High resolution synchrotron imaging of wheat root hairs growing in soil and image based modelling of phosphate uptake

Samuel D Keyes; Keith R Daly; Neil J Gostling; Davey L Jones; Peter Talboys; Bernd R Pinzer; Richard Boardman; Ian Sinclair; Alan Marchant; Tiina Roose

doi:10.1111/nph.12294

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High resolution synchrotron imaging of wheat root hairs growing in soil and image based modelling of phosphate uptake

Journal article

Peer reviewed

High resolution synchrotron imaging of wheat root hairs growing in soil and image based modelling of phosphate uptake

Samuel D Keyes, Keith R Daly, Neil J Gostling, Davey L Jones, Peter Talboys, Bernd R Pinzer, Richard Boardman, Ian Sinclair, Alan Marchant and Tiina Roose

The New phytologist, Vol.198(4), pp.1023-1029

2013

DOI: https://doi.org/10.1111/nph.12294

PMID: 23600607

Abstract

Computer Simulation

Imaging, Three-Dimensional - methods

Models, Biological

Phosphates - metabolism

Plant Roots - anatomy & histology

Plant Roots - growth & development

Rhizosphere

Soil

Synchrotrons

Triticum - anatomy & histology

· Root hairs are known to be highly important for uptake of sparingly soluble nutrients, particularly in nutrient deficient soils. Development of increasingly sophisticated mathematical models has allowed uptake characteristics to be quantified. However, modelling has been constrained by a lack of methods for imaging live root hairs growing in real soils. · We developed a plant growth protocol and used Synchrotron Radiation X-ray Tomographic Microscopy (SRXTM) to uncover the three-dimensional (3D) interactions of root hairs in real soil. We developed a model of phosphate uptake by root hairs based directly on the geometry of hairs and associated soil pores as revealed by imaging. · Previous modelling studies found that root hairs dominate phosphate uptake. By contrast, our study suggests that hairs and roots contribute equally. We show that uptake by hairs is more localized than by roots and strongly dependent on root hair and aggregate orientation. · The ability to image hair-soil interactions enables a step change in modelling approaches, allowing a more realistic treatment of processes at the scale of individual root hairs in soil pores.

Details

Title: High resolution synchrotron imaging of wheat root hairs growing in soil and image based modelling of phosphate uptake
Authors/Creators: Samuel D Keyes - University of Southampton
Keith R Daly - University of Southampton
Neil J Gostling - University of Southampton
Davey L Jones - School of Environment, Natural Resources & Geography, University of Bangor, Bangor, Gwynedd, LL57 2UW, UK
Peter Talboys - Bangor University
Bernd R Pinzer - Paul Scherrer Institute
Richard Boardman - University of Southampton
Ian Sinclair - University of Southampton
Alan Marchant - University of Southampton
Tiina Roose - University of Southampton
Publication Details: The New phytologist, Vol.198(4), pp.1023-1029
Publisher: Wiley
Grant note: Biotechnology and Biological Sciences Research Council
Identifiers: 991005560418607891
Murdoch Affiliation: Centre for Sustainable Farming Systems
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.45 Soil Science; 3.45.473 Soil Phosphorus Dynamics
Web Of Science research areas: Plant Sciences
ESI research areas: Plant & Animal Science