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ABSTRACT:

In vivo magnetic resonance imaging of xylem vessel contents in woody lianas

Journal Article

Clearwater M; Clark C

2003

Plant Cell and Environment

26

1205-1214

Previous reports suggest that in some plant species the refilling of embolized xylem vessels can occur while negative pressure exists in the xylem. The aim of this experiment was to use non-destructive nuclear magnetic resonance imaging (MRI) to study the dynamics of xylem cavitation and embolism repair in-vivo. Serial 1H-MRI was used to monitor the contents of xylem vessels in stems of two dicotyledonous (Actinidia deliciosa and Actinidia chinensis kiwifruit) and one monocotyledonous (Ripogonum scandens supplejack) species of woody liana. The configuration of the horizontal wide bore magnet and probe allowed the imaging of woody stems up to 20mm in diameter. Tests using excised stems confirmed that the image resolution of 78 μm and digital image subtraction could be used to detect the emptying and refilling of individual vessels. Imaging was conducted on both intact plants and excised shoots connected to a water supply. In the case of Ripogonum the excised shoots were long enough to allow the distal end of the shoot including all leaves to be exposed to ambient conditions outside the building while the proximal end was inside the MRI magnet. In total six stems were monitored for 240h while the shoots were subjected to treatments that included light and dark periods water stress followed by re-watering and the covering of all leaves to prevent transpiration. The sudden emptying of water-filled vessels occurred frequently while xylem water potential was low (below -0.5MPa for Actinidia -1.0MPa for Ripogonum) and less frequently after xylem water potential approached zero at the end of water-stress treatments. No refilling of empty vessels was observed at any time in any of the species examined. It is concluded that embolism repair under negative pressure does not occur in the species examined here. Embolism repair may be more likely in species with narrower xylem vessels but further experiments are required with other species before it can be concluded that repair during transpiration is a widespread phenomenon.

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Support

The Liana Ecology Project is supported by Marquette University and funded in part by the National Science Foundation.