Abstract
The blowfly pulsatile organ is a tubular vessel consisting of an abdominal heart and a thoracocephalic aorta. Its activity consists of the regular alternance of a fast phase with a slow phase at higher and lower beating frequencies, respectively. In adult Phormia blowflies the fast and slow phases are triggered by separate pacemakers at the abdominal and cephalic vessel endings, respectively. Owing to the position of the pacemakers, impulses propagate forwards along the vessel during the fast phase and backward during the slow phase. Accordingly, haemolymph flows to the head during the fast phase and to the abdomen during the slow phase. Interspike interval and conduction velocity decrease, while spike duration and risetime increase, from the beginning to the end of the fast phase, together with the emptying of the vessel compartment where it is generated. Prevention of systolic emptying of abdominal heart compartments at the beginning of the fast phase abolishes phase alternance. Possible stretch sensitivity of the Phormia myocardium accounts for this result.
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Abbreviations
- CRO :
-
cathode-ray oscilloscope
- ECG :
-
electrocardiogram
- UV :
-
ultraviolet
References
Angioy AM, Liscia A, Pietra P (1983) Cyclic sensitivity variations in the labellar chemosensilla of Calliphora. Experientia 39: 546–547
Angioy AM (1988) Reflex cardiac response to a feeding stimulus in the blowfly Calliphora vomitoria. J Insect Physiol 34: 21–27
Angioy AM, Tomassini Barbarossa I, Crnjar R, Liscia A, Pietra P (1987) Reflex cardiac response to various olfactory stimuli in the blowfly, Protophormia terraenovae. Neurosci Lett 81: 263–266
Brazeau L, Campan R (1970) Sur l'automatisme cardiaque de Calliphora vomitoria. C R Acad Sci Paris 271: 2354–2356
Campan R (1972) Light-induced heart-beat disturbances: a comparative study in Calliphora vomitoria (Diptera) and Nemobius silvestris (Orthoptera). Monit Zool Ital 6: 269–289
Chen AC, Friedman S (1975) An isotonic saline for the adult blowfly, Phormia regina, and its application to perfusion experiments. J Insect Physiol 21: 529–536
Duve H, Elia AJ, Orchard I, Johnsen AH, Thorpe A (1993) The effects of calliFMRFamides and other FMRFamide-related neuropeptides on the activity of the heart of the blowfly Calliphora vomitoria. J Insect Physiol 39: 31–40
Erickson RV, Scher AM, Becker RA (1957) Ventricular excitation in experimental bundle branch block. Circ Res 5: 5–10
Kriebel ME (1963) Effect of blood pressure on the isolated tunicate heart. Biol Bull 125: 358
Kriebel ME (1967) Conduction velocity and intracellular action potentials of the tunicate heart. J Gen Physiol 50: 2097–2167
Kriebel ME (1968a) Studies on cardiovascular physiology of tunicates. Biol Bull 134: 434–455
Kriebel ME (1968b) Pacemaker properties of tunicate heart cells. Biol Bull 135: 166–173
Kriebel ME (1968c) Electrical characteristics of tunicate heart cell membranes and nexus. J Gen Physiol 58: 46–59
Kriebel ME (1970) Wave front analyses of impulses in tunicate heart. Am J Physiol 218: 1194–1200
Gerould JH (1929) History of the discovery of periodic reversal of heart-beat in insects. Biol Bull 56: 215–225
Gerould JH (1933) Orders of insects with heart-beat reversal. Biol Bull 64: 424–431
Jones JC (1964) The circulatory system of Insecta. In: Rockstein M (ed) Physiology of Insecta, vol 3. Academic Press, New York, pp 1–107
Lagerpetz K, Pertunen V (1962) Effect of temperature on periodic heart beat reversal and heart rate in Corethra plumicornis (Diptera). J Insect Physiol 8: 621–625
McCann FV (1964) Conduction in the moth myocardium. Comp Biochem Physiol 12: 117–123
McCann FV (1969) The insect heart as a model for electrophysiological studies. In: Kerkut GA (ed) Experiments in physiology and biochemistry. Academic Press, pp 59–88
McCann FV (1970) Physiology of insect hearts. Ann Rev Entomol 15: 173–200
Medioni J, Campan R (1967) Etude preliminaire de l'effet de la stimulation lumineuse sur le rythme cardiaque de la mouche Calliphora. J Physiol Paris 59: 264–265
Normann TC (1972) Heart activity and its control in the adult blowfly, Calliphora erytrocephala. J Insect Physiol 18: 1793–181
Queinnec Y, Campan M (1975) Influence de la maturité sexuelle sur l'activité et la reactivité cardiaque de Calliphora vomitoria (Dipt. Calliphoridae). I. Controle de l'activité cardiaque. J Physiol (Paris) 72: 903–915
Queinnec Y, Campan M (1976) Influence de la maturité sexuelle sur l'activité et la reactivité cardiaque de Calliphora vomitoria (Dipt. Calliphoridae). II Analyse des responses olfactocardiaques. J Physiol (Paris) 72: 903–916
Queinnec Y, Campan R (1972) Heart-beat frequency variations in the moth Mamestra brassicae during ontogeny. J Insect Physiol 18: 1739–174
Tenney SM (1953) Observations on the physiology of Lepidopteran heart with special reference to reversal of the heart. Physiol Comp Oecol 3: 286–306
Thon B (1980) Habituation of cardiac and motor responses to a moving visual stimulus in the blowfly Calliphora vomitoria. J Comp Physiol Psychol 94: 886–893
Thon B (1982) Influence of the cardiac phase on the latency of a motor response to a visual stimulus in the blowfly. J Insect Physiol 28: 411–416
Thon B (1986) Preparation a l'action et processus d'acquisition: une approche experimentale chez l'insecte. These Doct Specialité. Université Paul Sabatier, Toulouse, France
Tomassini Barbarossa I, Muroni P, Liscia A, Crnjar R, Angioy AM (1992) Modulation of the reflex cardiac response in Protophormia terraenovae to gustatory stimulation. Boll Zool 59: 41–44
Tubliz NJ, Truman JW (1985) Insect cardioactive peptide. II. Neurohormonal control of heart activity by two acceleratory peptides in the tobacco hawkmoth Manduca sexta. J Exp Biol 114: 381–395
Wasserthal LT (1975) Herzschlag-Umkehr bei Insekten und die Entwicklung der imaginalen Herzrhythmik. Verh Dtsch Zool Ges 1974: 95–99
Wasserthal LT (1976) Heartbeat reversal and its coordination with accessory pulsatile organs and abdominal movements in Lepidoptera. Experientia 32: 577–578
Wasserthal LT (1980) Oscillating haemolymph circulation in the butterfly Papilio machaon L. revealed by contact termography and photocell measurement. J Comp Physiol 139: 145–163
Wasserthal LT (1981) Oscillating haemolymph circulation and discontinuous tracheal ventilation in the giant silkmoth Attacus atlas L. J Comp Physiol 145: 1–15
Wasserthal LT (1982) Wechselseitige funktionelle und strukturelle Anpassungen von Kreislauf und Tracheensystem bei adulten Insekten. Verh Dtsch Zool Ges 1982: 105–116
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Communicated by H. Langer
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Angioy, A.M., Pietra, P. Mechanism of beat reversal in semi-intact heart preparations of the blowfly Phormia regina (Meigen). J Comp Physiol B 165, 165–170 (1995). https://doi.org/10.1007/BF00260807
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DOI: https://doi.org/10.1007/BF00260807