2005 Volume 22 Issue 1 Pages 53-61
Thalassochory potential was investigated for fourteen plant species (eleven native species and three alien species), which were dominant and/or characteristic species of coastal sand dunes in the warm temperate zone in Japan. The buoyancy and the viability of their disseminules in sea water (simulated by 3.45% sodium chloride solution) were examined in a laboratory. Fruits of Fimbristylis sericea did not float in sodium chloride solution, suggesting that this species would not be dispersed by sea currents. Grains of Ischaemum anthephoroides and Zoysia macrostachya floated for about ten to twenty days, suggesting that these species would be capable of dispersion by sea currents for a short period. Fruits or seeds of the other native coastal plants, i.e. Lathyrus japonicus, Glehnia littoralis, Calystegia soldanella, Vitex rotundifolia, Ixeris repens, Wedelia prostrata, Carex kobomugi and Carex pumila, continued to float and remained in sodium chloride solution for at least two months, suggesting that they would have high potential for thalassochory. On the other hand, disseminules of three alien species, Oenothera laciniata, Diodia teres and Lolium rigidum, did not float in the solution, suggesting that these alien species would not be dispersed by sea currents. However, these alien species can also be distributed in inland habitats, and they can be dispersed from inland seed source to coastal sand dune areas. If fragmentation of coasts takes place artificially and disrupts the structure of meta populations, native coastal plants which have limited capacity for thalassochory will disappear, since their disseminules would not be able to migrate again following extinction of the local population.