Abstract
The cicada genus Platypleura has a wide distribution across Africa and southern Asia. We describe endothermic thermoregulation in four South African species that show crepuscular signaling behavior. This is the first evidence of thermoregulation in platypleurine cicadas. Field measurements of body temperature (T b) show that these animals regulate T b through endogenous heat production. Maximum T b measured was 22.1°C above ambient temperature during calling activity at dusk. The mean T b during dusk activity did not differ from the mean T b during diurnal activity. A unique behavior for cicadas, a temperature-dependent telescoping pulsation of the abdomen, was observed in the laboratory during endogenous warm-up. This behavior is part of a unique method of heat generation in endothermic cicadas. Males generally call from trunks and branches within the canopy and appear to use endothermy even when the sun is available to elevate T b. Endothermy may provide the cicadas with the advantage of decreasing predation and acoustic competition by permitting calling from perches that most complement their cryptic coloration patterns and that ectotherms cannot use due to thermal constraints. In addition, endothermy may permit calling activity during crepuscular hours when atmospheric conditions are optimal for acoustic communication and predation risks are minimal.
This is a preview of subscription content, log in via an institution to check access.
References
Bartholomew GA (1981) A matter of size: an examination of endothermy in insects and terrestrial vertebrates. In: Heinrich B (ed) Insect thermoregulation. Wiley, New York, pp 45–78
Bartholomew GA, Barnhart MC (1984) Tracheal gases, respiratory gas exchange, body temperature and flight in some tropical cicadas. J Exp Biol 111:131–144
Heath JE, Adams PA (1969) Temperature regulation and heat production in insects. In: Kerkut GA (ed) Experiments in physiology and biochemistry, vol 2. Academic Press, New York, pp 275–293
Heinrich, B (1993) The hot-blooded insects: strategies and mechanisms of thermoregulation. Harvard University Press, Cambridge, Mass.
Henwood K, Fabrick A (1979) A quantitative analysis of the dawn chorus: temporal selection for communicatory optimization. Am Nat 114:260–274
Kacelnik A (1979) The foraging efficiency of great tits (Parus major L.) in relation to light intensity. Anim Behav 27:237–241
May ML (1985) Thermoregulation. In: Kerkut GA, Gilbert LI (eds) Comprehensive insect physiology, biochemistry, and pharmacology, vol 4. Pergamon, New York, pp 507–552
Sanborn AF (1997) Body temperature and the acoustic behaviour of the cicada Tibicen winnemanna (Homoptera: Cicadidae). J Insect Behav 10:257–264
Sanborn AF (2000) Comparative thermoregulation of sympatric endothermic and ectothermic cicadas (Homoptera: Cicadidae: Tibicen winnemanna and Tibicen chloromerus). J Comp Physiol 186A:551–556
Sanborn AF (2001) Timbal muscle physiology in the endothermic cicada Tibicen winnemanna (Homoptera: Cicadidae). Comp Biochem Physiol 130A:9–19
Sanborn AF (2002) Cicada thermoregulation (Hemiptera, Cicadoidea). Denisia 4:455–470
Sanborn AF, Heath JE, Heath MS, Noriega FG. (1995a) Thermoregulation by endogenous heat production in two South American grass dwelling cicadas (Homoptera: Cicadidae: Proarna). Fla Entomol 78:319–328
Sanborn AF, Heath MS, Heath JE, Noriega FG (1995b) Diurnal activity, temperature responses and endothermy in three South American cicadas (Homoptera: Cicadidae: Dorisiana bonaerensis, Quesada gigas, and Fidicina mannifera). J Therm Biol 20:451–460
Surholt B, Greive H, Baal T, Bertsch A (1990) Non-shivering thermogenesis in asynchronous flight muscles of bumblebees? Comparative studies on males of Bombus terrestris, Xylocopa sulcatipes and Acherontia atropos. Comp Biochem Physiol 97A:493–499
Wiley RH, Richards DG (1978) Physical constraints on acoustic communication in the atmosphere: implications for the evolution of animal vocalization. Behav Ecol Sociobiol 3:69–94
Acknowledgements
The field assistance and company of Jackie-Ann Rapson was greatly appreciated. A.F.S. received funding for this study by the Ambassador Jean Wilkowski Fellowship at Barry University. M.H.V. was funded by the Rhodes University Joint Research Council.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Sanborn, A.F., Villet, M.H. & Phillips, P.K. Hot-blooded singers: endothermy facilitates crepuscular signaling in African platypleurine cicadas (Hemiptera: Cicadidae: Platypleura spp.). Naturwissenschaften 90, 305–308 (2003). https://doi.org/10.1007/s00114-003-0428-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00114-003-0428-1