Brief comm 20/1/00 mx
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brief communications
NATURE | VOL 403 | 20 JANUARY 1999 | www.nature.com 265 Ultrasonic hearing in nocturnal butterflies Hedylids have ultrasound-sensitive ears on their wings to help them avoid bats. Figure 1 Hedylid butterflies have ultrasound-sensitive ears that allow them to evade bats in flight. a, Lateral view of M. heliconiaria, showing the location of the right ear. An arrow points down the canal to the tympanic cavity where the tympanic membrane (not shown) resides. Scale bar, ~3 mm. b, Scanning electron micrograph of the right tympanic cavity showing the tympanic membrane (TM), ear canal (Ca) and an accessory membrane, the conjunctivum (Cj). Scale bar, 120 mm. c, Consecutive video images (41 frames at 30 frames per s; 13 before and 28 after the stimulus onset) of a free-flying M. heliconiaria responding to a short (~250 ms), high-frequency (25 kHz), high-intensity ( ¤100 dB) sound. Arrow, flight direction; arrowhead, stimulus onset. Figure 2 The presence of hearing mapped onto a lepidopteran phy- logeny 10 . Ultrasound-sensitive ears occur on a variety of body parts (arrowheads) reflecting multiple evolutionary origins. All ears, known to function primarily as bat- detectors, occur within the Obtec- tomera. We propose that hearing in extant Lepidoptera originated as a response to selection pressures imposed by echolocating bats in the late Palaeocene, and that echolocating bats were a driving force for the large, species-rich butterfly groups Hesperoidea and Papilionoidea (Sun symbol) to move into the daytime. The butterfly superfamilies are highlighted in bold. Earlessness and nocturnalism are the plesiomorphic (ancestral) characteristics of the Lepidoptera. Yüklə 0,6 Mb. Dostları ilə paylaş:
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