This work presents new amperometric bienzymatic bioelectrodes for the determination of organophosphorus and carbamic acid type pesticides. Two different kinds of bienzymatic bioelectrodes are presented: a classical bienzymatic electrode, obtained by physicochemical immobilization of purified acid phosphatase (AP) and glucose oxidase (GOD) on the tip of an amperometric H 2O 2 electrode; and a hybrid biosensor, in which AP has been employed in the form of a thin layer of potato ( Solanum tuberosum) tissue, endowed with a high content of enzyme activity. Both the biosensors can selectively detect glucose-6-phosphate (G6P), in the 5.0 × 10 −5 −1.2 × 10 −3M concentration range. Pesticides are detected, thanks to their high inhibition power towards AP, evaluated by adding the sample stepwise to a buffered solution of G6P, and recording the corresponding current change. The detection limit is therefore a function of the type of pesticide, but it can be as low as 1 μg 1 −1 in the case of organophosphorus compounds. The detection limit is generally higher for carbamates, as a consequence of their weaker inhibition power towards acid phosphatase. Both bioelectrodes presented comparable values of the main physicochemical and analytical parameters evaluated for assessing their overall performance; nonetheless the plant tissue based bioelectrode exhibited a longer shelf life and a better reliability of the amperometric results.