Intrinsic and extrinsic influences on cardiac rhythms in crustaceans

Several factors cause predictable changes in heart rate of crustaceans thus affecting basic heart rhythms. In decapod crustaceans these consist of: many internal factors including influences from neural and neurohormonal systems and chemosensory influences, many external factors including startling stimuli and other disturbance; ventilatory (scaphognathite) reversals; tail flips and other postural movements including locomotor activity; and variations in environmental factors such as oxygen level, temperature and air-exposure. In many cases the initial response involves temporary bradycardia or cardiac arrest. These responses may quickly facilitate to sustained low level stimuli although maintained strong stimulation will eventually be associated with cardio-acceleration and escape responses. Measurement of change in heart rate alone is rarely a sensible monitor of cardiac performance in crustaceans since simultaneous changes in cardiac stroke volume occur which may confound diagnosis. Hypoxia for instance causes decrease in heart rate of adult crustaceans but the apparent decrease in cardiac output is offset or reversed by increase in stroke volume. Concomitant changes occur in cardiac output and in the proportion of cardiac output which is delivered to particular tissues. In fact change in heart rhythm is only one factor in a complex suite of responses involving several physiological systems which compensate uniquely for changes in environmental or other stimuli. Both neural and neuro-hormonal factors are known to play a role in control of these complex responses. (C) 1999 Elsevier Science Inc. All rights reserved.