Electrical excitation of small thoracic vagal branches elicited highly localized responses in the canine heart. Specific pathways to the sinoatrial nodal (SAN) regions were identified from negative chronotropic responses to stimulation (20 Hz, 5.0 ms, 3.0-5.0 V) of these branches. Pathways to the atrioventricular nodal (AVN) region were determined from changes in A-H interval (His bundle electrogram) and incidence of heart block as vagal branches were stimulated during concurrent atrial pacing. A few small branches influenced a single cardiac function (atrial rate, contractile force, or AV conduction). More commonly, activation of such branches elicited simultaneous chronotropic and dromotropic effects. However, many branches failed to elicit any detectable cardiac change. The major outflow from the left vagus to SAN and AVN regions is by way of cardiac branches from the recurrent laryngeal nerve at its reflection around the aorta. Activation of the left recurrent nerve reduced atrial rate by 43% and doubled A-H interval 84 to 167 ms. The right thoracic vagus or its branches induced A-H prolongation from 78 to 131 ms. H-V intervals remained constant at a mean of 35 ms. Outflows from the right thoracic vagus to SAN and/or AVN regions originated just below the middle cervical ganglion and at all levels down to the azygos vein.