The effect of bacteria secreting an extracellular polysaccharide (EPS) on t
he physical properties of rhizosphere soil has been investigated as a funct
ion of soil water content by using an approach in which wheat seedlings wer
e inoculated with a strain Pantoea agglomerans (NAS206) selected from the r
hizosphere of wheat (Triticum durum L.) growing in a Moroccan vertisol. Col
onization by strain NAS206 occurred both on the rhizoplane and the root-adh
ering soil as opposed to the bulk soil. The intense colonization of the whe
at rhizosphere by these EPS-producing bacteria was associated with signific
ant aggregation and stabilization of root-adhering soil, as shown by the co
mbined increases of (i) aggregate mean weight diameter (MWD), (ii) aggregat
e macro-porosity (pore throat diameter between 10 and 80 mu m), (iii) adher
ing soil:root mass ratio (RAS/RT), (iv) water-stable > 200 mu m aggregates
and (v) 0.1-2 mu m elementary clayey micro-aggregates. Biological exudation
and capillary pressure interactions leading to root-adhering soil aggregat
ion are also analysed and discussed.