Until now, the choice of materials for seed pelleting has been mostly empir
ical. We have analysed coating materials (silicate powder A, clay B and hyd
rophobic clay C) and their water-transfer properties. Seed-pelleting materi
als were studied with conventional soil-analysis techniques. An original de
vice for studying water transfer through a thin layer of powder was designe
d to simulate the transfer of water from the soil to the seed, through the
pelleting material. Different parameters were studied: particle-size distri
bution, water-retention curve of materials, thickness of powder, influence
of concentration of adhesive in pelleting, etc. The sintered glass on which
the powders were placed in the device constituted a limiting factor. The m
ajor component, a silicate powder (A), consisting of large particles, is re
sponsible for the general structure of the pelleting. Introduction of cl;ly
(B) gave intermediate properties between A and C to water-transfer capacit
y. Hydrophobic clay (C) can be used to control the incoming flow. The parti
cle-size distribution and wettability of materials have a direct impact on
the transfer capacity of the powder. High adhesive concentration had a nega
tive effect on water transfer. These parameters and the formulation have a
direct impact on imbibition of pelleting materials. Objective tools, like t
he analytical methods used in this study, enable water-transfer parameters
and consequences on imbibition of coated seed to be understood. (C) 1999 El
sevier Science B.V. All rights reserved.