| Abstract: | The study of isolated phloem in Heracleum has been extendedto intact functioning sieve tubes. Techniques of phloem dissectioncombined with Nomarski interference optics have been developedto permit useful visual observations, photomicrography, andciné photographs of sieve tubes which are apparentlynormal. In these preparations, plastids and organelles calledby us ‘marker particles’ are visible in rapid bouncingmotion, and the state of dispersal of these particles is relatedto the amount of damage done to the preparations. The movement of the marker particles and their subsequent fixationshows that they are apparently attached to or restrained byan invisible network in situ. The network is very sensitiveto disturbance and readily collapses around the sieve platesto form slime plugs upon damage to the sieve element. The markerparticles do not move through the cell nor across sieve platesin mature Heracleum. In young cells cyclosis is observable alongthe periphery and this suggests that a vacuole may then be present.In undamaged mature cells there was evidence neither of a vacuolenor of trans-cellular tubules of any size optically detectable. The motion of the particles was greater than Brownian movementand appeared to be under some physiological control. Their movementprobably indicated the presence of an operating transport phenomenon,either because solution was moving past them in the sieve tubeor because they were themselves attached to a contractile networkactively in pulsatory motion. Nearby companion and parenchymacells showed normal cytoplasmic streaming. Proposed mechanisms of translocation involving cytoplasmic streamingdo not seem to be applicable to the phloem of Heracleum. Themovement of the marker particles seemed to agree best with amechanism of ‘activated’ mass flow. |
