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''Ormia ochracea'' is a small yellow nocturnal fly, a parasitoid of crickets. It is notable because of its exceptionally acute directional hearing. The female is attracted by the song of the male cricket and deposits larvae on or around him, as was discovered in 1975 by the zoologist William H. Cade.〔Cade, W. H. 1975. Acoustically orienting parasitoids: Fly phonotaxis to cricket song. Science 190: 1312-1313.〕 The fly is found throughout the southern US and into Mexico, though its exact range is not known. The mating call of the male field cricket is used by ''Ormia ochracea'' in locating the cricket. Once a female fly finds a host (male cricket) she deposits a larva which then quickly burrows into the host, emerging about 7 – 10 days later, killing the host. Flies have been observed responding to various cricket songs,〔Gray D.A., Banuelos C., Walker S.E., Cade W.H. & Zuk M. Behavioural specialization among populations of the acoustically orienting parasitoid fly Ormia ochracea utilizing different cricket species as hosts. Animal Behaviour, 2007, 73: 99-104〕 but seem to be limited to the family Gryllidae. The prey cricket ''Teleogryllus oceanicus'' has recently shown adaptation by evolving flat wings without sound-producing structures.〔Pascoal S., Cezard T., Eik-Nes A. Gharbi K., Majewska J., Payne E., Ritchie M. G., Bailey, N. W. Rapid Convergent Evolution in Wild Crickets. ''Current Biology'', 〕 The flat wing was first observed in 2003 on the Hawaiian island of Kauai, and was also found on neighbouring Oahu two years later. Genetic studies of crickets from each island show that the mutations arose from different genomic variations. ''Ormia ochracea'' has become a model organism in sound localization experiments because of its unique "ears", which are complex structures inside the fly's prothorax near the bases of their front legs. The animal is too small for the time difference of sound arriving at the two ears to be calculated in the usual way, yet it can determine the direction of sound sources with exquisite precision. The tympanic membranes of opposite ears are directly connected mechanically, allowing resolution of nanosecond time differences〔Miles RN, Robert D, Hoy RR. Mechanically coupled ears for directional hearing in the parasitoid fly Ormia ochracea. ''J Acoust Soc Am.'' 1995 Dec;98(6):3059-70. PMID 8550933 〕〔Robert D, Miles RN, Hoy RR. Directional hearing by mechanical coupling in the parasitoid fly Ormia ochracea. ''J Comp Physiol ()''. 1996;179(1):29-44. PMID 8965258 〕 and requiring a new neural coding strategy.〔Mason AC, Oshinsky ML, Hoy RR. Hyperacute directional hearing in a microscale auditory system. ''Nature''. 2001 Apr 5;410(6829):686-90. PMID 11287954 〕 In April 2015, a group from the University of Strathclyde and the MRC/CSO Institute for Hearing Research (IHR) announced that it had created a microphone based on the Ormia ochracea's hearing system, and had been awarded a £430,000 grant by the U.K. Engineering and Physical Sciences Research Council to build and test the hearing aid for three years.〔(Parasitic Flies Inspire Potential Revolution in Hearing Aids )〕 ==References== 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Ormia ochracea」の詳細全文を読む スポンサード リンク
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