Going with the Flow: Multiscale Insights into the Composite Nature of Water Transport in Roots

质外体 导水率 水运 胞间连丝 水流 内胚层 水力学 电导率 植物 数学 化学 土壤科学 土壤水分 物理 生物 细胞壁 热力学 环境科学 物理化学 生物化学
作者
Valentin Couvreur,Marc Faget,Guillaume Lobet,Mathieu Javaux,François Chaumont,Xavier Draye
出处
期刊:Plant Physiology [Oxford University Press]
卷期号:178 (4): 1689-1703 被引量:97
标识
DOI:10.1104/pp.18.01006
摘要

As water often limits crop production, a more complete understanding of plant water capture and transport is necessary. Here, we developed MECHA, a mathematical model that computes the flow of water across the root at the scale of walls, membranes, and plasmodesmata of individual cells, and used it to test hypotheses related to root water transport in maize (Zea mays). The model uses detailed root anatomical descriptions and a minimal set of experimental cell properties, including the conductivity of plasma membranes, cell walls, and plasmodesmata, which yield quantitative and scale-consistent estimations of water pathways and root radial hydraulic conductivity (k r). MECHA revealed that the mainstream hydraulic theories derived independently at the cell and root segment scales are compatible only if osmotic potentials within the apoplastic domains are uniform. The results suggested that the convection-diffusion of apoplastic solutes explained most of the offset between estimated k r in pressure clamp and osmotic experiments, while the contribution of water-filled intercellular spaces was limited. Furthermore, sensitivity analyses quantified the relative impact of cortex and endodermis cell conductivity of plasma membranes on root k r and suggested that only the latter contributed substantially to k r due to the composite nature of water flow across roots. The explicit root hydraulic anatomy framework brings insights into contradictory interpretations of experiments from the literature and suggests experiments to efficiently address questions pertaining to root water relations. Its scale consistency opens avenues for cross-scale communication in the world of root hydraulics.
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