyperaccumulator plants aids in understanding the strategies and mechanisms used by these plants to take up Ni from soils. Commonly used methods for measuring Ni distribution in plant tissues require expensive equipment and complex sample preparation. We tested a suite of staining methods consisting of dimethylglyoxime (DMG) dissolved in a range of solvents for the mapping of Ni distribution in the Ni hyperaccumulator Berkheya coddii Roessler. The best solution was DMG (10gl−1) dissolved in borax (25mM) and KOH (30mM). Plant tissue cross-sections were imaged under a microscope immediately after DMG application. A Karhunen–Loeve transformation was applied to the images to minimize interference from colours of other origin, e.g. from chlorophyll. The distribution of Ni could be determined at the cellular level and consistent patterns were obtained for replicates. Staining of Ni dissolved in agar at various concentrations was used to calibrate the method. Concentrations as low as 50mgkg−1 (fresh weight) could be detected. Averaged over several cross-sections the DMG method systematically gave lower concentrations than ICP-OES analysis of the respective plant part, indicating that not all Ni in the tissue reacted with DMG, but only Ni that is readily available. The DMG method may be used in conjunction with spectroscopic methods to resolve biologically active Ni. [Copyright &y& Elsevier]

Published
2011
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27. Mapping of nickel in root cross-sections of the hyperaccumulator plant Berkheya coddii using laser ablation ICP-MS

Author

Moradi, Ahmad B., Swoboda, Siegfried, Robinson, Brett, Prohaska, Thomas, Kaestner, Anders, Oswald, Sascha E., Wenzel, Walter W., and Schulin, Rainer

Subjects
*HYPERACCUMULATOR plants, *LASERS in biology, *NICKEL, *PLANT roots, *PLANT cells & tissues, *NICKEL in soils, *INDUCTIVELY coupled plasma mass spectrometry, *X-ray spectroscopy, *STELE (Botany)
Abstract

Abstract: Quantitative studies of the distribution pattern of metals in plant tissues provide important information on the potential of metal-accumulator plants for remediation and amelioration of contaminated soils. We used laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) as well as staining with dimethylglyoxime (DMG) to investigate the distribution pattern of nickel (Ni) in root cross-sections of the Ni-hyperaccumulator plant Berkheya coddii Rossler. Plants were grown in rhizoboxes containing soil with 125mgkg−1 Ni. Roots were embedded in resin and cut into sections for LA-ICP-MS analysis. For DMG-staining analysis, fresh root cross-sections were prepared using a microtome. LA-ICP-MS revealed higher Ni concentrations in the cortex (374±66mgkg−1) than in the stele (210±48mgkg−1) of the investigated roots. The distribution pattern agreed well with those found by DMG-staining. Higher concentrations of Ni were found in the stele compared to the cortex of roots of the control plants not exposed to elevated soil Ni using both techniques. Our results indicate that an active uptake or ion selection mechanism exists for B. coddii in the absence of available Ni in the rhizosphere. [Copyright &y& Elsevier]

Published
2010
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28. Enhanced gas-liquid absorption through natural convection studied by neutron imaging.

Author

Fumey, Benjamin, Borgschulte, Andreas, Stoller, Sascha, Fricker, Reto, Knechtle, Ralf, Kaestner, Anders, Trtik, Pavel, and Baldini, Luca

Subjects
*NATURAL heat convection, *HEAT storage, *HEAT radiation & absorption, *ABSORPTION, *ENERGY density, *EVAPORATIVE cooling, *MARANGONI effect
Abstract

• Enhanced absorption through concentration-based convection. • Neutron imaging of water vapor absorption on aqueous sodium hydroxide. • Increased performance of heat and mass exchanger for sorption storage heat pump. Heat release from absorption storage heat pump by means of absorption of water vapor into aqueous sodium hydroxide is limited by uptake kinetics affecting temperature gain, as well as power- and energy density of the method. Earlier studies pinpoint that natural diffusion alone is not sufficient to reach higher uptake rate, and that the surface to bulk exchange has to be enforced. In this paper, different technical solutions to this problem for the heat storage application are introduced and studied by neutron imaging, enabling visual observation of water vapor uptake and diffusion. The experiments brought to the fore that the buoyancy changes associated with water uptake may be utilized to markedly enhance kinetics. This concept was applied on a vertically installed spiral finned tube operating as heat and mass exchanger for the absorption storage heat pump, also referred to as sorption heat storage. By flooding the space between the spiral fin with absorbent, water absorption into the vertical surface leads to a buoyancy driven movement of the liquid, supplying unspent aqueous NaOH to the vertical surface and exchanging it with the diluted liquid. This is found to increase the rate of absorption markedly. Under realistic heat storage specific operating conditions, a temperature gain of 12.5 K, an active area specific power of 1.28 kW/m2 and an energy density of 243 kWh/m3 in respect to the volume of charged absorbent (greatest volume) is reached. It is proposed that carful design of the spiral finned tube to enhance buoyancy movement will further improve overall sorption heat storage performance. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Maize genotype-specific exudation strategies: An adaptive mechanism to increase microbial activity in the rhizosphere.

