The Physicochemical Hydrodynamics of Vascular Plants

Plants live dangerously, but gracefully. To remain hydrated, they exploit liquid water in the thermodynamically metastable state of negative pressure, similar to a rope under tension. This tension allows them to pull water out of the soil and up to their leaves. When this liquid rope breaks, owing t...

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Bibliographic Details
Published in:Annual Review of Fluid Mechanics 2014-01, Vol.46 (1), p.615-642
Main Authors: Stroock, Abraham D, Pagay, Vinay V, Zwieniecki, Maciej A, Michele Holbrook, N
Format: Article
Language:English
Subjects:
Biological and medical sciences
Cavitation
Fluid dynamics
Fluid flow
Fluid mechanics
Fundamental and applied biological sciences. Psychology
Leaves
membrane
osmosis
Plant physiology and development
Plants (organisms)
Rope
transpiration
Water
Water and solutes. Absorption, translocation and permeability
xylem
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Summary:Plants live dangerously, but gracefully. To remain hydrated, they exploit liquid water in the thermodynamically metastable state of negative pressure, similar to a rope under tension. This tension allows them to pull water out of the soil and up to their leaves. When this liquid rope breaks, owing to cavitation, they catch the ends to keep it from unraveling and then bind it back together. In parallel, they operate a second vascular system for the circulation of metabolites though their tissues, this time with positive pressures and flow that passes from leaf to root. In this article, we review the current state of understanding of water management in plants with an emphasis on the rich coupling of transport phenomena, thermodynamics, and active biological processes. We discuss efforts to replicate plant function in synthetic systems and point to opportunities for physical scientists and engineers to benefit from and contribute to the study of plants.
ISSN:0066-4189
1545-4479
DOI:10.1146/annurev-fluid-010313-141411