Synchrotron X-ray CT of rose peduncles – evaluation of tissue damage by radiation*

Herppich, WB, Matsushima, U, Graf, W, Zabler, S, Dawson, MN, Choinka, G and Manke, I 2015, 'Synchrotron X-ray CT of rose peduncles – evaluation of tissue damage by radiation*' , Materials Testing, 57 (1) , pp. 59-63.

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Abstract

"Bent-neck" syndrome, an important postharvest problem of cut roses, is probably caused by water supply limitations and/or the structural weakness of vascular bundles of the peduncle tissue. For this reason, advanced knowledge about the microstructures of rose peduncles and their cultivar specific variations may lead to a better understanding of the underlying mechanisms. Synchrotron X-ray computed tomography (SXCT), especially phase-based CT, is a highly suitable technique to nondestructively investigate plants' micro anatomy. SXCT with monochromatic X-ray beams of 30, 40 and 50 keV photon energy was used to evaluate the three-dimensional inner structures of the peduncles of 3 rose cultivars that differ greatly in their bent-neck susceptibility. Results indicated that this technique achieves sufficiently high spatial resolution to investigate complex tissues. However, further investigations with chlorophyll fluorescence analysis (CFA) and optical microscope imagery reveal different kinds of heavy damage of the irradiated regions induced by synchrotron X-rays; in a cultivar-specific manner, partial destruction of cell walls occurred a few hours after X-ray irradiation. Furthermore, a delayed inhibition of photosynthesis accompanied by the degradation of chlorophyll was obvious from CFA within hours and days after the end of CT measurements. Although SXCT is certainly well suited for three-dimensional anatomical analysis of rose peduncles, the applied technique is not nondestructive.

Item Type: Article
Schools: Schools > School of Computing, Science and Engineering
Journal or Publication Title: Materials Testing
Publisher: Carl Hanser Verlag
ISSN: 0025-5300
Depositing User: WM Taylor
Date Deposited: 23 Nov 2016 13:04
Last Modified: 23 Nov 2016 13:04
URI: http://usir.salford.ac.uk/id/eprint/40862

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