Functional beta-adrenoceptor populations in the human heart were studied in vitro in electrically-paced strips of the right auricular and ventricular myocardium. The relative potency of selected agonists in producing inotropic responses (Tmax, T'max) in the presence of blockers for neuronal and extraneuronal uptakes was found to be as follows: isoprenaline greater than noradrenaline = adrenaline = salbutamol greater than dobutamine. Prenalterol had a negative inotropic effect in these preparations. The selective beta 1-(practolol) and beta 2-(H 35/25) blockers reduced inotropic responses to adrenaline (Tmax, T'max) and noradrenaline (T'max) in the auricular strips. These results indicate the participation of beta 2-adrenoceptors in inotropic responses in the human auricular and ventricular myocardium. For comparison, inotropic responses of electrically-paced rat myocardium to beta-adrenergic agonists in the presence of blockers for neuronal and extraneuronal uptakes were likewise studied. The relative potencies for Tmax were: noradrenaline = adrenaline greater than prenalterol greater than dobutamine = salbutamol. Given the high relative potency of salbutamol in the human myocardial strips (analogous to that previous shown in the beta 2-dominated atria of the frog and trout) and the low relative potency of salbutamol in the rat tissue, these findings indicate a greater population of functionally active beta 2-adrenoceptors in the human than in the rat myocardium.