Evidence of mechanical tissue strain in the development of hollow stem in broccoli

•We looked for evidence of mechanical strain in stem cavity development in broccoli.•Describes the timing, initiation site and development of hollow stem in broccoli.•Provide evidence of cell separation in new and cell fracturing in older cavities.•Show a relationship between hollow stem and plant s...

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Bibliographic Details
Published in:Scientia horticulturae 2013-12, Vol.164, p.353-358
Main Authors: Boersma, M., Gracie, A.J., Brown, P.H.
Format: Article
Language:English
Subjects:
Boron
Broccoli
cauliflower
flowering
Hollow stem
mechanical stress
pith
plant growth
scanning electron microscopy
starch
Stem cavities
stems
Tissue mechanics
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Summary:•We looked for evidence of mechanical strain in stem cavity development in broccoli.•Describes the timing, initiation site and development of hollow stem in broccoli.•Provide evidence of cell separation in new and cell fracturing in older cavities.•Show a relationship between hollow stem and plant stand density.•We propose that cavities develop within the stem as a result of mechanical stress. The underlying cause of hollow stem in commercially grown broccoli and cauliflower crops has been debated as arising from boron deficiency or high plant growth rates. This study recorded the development of hollow stem in plants grown in the field at standard commercial density (CD; 33,000plantsm−2) compared with high density (HD; 150,000plantsm−2). Hollow stem did not develop in plants grown at HD which had relatively tall, slender stems in comparison with plants grown at CD which had relatively short, wide stems. Hollow stem developed in all plants grown at CD just after inflorescence initiation, a time when stems began to rapidly enlarge and starch content in the pith decreased. Cavities first appeared in the upper sections of the stem as a fine fracture either at the edge of or traversing the pith cylinder. Many symptoms associated with a boron deficiency in broccoli and cauliflower were not observed and environmental scanning electron microscopy micrographs of the newly formed cavity revealed cell fracture consistent with mechanical strain. Furthermore, the elliptical shape of stems with hollow stem was consistent with the release of mechanical strain and this may provide a non-destructive method for determining hollow stem occurrence and severity.
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2013.09.020