Author

Bilyera, Nataliya, Zhang, Xuechen, Duddek, Patrick, Fan, Lichao, Banfield, Callum C., Schlüter, Steffen, Carminati, Andrea, Kaestner, Anders, Ahmed, Mutez A., Kuzyakov, Yakov, Dippold, Michaela A., Spielvogel, Sandra, and Razavi, Bahar S.

Subjects
*RHIZOSPHERE, *NEUTRON radiography, *MICROBIAL enzymes, *CORN, *METABOLITES, *NUTRIENT cycles, *EXUDATES & transudates
Abstract

Plants stimulate microbial enzyme production in the rhizosphere, regulating soil organic matter decomposition and nutrient cycling. The availability of labile organic compounds (i.e. exudates) and water is the main prerequisite for such microbial activity and enzyme production, thus shaping the rhizosphere. Root morphology (i.e., root hairs) and exudate composition define the spatial distribution of properties and functions in the rhizosphere. However, the role of root architecture and exudate composition in this spatial self-organization of the rhizosphere remains unknown. We coupled three in situ imaging approaches: 14C imaging to localize exudates, soil zymography to analyze enzyme activity distribution, and neutron radiography for water fluxes to trace the spatial structure of the rhizosphere of three maize genotypes (wild-type, mutant with defective root-hair prolongation rth3 , and mutant with reduced benzoxazinoid content in root exudates bx1). The co-localization of these three soil images revealed the pivotal role of both optimal water content (neutron radiography) and root exudation (14C imaging) for β-glucosidase production by the rhizosphere microbiome and its hydrolytic activity (zymography). Root hairs increased the exudate release and enlarged the spatial extent of increased β - glucosidase activity around the root axis by 35%, leading to a two-fold faster decomposition of 14C exudates compared to the mutant with defective root hairs. In contrast, benzoxazinoids suppressed β - glucosidase activity by 30%, reflecting decreased microbial activity, whereas their absence broadened the rhizosphere. Overall, root hairs in wild-type maize increased microbial activity (i.e. β - glucosidase production), whereas the benzoxazinoids in root exudates suppressed microorganisms. [Display omitted] • Zymography, 14C imaging, and neutron radiography were coupled to localize rhizosphere processes. • Exudates are released at root tip in wild-type maize, but along the whole root in rth3 and bx1 mutants. • Root hairs enlarged the spatial extent of increased β - glucosidase activity around the root by 35%. • Benzoxazinoids (secondary metabolites) suppressed β - glucosidase activity in the rhizosphere by 30%. • Hotspot co-localization revealed that exudates and water increased β - glucosidase activity. [ABSTRACT FROM AUTHOR]

Published
2021
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30. Plastic shrinkage of mortars cured with a paraffin-based compound – Bimodal neutron/X-ray tomography study.

Author

Wyrzykowski, Mateusz, Ghourchian, Sadegh, Münch, Beat, Griffa, Michele, Kaestner, Anders, and Lura, Pietro

Subjects
*COMPUTED tomography, *THREE-dimensional imaging, *TOMOGRAPHY, *MORTAR, *PLASTICS
Abstract

Early-age drying (immediately after casting) of mortars and the corresponding plastic shrinkage were studied using bimodal neutron/X-ray computed tomography. This novel, correlative 3D imaging mode enabled studying simultaneously and without any source of spurious perturbation the water migration and loss processes together with the corresponding deformations due to plastic shrinkage. Bimodal imaging opens up new possibilities for studying dynamic processes of coupled water transport and deformations in porous solids. The measurements were carried out on model systems (cylindrical mortar specimens with height of 19 mm). The study focused on the effect of a paraffin-based curing compound. Our results confirm that when the curing compound was applied directly onto the drying surface in a sufficient amount, both the evaporation rate and the rate of vertical displacement (settlement) were substantially reduced. The results shed a new light on the mechanisms of plastic shrinkage and the action of curing compounds. [ABSTRACT FROM AUTHOR]

Published
2021
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