Effect of temperature on the timing of calling of the yellow peach moth, Congethes punctiferalis (Guenee)(Lepidoptera: Pyralidae)

Under a photoregime of 15L-9D and DD (weak red light) the calling rhythm of the yellow peach moth was investigated at the three different temperatures. The calling rhythm freeran under the DD regime and its period (τ) showed few variations at the three temperatures (17, 22, 27°C). The calling time (...

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Published in	Japanese Journal of Applied Entomology and Zoology Vol. 30; no. 4; pp. 239 - 246
Main Author	Kaneko, J. (Tokyo Univ. (Japan). Faculty of Agriculture)
Format	Journal Article
Language	Japanese
Published	JAPANESE SOCIETY OF APPLIED ENTOMOLOGY AND ZOOLOGY 01.11.1986
Subjects	animal communication BIOLOGICAL RHYTHMS COMPORTAMIENTO SEXUAL COMPORTEMENT SEXUEL ENVIRONMENTAL TEMPERATURE LEPIDOPTERA plant pests RITMOS BIOLOGICOS RYTHME BIOLOGIQUE SEXUAL BEHAVIOUR TEMPERATURA DEL MEDIO AMBIENTE temperature TEMPERATURE AMBIANTE
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ISSN	0021-4914 1347-6068
DOI	10.1303/jjaez.30.239

