RT Journal Article SR Electronic T1 Sieve tube structural variation in Austrobaileya scandens and its significance for lianescence JF bioRxiv FD Cold Spring Harbor Laboratory SP 2021.09.23.461614 DO 10.1101/2021.09.23.461614 A1 Losada, Juan M. A1 He, Zhe A1 Holbrook, N. Michele YR 2021 UL http://biorxiv.org/content/early/2021/09/24/2021.09.23.461614.abstract AB Lianas are characterized by large leaf areas and slender stems, a combination of features that require an efficient vascular system. The only extant member of the Austrobaileyaceae, is an endemic twining liana of the tropical Australian forests with well-known xylem hydraulic traits. However, the vascular phloem continuum through aerial organs remains understudied.We analyzed the structure of phloem conduits across leaf veins and stems of A. scandens, combining topological data obtained through light and electron microscopy, with current models of phloem transport.Leaves displayed a low xylem to phloem ratio compared with leaves of other angiosperms, with vascular elements invariant in diameter along the midrib, but tapered across vein hierarchies. Sieve plate pore radii were extremely small: 0.08 µm in minor veins, increasing to 0.12µm in the petiole and only to 0.20µm at the base of the stem, tens of meters away. Searcher branches contained tube shaped phloem conduits with a pectin-rich wall, whereas twining stems displayed sieve elements with tangential connections that displayed a greater fraction of the tubes populated with an astonishing number of sieve plates.Hydraulic segmentation of the leaves in Austrobaileyaceae correlate with vesseless leaves that benefit photoassimilate export through volumetric scaling of the sieve tube elements. Yet, compared with canopy dominant trees, the geometrical properties of the sieve tube in twining stems, restrict considerably energy distribution in the sub-canopy layers, potentially favoring the allocation of assimilates toward the elongating branches. Thus, the conductive xylem of twining stems contrasts with a poorly conductive phloem that meets the mechanical constraints of lianescence.Competing Interest StatementAll authors declare no competing interest