| Abstract: | Thermally stimulated depolarization current (TSDC) measurementson plant leaves and stems of six different species in the temperaturerange of 77300 K revealed the existence of three differentdispersions. The first dispersion at low temperatures, whichis attributed to the relaxation of loosely bound water moleculeswas studied in detail in an attempt to obtain information onthe possible structures of water in plant tissue. Its characteristicsdiffer for various plant tissues, indicating a different organizationof water in those plant tissues. The dispersion can be describedby a continuous distribution of relaxation times t with boththe activation energy W and the pre-exponential factor To inthe Arrhenius equation being distributed parameters. The spectrumof W and To was determined for E. globulus and O. europaea leafsamples. The mean values of T and W are larger and that of Tosmaller than the corresponding values for free (bulk) water.The results favour a model of the organization of water in clustersrather than in multilayers and indicate a stronger binding ofwater in living systems. Key words: Dielectric relaxation, distribution of relaxation times, free and bound water |
