Cu2+ inhibitionofgelsecretioninthexylemandits potentialimplicationsforwateruptakeofcutAcacia holosericeastems

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dc.contributor.author Ratnayake, Kamani
dc.contributor.author Joyce, D.C.
dc.contributor.author Webb, R.I.
dc.date.accessioned 2021-04-22T04:30:09Z
dc.date.available 2021-04-22T04:30:09Z
dc.date.issued 2013
dc.identifier.citation PhysiologiaPlantarum148:538–548.2013 en_US
dc.identifier.issn 0031-9317
dc.identifier.uri http://repository.wyb.ac.lk/handle/1/3116
dc.description.abstract Maintaining a high rate of water uptake is crucial for maximum longevity of cut stems. Physiological gel/tylosis formation decreases water transport efficiency in the xylem. The primary mechanism of action for post-harvest Cu2+ treatments in improving cut flower and foliage longevity has been elusive. The effect of Cu2+ on wound-induced xylem vessel occlusion was investigated for Acacia holosericeaA. Cunn. ex G. Don. Experiments were conducted using a Cu2+ pulse (5 h, 2.2 mM)andaCu2+ vase solution (0.5 mM) vs a deionized water (DIW) control. Development of xylem blockage in the stem-end region 10 mm proximal to the wounded stem surface was examinedover21daysbylightandtransmissionelectronmicroscopy.Xylem vesselsofstemsstoodintoDIWwereoccludedwithgelssecretedintovessel lumens via pits from surrounding axial parenchyma cells. Gel secretion was initiated within 1–2 days post-wounding and gels were detected in the xylem from day 3. In contrast, Cu2+ treatments disrupted the surrounding parenchymacells,therebyinhibitinggelsecretionandmaintainingthevessel lumens devoid of occlusions. The Cu2+ treatments significantly improved wateruptakebythecutstems ascomparedto thecontrol. en_US
dc.language.iso en en_US
dc.publisher ScandinavianPlantPhysiology Society en_US
dc.title Cu2+ inhibitionofgelsecretioninthexylemandits potentialimplicationsforwateruptakeofcutAcacia holosericeastems en_US
dc.type Article en_US


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