Drift of aquatic macrophyte propagules was investigated in a wetland along
the River Rhone, during the first flood after the growing season (i.e. in t
he winter of 1995-1996). Input and output drift were studied at the beginni
ng, around the top, and at the end of the river overflow in the upper reach
of a cut-off channel. The soil propagule bank was sampled along the study
area before and after the flood. The amount and composition of viable propa
gule drift and bank were determined, analysed and compared. Drift densities
and richness were on average higher at the outlet of the channel than at t
he inlet (respectively: 23.2 vs 13.1 viable propagules/ 100 m(3) of water a
nd 8.7 vs 2.6 taxa per sample). Immigrating taxa were mostly in the form of
helophyte seeds, whereas numerous resident hydrophyte species left the dis
turbed area rather as vegetative propagules.
Temporal variability in propagule bank structure was weak, and mean bank de
nsities did not change before and after the flood (respectively: 33 047 +/-
10 510 vs 35 653 +/- 15 070 viable propagules/m(2) of ground, including Ch
ara). However, the density of Elodea canadensis significantly increased aft
er the flood while that of Eleocharis acicularis decreased. This contrast s
uggests that flood responses vary among species. Despite abroad overlap in
the taxa (18 out of 25 were common both to drift and bank collections), no
significant relationship occurred in composition or structural changes betw
een flood drift and propagule bank. Flood acted as a means of distribution
of existing propagules and also as a provider of new vegetative dispersal u
nits.