Chronobiological Effect on the Reproductive Behavior of Chrysomya megacephala (Diptera: Calliphoridae)

The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time of blow flies (Diptera: Calliphoridae) on the deceased body. However, because blow flies are known to be diurnal, nocturnal oviposition has be...

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Published in	Journal of medical entomology Vol. 59; no. 1; pp. 135 - 146
Main Authors	Chen, Feng-Hsuan, Shiao, Shiuh-Feng
Format	Journal Article
Language	English
Published	US Entomological Society of America 01.01.2022 Oxford University Press
Subjects	Activity patterns Animals Biological clocks Calliphoridae Calliphoridae - physiology Chrysomya megacephala Circadian Rhythm Darkness death Diptera DIRECT INJURY, MYIASIS, FORENSICS Female Flies forensic entomology Forensic Sciences Laboratories Locomotion Male Mathematical analysis medical entomology Night Nighttime Nocturnal nocturnal oviposition Oriental latrine fly Oviposition postmortem changes Reproductive behavior Sexual Behavior, Animal United Kingdom Taiwan forensic entomology nocturnal oviposition Oriental latrine fly circadian rhythm
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ISSN	0022-2585 1938-2928 1938-2928
DOI	10.1093/jme/tjab173

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Abstract	The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time of blow flies (Diptera: Calliphoridae) on the deceased body. However, because blow flies are known to be diurnal, nocturnal oviposition has been excluded from standard mPMI calculations. This has been challenged by recent studies demonstrating nocturnal oviposition due to an unknown reason. Therefore, this study investigated the role of chronobiology.We recorded the locomotion amount and pattern of Chrysomya megacephala (Fabricius, 1794) (Diptera: Calliphoridae) under different chronobiological conditions and examined whether Ch. megacephala can oviposit under nighttime conditions in field and laboratory settings. Subjects were found to have a daily activity pattern under normal darkness conditions (12:12 L:D) and under continuous darkness (DD), but they exhibited no pattern under continuous light (LL). Free-running period was approximately 1,341 min/d (22.35 h/d). In the field, no flies were observed during nighttime. Oviposition occurred in the laboratory setting during daytime with no lights and during nighttime with artificial lights. Free-running subjects oviposited in both active and resting periods, with more eggs laid during active than resting periods. The result of this study indicates it is possible to induce oviposition behavior during evening hours on Ch. megacephala. However, this was only observed in the laboratory setting and could only happen during the flies' subjective day.
AbstractList	The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time of blow flies (Diptera: Calliphoridae) on the deceased body. However, because blow flies are known to be diurnal, nocturnal oviposition has been excluded from standard mPMI calculations. This has been challenged by recent studies demonstrating nocturnal oviposition due to an unknown reason. Therefore, this study investigated the role of chronobiology. We recorded the locomotion amount and pattern of Chrysomya megacephala (Fabricius, 1794) (Diptera: Calliphoridae) under different chronobiological conditions and examined whether Ch. megacephala can oviposit under nighttime conditions in field and laboratory settings. Subjects were found to have a daily activity pattern under normal darkness conditions (12:12 L:D) and under continuous darkness (DD), but they exhibited no pattern under continuous light (LL). Free-running period was approximately 1,341 min/d (22.35 h/d). In the field, no flies were observed during nighttime. Oviposition occurred in the laboratory setting during daytime with no lights and during nighttime with artificial lights. Free-running subjects oviposited in both active and resting periods, with more eggs laid during active than resting periods. The result of this study indicates it is possible to induce oviposition behavior during evening hours on Ch. megacephala. However, this was only observed in the laboratory setting and could only happen during the flies' subjective day. Key words: Oriental latrine fly, nocturnal oviposition, circadian rhythm, forensic entomology Abstract The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time of blow flies (Diptera: Calliphoridae) on the deceased body. However, because blow flies are known to be diurnal, nocturnal oviposition has been excluded from standard mPMI calculations. This has been challenged by recent studies demonstrating nocturnal oviposition due to an unknown reason. Therefore, this study investigated the role of chronobiology. We recorded the locomotion amount and pattern of Chrysomya megacephala (Fabricius, 1794) (Diptera: Calliphoridae) under different chronobiological conditions and examined whether Ch. megacephala can oviposit under nighttime conditions in field and laboratory settings. Subjects were found to have a daily activity pattern under normal darkness conditions (12:12 L:D) and under continuous darkness (DD), but they exhibited no pattern under continuous light (LL). Free-running period was approximately 1,341 min/d (22.35 h/d). In the field, no flies were observed during nighttime. Oviposition occurred in the laboratory setting during daytime with no lights and during nighttime with artificial lights. Free-running subjects oviposited in both active and resting periods, with more eggs laid during active than resting periods. The result of this study indicates it is possible to induce oviposition behavior during evening hours on Ch. megacephala. However, this was only observed in the laboratory setting and could only happen during the flies’ subjective day. The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time of blow flies (Diptera: Calliphoridae) on the deceased body. However, because blow flies are known to be diurnal, nocturnal oviposition has been excluded from standard mPMI calculations. This has been challenged by recent studies demonstrating nocturnal oviposition due to an unknown reason. Therefore, this study investigated the role of chronobiology. We recorded the locomotion amount and pattern of Chrysomya megacephala (Fabricius, 1794) (Diptera: Calliphoridae) under different