Asset Details
MbrlCatalogueTitleDetail
Do you wish to reserve the book?
High-resolution synchrotron imaging shows that root hairs influence rhizosphere soil structure formation
by
Keith R. Daly
, Anthony G. Bengough
, Timothy S. George
, Lawrie K. Brown
, Annette Raffan
, Muhammad Naveed
, Nicolai Koebernick
, Ian Sinclair
, Tiina Roose
, Paul D. Hallett
, Laura J. Cooper
, Samuel D. Keyes
in
barley
/ Bulk density
/ Computed tomography
/ Computer Simulation
/ Dye dispersion
/ fine-textured soils
/ genotype
/ Genotypes
/ High resolution
/ Hordeum - physiology
/ Hordeum vulgare
/ image analysis
/ Image resolution
/ image‐based modelling
/ Imaging techniques
/ Imaging, Three-Dimensional
/ Loam
/ Loam soils
/ Membrane permeability
/ Microcosms
/ Modelling
/ mutants
/ noninvasive imaging
/ Permeability
/ plant establishment
/ Plant Roots - physiology
/ Porosity
/ Rhizosphere
/ Root hairs
/ Sandy loam
/ sandy loam soils
/ Sandy soils
/ saturated conditions
/ Soil
/ Soil - chemistry
/ Soil permeability
/ soil pore system
/ Soil porosity
/ Soil structure
/ Soil texture
/ Soils
/ synchrotron
/ Synchrotron radiation
/ Synchrotrons
/ Tomography
2017
Hey, we have placed the reservation for you!
By the way, why not check out events that you can attend while you pick your title.
You are currently in the queue to collect this book. You will be notified once it is your turn to collect the book.
Oops! Something went wrong.
Looks like we were not able to place the reservation. Kindly try again later.
Are you sure you want to remove the book from the shelf?
High-resolution synchrotron imaging shows that root hairs influence rhizosphere soil structure formation
by
Keith R. Daly
, Anthony G. Bengough
, Timothy S. George
, Lawrie K. Brown
, Annette Raffan
, Muhammad Naveed
, Nicolai Koebernick
, Ian Sinclair
, Tiina Roose
, Paul D. Hallett
, Laura J. Cooper
, Samuel D. Keyes
in
barley
/ Bulk density
/ Computed tomography
/ Computer Simulation
/ Dye dispersion
/ fine-textured soils
/ genotype
/ Genotypes
/ High resolution
/ Hordeum - physiology
/ Hordeum vulgare
/ image analysis
/ Image resolution
/ image‐based modelling
/ Imaging techniques
/ Imaging, Three-Dimensional
/ Loam
/ Loam soils
/ Membrane permeability
/ Microcosms
/ Modelling
/ mutants
/ noninvasive imaging
/ Permeability
/ plant establishment
/ Plant Roots - physiology
/ Porosity
/ Rhizosphere
/ Root hairs
/ Sandy loam
/ sandy loam soils
/ Sandy soils
/ saturated conditions
/ Soil
/ Soil - chemistry
/ Soil permeability
/ soil pore system
/ Soil porosity
/ Soil structure
/ Soil texture
/ Soils
/ synchrotron
/ Synchrotron radiation
/ Synchrotrons
/ Tomography
2017
Oops! Something went wrong.
While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
High-resolution synchrotron imaging shows that root hairs influence rhizosphere soil structure formation
by
Keith R. Daly
, Anthony G. Bengough
, Timothy S. George
, Lawrie K. Brown
, Annette Raffan
, Muhammad Naveed
, Nicolai Koebernick
, Ian Sinclair
, Tiina Roose
, Paul D. Hallett
, Laura J. Cooper
, Samuel D. Keyes
in
barley
/ Bulk density
/ Computed tomography
/ Computer Simulation
/ Dye dispersion
/ fine-textured soils
/ genotype
/ Genotypes
/ High resolution
/ Hordeum - physiology
/ Hordeum vulgare
/ image analysis
/ Image resolution
/ image‐based modelling
/ Imaging techniques
/ Imaging, Three-Dimensional
/ Loam
/ Loam soils
/ Membrane permeability
/ Microcosms
/ Modelling
/ mutants
/ noninvasive imaging
/ Permeability
/ plant establishment
/ Plant Roots - physiology
/ Porosity
/ Rhizosphere
/ Root hairs
/ Sandy loam
/ sandy loam soils
/ Sandy soils
/ saturated conditions
/ Soil
/ Soil - chemistry
/ Soil permeability
/ soil pore system
/ Soil porosity
/ Soil structure
/ Soil texture
/ Soils
/ synchrotron
/ Synchrotron radiation
/ Synchrotrons
/ Tomography
2017
Please be aware that the book you have requested cannot be checked out. If you would like to checkout this book, you can reserve another copy
We have requested the book for you!
Your request is successful and it will be processed during the Library working hours. Please check the status of your request in My Requests.
Oops! Something went wrong.
Looks like we were not able to place your request. Kindly try again later.
High-resolution synchrotron imaging shows that root hairs influence rhizosphere soil structure formation
Journal Article
High-resolution synchrotron imaging shows that root hairs influence rhizosphere soil structure formation
2017
Request Book From Autostore
and Choose the Collection Method
Overview
In this paper, we provide direct evidence of the importance of root hairs on pore structure development at the root–soil interface during the early stage of crop establishment.
This was achieved by use of high-resolution (c. 5 μm) synchrotron radiation computed tomography (SRCT) to visualise both the structure of root hairs and the soil pore structure in plant–soil microcosms. Two contrasting genotypes of barley (Hordeum vulgare), with and without root hairs, were grown for 8d in microcosms packed with sandy loam soil at 1.2 g cm−3 dry bulk density. Root hairs were visualised within air-filled pore spaces, but not in the fine-textured soil regions.
We found that the genotype with root hairs significantly altered the porosity and connectivity of the detectable pore space (> 5 μm) in the rhizosphere, as compared with the no-hair mutants. Both genotypes showed decreasing pore space between 0.8 and 0.1mm from the root surface. Interestingly the root-hair-bearing genotype had a significantly greater soil pore volume-fraction at the root–soil interface.
Effects of pore structure on diffusion and permeability were estimated to be functionally insignificant under saturated conditions when simulated using image-based modelling.
This website uses cookies to ensure you get the best experience on our website.