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Abstract	Under a photoregime of 15L-9D and DD (weak red light) the calling rhythm of the yellow peach moth was investigated at the three different temperatures. The calling rhythm freeran under the DD regime and its period (τ) showed few variations at the three temperatures (17, 22, 27°C). The calling time (φr) was delayed when the temperature was high. Under the 15L (22°C)-9D(17°C) regime, φr was intermediate between φr under the 15L(22°C)-9D(22°C) regime and that under the 15L(17°C)-9D(17°C). When the temperature was changed stepwise (22°C→17°C or 17°C→22°C) in the L→D and/or D→L transition, two different results were obtained. One is that φr was affected only by the temperature change in the L→D transition and not by the previous temperature conditions. The other is that φr was affected by the previous temperature change in the D→L transition or temperature conditions under the previous photoperiod as well as by the temperature change in the L→D transition. Based on these results, the processes involved in the photoperiod and darkperiod were discussed. When the L→D transition was advanced by 3hr (17°C) or 6hr (17°C, 27°C) under the 15L-9D photoregime, the calling time φr was advanced by 2.6hr and 5.6hr at 17°C and only by 2.5hr at 27°C, respectively. This phenomenon seemed to be associated with rapid termination of the calling process running in the photoperiod (PL) at 17°C rather than at 27°C. Based on these results, the possible mechanism of temperature compensation for τ was also discussed.
AbstractList	Under a photoregime of 15L-9D and DD (weak red light) the calling rhythm of the yellow peach moth was investigated at the three different temperatures. The calling rhythm freeran under the DD regime and its period (τ) showed few variations at the three temperatures (17, 22, 27°C). The calling time (φr) was delayed when the temperature was high. Under the 15L (22°C)-9D(17°C) regime, φr was intermediate between φr under the 15L(22°C)-9D(22°C) regime and that under the 15L(17°C)-9D(17°C). When the temperature was changed stepwise (22°C→17°C or 17°C→22°C) in the L→D and/or D→L transition, two different results were obtained. One is that φr was affected only by the temperature change in the L→D transition and not by the previous temperature conditions. The other is that φr was affected by the previous temperature change in the D→L transition or temperature conditions under the previous photoperiod as well as by the temperature change in the L→D transition. Based on these results, the processes involved in the photoperiod and darkperiod were discussed. When the L→D transition was advanced by 3hr (17°C) or 6hr (17°C, 27°C) under the 15L-9D photoregime, the calling time φr was advanced by 2.6hr and 5.6hr at 17°C and only by 2.5hr at 27°C, respectively. This phenomenon seemed to be associated with rapid termination of the calling process running in the photoperiod (PL) at 17°C rather than at 27°C. Based on these results, the possible mechanism of temperature compensation for τ was also discussed.
Author	Kaneko, J. (Tokyo Univ. (Japan). Faculty of Agriculture)
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References	SOWER, L.L., H.H. SHREY and L.K. GASTON (1971) Sex pheromones of noctuid moths. XXV. Effects of temperature and photoperiod on circadian rhythms of sex pheromone release by females of Trichoplusia ni. Ann. Entomol. Soc. Am. 64: 488-492. ROBERTS, S.K. (1962) Circadian activity rhythms in cockroaches II. Entrainment and phase shifting. J. Cell. Comp. Physiol. 59: 175-186. BÜNNING, E. (1964) The physiological clock. 1st ed. New York: Academic Press. BÜNNING, E. (1973) The physiological clock. 3rd ed. New York: Academic Press, pp. 74-75. HASTINGS, J.W. and B.M. SWEENEY (1957) On the mechanism of temperature independence in a biological clock. Proc. Nat. Acad. Sci. USA 43: 804-811. BRUCE, V.G. and C.S. PITTENDRIGH (1956) Temperature independence in a unicellular clock. Proc. Nat. Acad. Sci. USA 42: 676-682. CARDE, R.T., A. COMEAU, T.C. BAKER and W.L. ROELOFS (1975) Moth mating periodicity: Temperature regulates the circadian gate. Experientia 31: 46-48. 佐々木正己(1977)ウリキンウワバ配偶行動時刻の光周制御機構に関する研究.玉川大農学研報第17号,分冊 2, pp. 93-98. ZIMMERMANN, W.F. and C.S. PITTENDRIGH (1968) Temperature compensation of the circadian oscillation in Drosophila pseudoobscura and its entrainment by temperature cycles. J. Insect Physiol. 14: 669-684. HONDA, H., J. KANEKO, Y. KONNO and Y. MATSUMOTO (1979) A simple method for mass-rearing of the yellow peach moth, Dichocrocis punctiferalis GUENÉE (Lepidoptera: Pyralidae), on an artificial diet. Appl. Ent. Zool. 14: 464-468. PITTENDRIGH, C.S. (1958) Perspectives in the study of biological clocks. In: Symposium on Perspectives in Marine Biology. (A. BUZZATI-TRAVERSO, ed.), Berkeley: Univ. Calif. Press, pp. 239-268. PITTENDRIGH, C.S. (1981) Circadian organization and the photoperiodic phenomena. In: Biological Clocks in Seasonal Reproductive Cycles. (B.K. FOLLET and D.E. FOLLET, eds.), Bristol: Scientechnica, pp. 1-35. 昆野安彦・本田洋・松本義明(1981)モモノゴマダラノメイガ2系間の生殖隔離.応動昆 25: 253-258. POHL, H. (1968) Wirkung der Temperatur auf die mit Licht synchronisierte Aktivitätsperiodik bei Warmblüttern. Z. Vergl. Physiol. 58: 381-394. CHANDRASHEKARAN, M.K. (1974) Phase shifts in the Drosophila pseudoobscura circadian rhythm evoked by temperature pulses of varying duration. J. Interdiscipl. Cycle Res. 5: 371-380. PITTENDRIGH, C.S. (1960) Circadian rhythms and the circadian organization of living systems. In: Cold Spring Harbor Symposium on Quantitative Biol. New York: The Biological Laboratory, Vol.25. (A. CHOVNICK, ed.), pp. 159-184.
References_xml	– reference: 佐々木正己(1977)ウリキンウワバ配偶行動時刻の光周制御機構に関する研究.玉川大農学研報第17号,分冊 2, pp. 93-98. – reference: ZIMMERMANN, W.F. and C.S. PITTENDRIGH (1968) Temperature compensation of the circadian oscillation in Drosophila pseudoobscura and its entrainment by temperature cycles. J. Insect Physiol. 14: 669-684. – reference: ROBERTS, S.K. (1962) Circadian activity rhythms in cockroaches II. Entrainment and phase shifting. J. Cell. Comp. Physiol. 59: 175-186. – reference: BÜNNING, E. (1964) The physiological clock. 1st ed. New York: Academic Press. – reference: HASTINGS, J.W. and B.M. SWEENEY (1957) On the mechanism of temperature independence in a biological clock. Proc. Nat. Acad. Sci. USA 43: 804-811. – reference: PITTENDRIGH, C.S. (1958) Perspectives in the study of biological clocks. In: Symposium on Perspectives in Marine Biology. (A. BUZZATI-TRAVERSO, ed.), Berkeley: Univ. Calif. Press, pp. 239-268. – reference: BÜNNING, E. (1973) The physiological clock. 3rd ed. New York: Academic Press, pp. 74-75. – reference: PITTENDRIGH, C.S. (1960) Circadian rhythms and the circadian organization of living systems. In: Cold Spring Harbor Symposium on Quantitative Biol. New York: The Biological Laboratory, Vol.25. (A. CHOVNICK, ed.), pp. 159-184. – reference: CARDE, R.T., A. COMEAU, T.C. BAKER and W.L. ROELOFS (1975) Moth mating periodicity: Temperature regulates the circadian gate. Experientia 31: 46-48. – reference: SOWER, L.L., H.H. SHREY and L.K. GASTON (1971) Sex pheromones of noctuid moths. XXV. Effects of temperature and photoperiod on circadian rhythms of sex pheromone release by females of Trichoplusia ni. Ann. Entomol. Soc. Am. 64: 488-492. – reference: PITTENDRIGH, C.S. (1981) Circadian organization and the photoperiodic phenomena. In: Biological Clocks in Seasonal Reproductive Cycles. (B.K. FOLLET and D.E. FOLLET, eds.), Bristol: Scientechnica, pp. 1-35. – reference: POHL, H. (1968) Wirkung der Temperatur auf die mit Licht synchronisierte Aktivitätsperiodik bei Warmblüttern. Z. Vergl. Physiol. 58: 381-394. – reference: HONDA, H., J. KANEKO, Y. KONNO and Y. MATSUMOTO (1979) A simple method for mass-rearing of the yellow peach moth, Dichocrocis punctiferalis GUENÉE (Lepidoptera: Pyralidae), on an artificial diet. Appl. Ent. Zool. 14: 464-468. – reference: CHANDRASHEKARAN, M.K. (1974) Phase shifts in the Drosophila pseudoobscura circadian rhythm evoked by temperature pulses of varying duration. J. Interdiscipl. Cycle Res. 5: 371-380. – reference: BRUCE, V.G. and C.S. PITTENDRIGH (1956) Temperature independence in a unicellular clock. Proc. Nat. Acad. Sci. USA 42: 676-682. – reference: 昆野安彦・本田洋・松本義明(1981)モモノゴマダラノメイガ2系間の生殖隔離.応動昆 25: 253-258.
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SubjectTerms	animal communication BIOLOGICAL RHYTHMS COMPORTAMIENTO SEXUAL COMPORTEMENT SEXUEL ENVIRONMENTAL TEMPERATURE LEPIDOPTERA plant pests RITMOS BIOLOGICOS RYTHME BIOLOGIQUE SEXUAL BEHAVIOUR TEMPERATURA DEL MEDIO AMBIENTE temperature TEMPERATURE AMBIANTE
Title	Effect of temperature on the timing of calling of the yellow peach moth, Congethes punctiferalis (Guenee)(Lepidoptera: Pyralidae)
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