Within-tree variability and sample storage effects of bordered pit membranes in xylem of Acer pseudoplatanus

Key message Intervessel pit membranes in xylem tissue of Acer pseudoplatanus differ in their thickness both within and across plant organs and may undergo considerable shrinkage during dehydration and sample preparation. Intervessel pit membranes have been suggested to account for more than half of...

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Bibliographic Details
Published in:Trees (Berlin, West) West), 2020-02, Vol.34 (1), p.61-71
Main Authors: Kotowska, Martyna M., Thom, Rebecca, Zhang, Ya, Schenk, H. Jochen, Jansen, Steven
Format: Article
Language:English
Subjects:
Acer pseudoplatanus
Agriculture
Alcohols
Atrophy
Biomedical and Life Sciences
Branches
Dehydration
Drought
Embolism
Embolisms
Forestry
Interspecific
Life Sciences
Membrane structure
Membrane structures
Membranes
Organs
Original Article
Plant Anatomy/Development
Plant Pathology
Plant Physiology
Plant Sciences
Sample preparation
Shrinkage
Transmission electron microscopy
Variation
Wall thickness
Xylem
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Summary:Key message Intervessel pit membranes in xylem tissue of Acer pseudoplatanus differ in their thickness both within and across plant organs and may undergo considerable shrinkage during dehydration and sample preparation. Intervessel pit membranes have been suggested to account for more than half of the total xylem hydraulic resistance in plants and play a major role in vulnerability to drought-induced hydraulic failure. While the thickness of intervessel pit membranes was found to be associated with xylem embolism resistance at an interspecific level, variation in pit membrane structure across different organs along the flow path within a single tree remains largely unknown. Based on transmission electron microscopy, we examined intra-tree variation of bordered pit and pit membrane characteristics in xylem of roots, stems, branches, petioles, and leaf veins of Acer pseudoplatanus . Moreover, potential preparation artefacts on pit membrane structure such as alcohol treatment and dehydration were tested. Our observations showed quantitative differences in bordered pits across organs, including variation in pit membrane thickness within and across organs. Vessel size was weakly related to intervessel wall thickness, but not significantly linked to pit membrane thickness. Gradual dehydration of wood samples resulted in irreversible shrinkage of pit membranes, together with increased levels of aspiration. These findings are relevant to explore similarity in xylem embolism resistance across plant organs.
ISSN:0931-1890
1432-2285
DOI:10.1007/s00468-019-01897-4