A comprehensive study of weathering in plagioclase-hornblende rock (amphibolite) from La Roche-l'Abeille, Massif Central, using optical and classical methods of clay mineralogy and electron microprobe determinations demonstrates the mineral reactions which can occur as amphibole and plagioclase weather. Both minerals decompose ultimately into beidellitic smectites but of different lattice compositions. It appears, depending on the host mineral, that an aluminous ‘intergrade’ mineral, similar to a hydroxy-complexed vermiculite, forms first, recrystallizing into the beidellites. Exchangeable ion composition of the beidellites suggests that all smectites were in equilibrium with waters of similar chemical activity for Ca and Mg ions at equivalent depths in the profile. The activities of the exchangeable interlayer ions of the newly-formed smectites are similar, regardless of the host mineral. Very local chemical potentials evidently dictate the lattice composition of the phases, ferribeidellite formed from amphiboles, aluminous beidellite formed from plagioclases, but longer range equilibria (centimetric) dictate the type of phase which will crystallize, i.e. smectite.