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The potential link between gas diffusion and embolism spread in angiosperm xylem: Evidence from flow‐centrifuge experiments and modelling.
- Source :
- Plant, Cell & Environment; Dec2024, Vol. 47 Issue 12, p4977-4991, 15p
- Publication Year :
- 2024
-
Abstract
- Understanding xylem embolism formation is challenging due to dynamic changes and multiphase interactions in conduits. Here, we hypothesise that embolism spread involves gas diffusion in xylem, and is affected by time. We measured hydraulic conductivity (Kh) in flow‐centrifuge experiments over 1 h at a given pressure and temperature for stem samples of three angiosperm species. Temporal changes in Kh at 5, 22, and 35°C, and at various pressures were compared to modelled gas concentration changes in a recently embolised vessel in the centre of a centrifuge sample. Temporal changes in Kh were logarithmic and species‐specific. Maximum relative increases of Kh between 6% and 40% happened at 22°C for low centrifugal speed (<3250 RPM), while maximum decreases between 41% and 61% occurred at higher speeds. These reductions in Kh were experimentally shown to be associated with a temporal increase of embolism at the centre of centrifuge samples, which was likely associated with gas concentration increases in recently embolized vessels. Although embolism is mostly pressure‐driven, our experimental and modelled data indicate that time, conduit characteristics, and temperature are involved due to their potential role in gas diffusion. Gas diffusion, however, does not seem to cover the entire process of embolism spread. Summary Statement: Based on flow‐centrifuge experiments and modelling, we found that embolism formation is not only driven by pressure, but also involves gas movement, which is affected by time, temperature, and vessel anatomy. These findings contribute to a better understanding of plant water transport. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 01407791
- Volume :
- 47
- Issue :
- 12
- Database :
- Complementary Index
- Journal :
- Plant, Cell & Environment
- Publication Type :
- Academic Journal
- Accession number :
- 180681871
- Full Text :
- https://doi.org/10.1111/pce.15084