Frontiers in Physics (Apr 2023)

Water refilling along vessels at initial stage of willow cuttage revealed by move contrast CT

  • Mingwei Xu,
  • Mingwei Xu,
  • Mingwei Xu,
  • Ke Li,
  • Yanling Xue,
  • Feixiang Wang,
  • Zhixuan Liu,
  • Zhixuan Liu,
  • Zenghao Song,
  • Zenghao Song,
  • Zenghao Song,
  • Tiqiao Xiao,
  • Tiqiao Xiao,
  • Tiqiao Xiao

DOI
https://doi.org/10.3389/fphy.2023.1174387
Journal volume & issue
Vol. 11

Abstract

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Cuttage is a widely used technique for plant propagation, whose success relies on the refilling for water transport recovery. However, requirements for refilling characterization studies, including large penetration depth, fast temporal resolution and high spatial resolution, cannot be reached simultaneously via conventional imaging techniques. So far, the dynamic process of water refilling along the vessels at the initial stage of cuttage, as well as its characteristics, remains unclear. Hereby, we developed a move contrast X-ray microtomography method which achieves 3D dynamic non-destructive imaging of water refilling at the initial stage of willow branch cuttage, without the aid of any contrast agent. Experimental results indicate three primary refilling modalities in vessels: 1) the osmosis type, mainly manifested by the osmosis of tissue through the vessel wall into the cavity; 2) the linear type, revealed as the tissue permeates to a certain extent where the liquid column in the vessels is completely formed; and 3) an osmosis-linear mixed type refilling as an intermediate state. Further analysis also exhibits a “temporal-spatial relay” mode of refilling between adjacent vessels. Since the vessel length is quite limited, the cavitation and the relay refilling mode of vessels can be an important way to achieve long-distance water transport.

Keywords