The detoxification of aluminum (Al) in root tips of the Al accumulator buckwheat by exudation of oxalate leading to reduced Al uptake (Al resistance) is difficult to reconcile with the Al accumulation (Al tolerance). The objective of this study was to analyze resistance and tolerance mechanisms at the same time evaluating particularly possible stratification of Al uptake, Al transport and oxalate exudation along the root apex. The use of a minirhizotron made it possible to differentiate between spatial responses to Al along the root apex with regard to Al uptake and organic acid anion exudation, but also to measure at the same time Al and organic acid transport in the xylem. Al accumulates particularly in the 3-mm root apex. The study showed that Al taken up by the 10-mm root apex is rapidly transferred to the xylem which differentiates in the 10 to 15-mm root zone as revealed by a microscopic study. Al induces the release of oxalate from the root apex but particularly from the subapical 6-20 mm root zone even when Al was applied only to the 5-mm root apex suggesting a basipetal signal transduction. Citrate proved to be the most likely ligand for Al in the xylem because Al and citrate transport rates were positively correlated. In conclusion, the data presented show that the Al-induced release of oxalate, and Al uptake as well as Al accumulation are spatially not separated in the root apex.