It's Complicated: Intraroot System Variability of Respiration and Morphological Traits in Four Deciduous Tree Species

It's Complicated: Intraroot System Variability of Respiration and Morphological Traits in Four Deciduous Tree Species

Within branched root systems, a distinct heterogeneity of traits exists. Knowledge about the ecophysiology of different root types is critical to understand root system functioning. Classification schemes have to match functional root types as closely as possible to be used for sampling and modeling...

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Bibliographic Details
Published in:Plant physiology (Bethesda) Vol. 166; no. 2; pp. 736 - 745
Main Authors: Rewald, Boris, Rechenmacher, Andreas, Godbold, Douglas L.
Format: Journal Article
Language:English
Published: United States American Society of Plant Biologists 01-10-2014
Oxford University Press ; American Society of Plant Biologists
Series:Focus Issue on Roots
Subjects:
Agricultural sciences
Biomass
Botanics
Life Sciences
Plant morphology
Plant Physiological Phenomena
Plant roots
Plant Roots - physiology
Plants
Respiration
Root systems
Roots of functions
s - Focus Issue
Seedlings
Silviculture, forestry
Soil respiration
Species Specificity
Trees
Trees - classification
Trees - physiology
Vegetal Biology
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Summary:Within branched root systems, a distinct heterogeneity of traits exists. Knowledge about the ecophysiology of different root types is critical to understand root system functioning. Classification schemes have to match functional root types as closely as possible to be used for sampling and modeling. Among ecophysiological root traits, respiration is of particular importance, consuming a great amount of carbon allocated. Root architecture differs between the four deciduous tree seedlings. However, two types of terminal root segments (i.e. first and second orders), white colored and brown colored, can be distinguished in all four species but vary in frequency, their morphology differing widely from each other and higher coarse root orders. Root respiration is related to diameter and tissue density. The use of extended root ordering (i.e. order and color) explains the variance of respiration two times as well as root diameter or root order classes alone. White terminal roots respire significantly more than brown ones; both possess respiration rates that are greater than those of higher orders in regard to dry weight and lower in regard to surface area. The correlation of root tissue density to respiration will allow us to use this continuous parameter (or easier to determine dry matter content) to model the respiration within woody root systems without having to determine nitrogen contents. In addition, this study evidenced that extended root orders are better suited than root diameter classes to picture the differences between root functional types. Together with information on root order class frequencies, these data allow us to calculate realistic, species-specific respiration rates of root branches.
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The author responsible for distribution of materials integral to the findings presented in this article in accordance with the policy described in the Instructions for Authors (www.plantphysiol.org) is: Boris Rewald (rewald@rootecology.de).
www.plantphysiol.org/cgi/doi/10.1104/pp.114.240267
ISSN:0032-0889
1532-2548
1532-2548
DOI:10.1104/pp.114.240267