Holocrine Secretion and Kino Flow in Angiosperms: Their Role and Physiological Advantages in Plant Defence Mechanisms
Paulo Cabrita

TL;DR
This paper investigates the physiology of kino flow in angiosperms, revealing its advantages over resin flow in conifers and its role in plant defense, through modeling and analysis of flow dynamics.
Contribution
It presents a detailed model of kino flow in angiosperms, highlighting its lower energy costs and evolutionary significance in plant defense mechanisms.
Findings
Kino flow is similar to resin flow but with lower resistance.
Holocrine loading of kino is not pressure-driven, unlike resin loading.
Kino flow requires less pressure, indicating physiological advantages.
Abstract
Kinos are plant exudates, rich in polyphenols, produced by several angiosperms in reaction to damage. They flow out of kino veins, schizolysigenous ducts composing an anatomically distinct continuous system of tangentially anastomosing lacunae produced by the vascular cambium, which encircle the plant. Kino is secreted holocrinously into the vein lumen by a cambiform epithelium lined by suberized cells that separate kino veins from the surrounding axial parenchyma. A model describing kino flow in eucalypts is presented to investigate how vein distribution and structure, as well as kino holocrine loading, crystallization, and viscosity affect flow. Considering viscosity, vein anatomy, and a time-dependent holocrine loading of kino, the unsteady Stokes equation was applied. Qualitatively, kino flow is similar to resin flow. There is an increase in flow towards the vein open end, and both…
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