Root anatomical phenes predict root penetration ability and biomechanical properties in maize (Zea Mays)

The ability of roots to penetrate hard soil is important for crop productivity but specific root phenes contributing to this ability are poorly understood. Root penetrability and biomechanical properties are likely to vary in the root system dependent on anatomical structure. No information is avail...

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Published in	Journal of experimental botany Vol. 66; no. 11; pp. 3151 - 3162
Main Authors	Chimungu, Joseph G., Loades, Kenneth W., Lynch, Jonathan P.
Format	Journal Article
Language	English
Published	England Oxford University Press 01.06.2015
Subjects	Plant Roots - anatomy & histology Plant Roots - physiology RESEARCH PAPER Soil Zea mays Zea mays - anatomy & histology Zea mays - physiology phenes tensile strength Anatomy bending strength
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Abstract	The ability of roots to penetrate hard soil is important for crop productivity but specific root phenes contributing to this ability are poorly understood. Root penetrability and biomechanical properties are likely to vary in the root system dependent on anatomical structure. No information is available to date on the influence of root anatomical phenes on root penetrability and biomechanics. Root penetration ability was evaluated using a wax layer system. Root tensile and bending strength were evaluated in plant roots grown in the greenhouse and in the field. Root anatomical phenes were found to be better predictors of root penetrability than root diameter per se and associated with smaller distal cortical region cell size. Smaller outer cortical region cells play an important role in stabilizing the root against ovalization and reducing the risk of local buckling and collapse during penetration, thereby increasing root penetration of hard layers. The use of stele diameter was found to be a better predictor of root tensile strength than root diameter. Cortical thickness, cortical cell count, cortical cell wall area and distal cortical cell size were stronger predictors of root bend strength than root diameter. Our results indicate that root anatomical phenes are important predictors for root penetrability of high-strength layers and root biomechanical properties.
AbstractList	The ability of roots to penetrate hard soil is important for crop productivity but specific root phenes contributing to this ability are poorly understood. Root penetrability and biomechanical properties are likely to vary in the root system dependent on anatomical structure. No information is available to date on the influence of root anatomical phenes on root penetrability and biomechanics. Root penetration ability was evaluated using a wax layer system. Root tensile and bending strength were evaluated in plant roots grown in the greenhouse and in the field. Root anatomical phenes were found to be better predictors of root penetrability than root diameter per se and associated with smaller distal cortical region cell size. Smaller outer cortical region cells play an important role in stabilizing the root against ovalization and reducing the risk of local buckling and collapse during penetration, thereby increasing root penetration of hard layers. The use of stele diameter was found to be a better predictor of root tensile strength than root diameter. Cortical thickness, cortical cell count, cortical cell wall area and distal cortical cell size were stronger predictors of root bend strength than root diameter. Our results indicate that root anatomical phenes are important predictors for root penetrability of high-strength layers and root biomechanical properties. Root bending, tensile strength, and ability to penetrate hard soil are related to anatomical phenes that are subject to selection in crop breeding programs. The ability of roots to penetrate hard soil is important for crop productivity but specific root phenes contributing to this ability are poorly understood. Root penetrability and biomechanical properties are likely to vary in the root system dependent on anatomical structure. No information is available to date on the influence of root anatomical phenes on root penetrability and biomechanics. Root penetration ability was evaluated using a wax layer system. Root tensile and bending strength were evaluated in plant roots grown in the greenhouse and in the field. Root anatomical phenes were found to be better predictors of root penetrability than root diameter per se and associated with smaller distal cortical region cell size. Smaller outer cortical region cells play an important role in stabilizing the root against ovalization and reducing the risk of local buckling and collapse during penetration, thereby increasing root penetration of hard layers. The use of stele diameter was found to be a better predictor of root tensile strength than root diameter. Cortical thickness, cortical cell count, cortical cell wall area and distal cortical cell size were stronger predictors of root bend strength than root diameter. Our results indicate that root anatomical phenes are important predictors for root penetrability of high-strength layers and root biomechanical properties. Highlight Root bending, tensile strength, and ability to penetrate hard soil are related to anatomical phenes that are subject to selection in crop breeding programs.The ability of roots to penetrate hard soil is important for crop productivity but specific root phenes contributing to this ability are poorly understood. Root penetrability and biomechanical properties are likely to vary in the root system dependent on anatomical structure. No information is available to date on the influence of root anatomical phenes on root penetrability and biomechanics. Root penetration ability was evaluated using a wax layer system. Root tensile and bending strength were evaluated in plant roots grown in the greenhouse and in the field. Root anatomical phenes were found to be better predictors of root penetrability than root diameter per se and associated with smaller distal cortical region cell size. Smaller outer cortical region cells play an important role in stabilizing the root against ovalization and reducing the risk of local buckling and collapse during penetration, thereby increasing root penetration of hard layers. The use of stele diameter was found to be a better predictor of root tensile strength than root diameter. Cortical thickness, cortical cell count, cortical cell wall area and distal cortical cell size were stronger predictors of root bend strength than root diameter. Our results indicate that root anatomical phenes are important predictors for root penetrability of high-strength layers and root biomechanical properties.
Author	Chimungu, Joseph G. Loades, Kenneth W. Lynch, Jonathan P.
Author_xml	– sequence: 1 givenname: Joseph G. surname: Chimungu fullname: Chimungu, Joseph G. organization: Department of Plant Science, The Pennsylvania State University, University Park, PA 16802, USA – sequence: 2 givenname: Kenneth W. surname: Loades fullname: Loades, Kenneth W. organization: The James Hutton Institute, Invergowrie, Dundee, DD2 5DA, UK – sequence: 3 givenname: Jonathan P. surname: Lynch fullname: Lynch, Jonathan P. organization: Department of Plant Science, The Pennsylvania State University, University Park, PA 16802, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/25903914$$D View this record in MEDLINE/PubMed
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Snippet	The ability of roots to penetrate hard soil is important for crop productivity but specific root phenes contributing to this ability are poorly understood.... Highlight Root bending, tensile strength, and ability to penetrate hard soil are related to anatomical phenes that are subject to selection in crop breeding... Root bending, tensile strength, and ability to penetrate hard soil are related to anatomical phenes that are subject to selection in crop breeding programs....
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StartPage	3151
SubjectTerms	Plant Roots - anatomy & histology Plant Roots - physiology RESEARCH PAPER Soil Zea mays Zea mays - anatomy & histology Zea mays - physiology
Title	Root anatomical phenes predict root penetration ability and biomechanical properties in maize (Zea Mays)
URI	https://www.jstor.org/stable/26390144 https://www.ncbi.nlm.nih.gov/pubmed/25903914 https://www.proquest.com/docview/1684975058 https://www.proquest.com/docview/1855078841 https://pubmed.ncbi.nlm.nih.gov/PMC4449537
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