Natural variation of Arabidopsis root architecture reveals complementing adaptive strategies to potassium starvation
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TLDR
A phenotypic gradient is identified that links two extreme strategies of morphological adaptation to low K arising from a major tradeoff between main root (MR) and lateral root elongation and indicates the existence of genomic hubs in the coordinated control of root growth in stress conditions.Abstract:
Root architecture is a highly plastic and environmentally responsive trait that enables plants to counteract nutrient scarcities with different foraging strategies. In potassium (K) deficiency (low K), seedlings of the Arabidopsis (Arabidopsis thaliana) reference accession Columbia (Col-0) show a strong reduction of lateral root elongation. To date, it is not clear whether this is a direct consequence of the lack of K as an osmoticum or a triggered response to maintain the growth of other organs under limiting conditions. In this study, we made use of natural variation within Arabidopsis to look for novel root architectural responses to low K. A comprehensive set of 14 differentially responding root parameters were quantified in K-starved and K-replete plants. We identified a phenotypic gradient that links two extreme strategies of morphological adaptation to low K arising from a major tradeoff between main root (MR) and lateral root elongation. Accessions adopting strategy I (e.g. Col-0) maintained MR growth but compromised lateral root elongation, whereas strategy II genotypes (e.g. Catania-1) arrested MR elongation in favor of lateral branching. K resupply and histochemical staining resolved the temporal and spatial patterns of these responses. Quantitative trait locus analysis of K-dependent root architectures within a Col-0 × Catania-1 recombinant inbred line population identified several loci each of which determined a particular subset of root architectural parameters. Our results indicate the existence of genomic hubs in the coordinated control of root growth in stress conditions and provide resources to facilitate the identification of the underlying genes.read more
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References
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TL;DR: The experiments show that adequate external concentrations of nitrogen and phosphorus are required by any part of the root system for optimal growth of laterals, but not axes, and possible mechanisms which compensate shoot growth when nutrients are supplied to only part of a root system, and agronomic implications are discussed.
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A hypothesis relating critical potassium concentrations for growth to the distribution and functions of this ion in the plant cell
Roger A. Leigh,R. G. Wyn Jones +1 more
TL;DR: A model is proposed in which, as the concentration of K in the tissue declines, the concentration in the cytoplasm is initially maintained constant, while that in the vacuole decreases, and the hypothesis explains the observed relationships between growth and concentrations of K.
Journal ArticleDOI
Phosphate Availability Alters Architecture and Causes Changes in Hormone Sensitivity in the Arabidopsis Root System
José López-Bucio,Esmeralda Hernández-Abreu,Lenin Sánchez-Calderón,Marı́a Fernanda Nieto-Jacobo,June Simpson,Luis Herrera-Estrella +5 more
TL;DR: Analysis of ethylene signaling mutants and treatments with 1-aminocyclopropane-1-carboxylic acid showed that ethylene does not promote lateral root formation under P deprivation, suggesting that in Arabidopsis, auxin sensitivity may play a fundamental role in the modifications of root architecture by P availability.
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