chronobiological conditions and examined whether Ch. megacephala can oviposit under nighttime conditions in field and laboratory settings. Subjects were found to have a daily activity pattern under normal darkness conditions (12:12 L:D) and under continuous darkness (DD), but they exhibited no pattern under continuous light (LL). Free-running period was approximately 1,341 min/d (22.35 h/d). In the field, no flies were observed during nighttime. Oviposition occurred in the laboratory setting during daytime with no lights and during nighttime with artificial lights. Free-running subjects oviposited in both active and resting periods, with more eggs laid during active than resting periods. The result of this study indicates it is possible to induce oviposition behavior during evening hours on Ch. megacephala. However, this was only observed in the laboratory setting and could only happen during the flies' subjective day.The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time of blow flies (Diptera: Calliphoridae) on the deceased body. However, because blow flies are known to be diurnal, nocturnal oviposition has been excluded from standard mPMI calculations. This has been challenged by recent studies demonstrating nocturnal oviposition due to an unknown reason. Therefore, this study investigated the role of chronobiology. We recorded the locomotion amount and pattern of Chrysomya megacephala (Fabricius, 1794) (Diptera: Calliphoridae) under different chronobiological conditions and examined whether Ch. megacephala can oviposit under nighttime conditions in field and laboratory settings. Subjects were found to have a daily activity pattern under normal darkness conditions (12:12 L:D) and under continuous darkness (DD), but they exhibited no pattern under continuous light (LL). Free-running period was approximately 1,341 min/d (22.35 h/d). In the field, no flies were observed during nighttime. Oviposition occurred in the laboratory setting during daytime with no lights and during nighttime with artificial lights. Free-running subjects oviposited in both active and resting periods, with more eggs laid during active than resting periods. The result of this study indicates it is possible to induce oviposition behavior during evening hours on Ch. megacephala. However, this was only observed in the laboratory setting and could only happen during the flies' subjective day. The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time of blow flies (Diptera: Calliphoridae) on the deceased body. However, because blow flies are known to be diurnal, nocturnal oviposition has been excluded from standard mPMI calculations. This has been challenged by recent studies demonstrating nocturnal oviposition due to an unknown reason. Therefore, this study investigated the role of chronobiology. We recorded the locomotion amount and pattern of Chrysomya megacephala (Fabricius, 1794) (Diptera: Calliphoridae) under different chronobiological conditions and examined whether Ch. megacephala can oviposit under nighttime conditions in field and laboratory settings. Subjects were found to have a daily activity pattern under normal darkness conditions (12:12 L:D) and under continuous darkness (DD), but they exhibited no pattern under continuous light (LL). Free-running period was approximately 1,341 min/d (22.35 h/d). In the field, no flies were observed during nighttime. Oviposition occurred in the laboratory setting during daytime with no lights and during nighttime with artificial lights. Free-running subjects oviposited in both active and resting periods, with more eggs laid during active than resting periods. The result of this study indicates it is possible to induce oviposition behavior during evening hours on Ch. megacephala. However, this was only observed in the laboratory setting and could only happen during the flies’ subjective day.
Audience	Academic
Author	Shiao, Shiuh-Feng Chen, Feng-Hsuan
Author_xml	– sequence: 1 givenname: Feng-Hsuan orcidid: 0000-0002-5951-2815 surname: Chen fullname: Chen, Feng-Hsuan organization: Department of Entomology, National Taiwan University, Number 1, Roosevelt Road, Section 4, Taipei 106, Taiwan – sequence: 2 givenname: Shiuh-Feng orcidid: 0000-0002-4213-0423 surname: Shiao fullname: Shiao, Shiuh-Feng organization: Department of Entomology, National Taiwan University, Number 1, Roosevelt Road, Section 4, Taipei 106, Taiwan
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Cites_doi	10.1146/annurev.en.37.010192.001345 10.1603/033.046.0335 10.14411/eje.2008.078 10.1016/j.forsciint.2006.12.011 10.1007/s12024-017-9861-x 10.1007/s12041-008-0072-9 10.1111/j.1556-4029.2005.00022.x 10.1016/j.forsciint.2016.06.004 10.1111/1556-4029.12841 10.1093/jmedent/28.5.565 10.1603/ME12138 10.3958/0147-1724-32.1.31 10.1186/s13071-018-2986-2 10.1016/S0379-0738(01)00419-4 10.2307/1934999 10.1251/bpo109 10.1016/j.jinsphys.2006.05.001 10.1046/j.1365-3032.2000.00165.x 10.1177/0748730411414264 10.1007/s00436-007-0780-8 10.2307/3544896 10.1007/s12024-010-9209-2 10.1146/annurev.en.10.010165.000403 10.1603/ME11133 10.1093/jmedent/27.5.807 10.1007/s13744-016-0412-z 10.1093/jmedent/45.4.785 10.1016/S0022-1910(01)00062-2 10.1603/0022-2585-41.1.47 10.1016/S0022-1910(99)00182-1 10.7601/mez.32.334 10.1016/j.forsciint.2017.03.002
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Keywords	forensic entomology nocturnal oviposition Oriental latrine fly circadian rhythm
Language	English
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Snippet	The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the developmental time... Abstract The most widely used entomological method of determining the time since death (minimum postmortem interval, mPMI) has been calculating the...
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SubjectTerms	Activity patterns Animals Biological clocks Calliphoridae Calliphoridae - physiology Chrysomya megacephala Circadian Rhythm Darkness death Diptera DIRECT INJURY, MYIASIS, FORENSICS Female Flies forensic entomology Forensic Sciences Laboratories Locomotion Male Mathematical analysis medical entomology Night Nighttime Nocturnal nocturnal oviposition Oriental latrine fly Oviposition postmortem changes Reproductive behavior Sexual Behavior, Animal
Title	Chronobiological Effect on the Reproductive Behavior of Chrysomya megacephala (Diptera: Calliphoridae)
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