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Keywords: Bioacoustics
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Journal Articles
J Exp Biol (2021) 224 (6): jeb240689.
Published: 26 March 2021
... short-range characteristics that are counterintuitive for their use in deep-diving foraging contexts in the open ocean. Beam pattern Bioacoustics Hydrophone array Narrow-band high-frequency Passive acoustic monitoring Source parameters Echolocating toothed whales navigate and...
Includes: Supplementary data
Journal Articles
J Exp Biol (2021) 224 (6): jeb234245.
Published: 18 March 2021
... Bioacoustics Signal interference Spatial orientation Jamming avoidance response For orientation, echolocating bats emit biosonar calls and listen to echoes arising from reflections off surrounding objects ( Kössl et al., 2014 ; Moss and Surlykke, 2010 ; Simmons, 2012 ). Spectro-temporal parameters...
Includes: Supplementary data
Journal Articles
J Exp Biol (2021) 224 (2): jeb237289.
Published: 28 January 2021
... in selection, a subset [4 adult males, 4 adult females and 2 juveniles (1 of each sex)] were sent to the University of Lincoln, UK for bioacoustic experiments. Differences in sex were identified by sex-specific external genitalia. While at the University of Lincoln, specimens were maintained on...
Includes: Supplementary data
Journal Articles
J Exp Biol (2020) 223 (6): jeb217265.
Published: 17 March 2020
... sized diving birds, whereas their underwater hearing thresholds and ear anatomy suggest adaptations to aquatic hearing. Auditory brainstem response Audiogram Auditory adaptation Auditory threshold curves Bioacoustics Underwater hearing Amphibious living requires that the senses...
Journal Articles
J Exp Biol (2019) 222 (11): jeb196931.
Published: 10 June 2019
... complex emitting the /Kwa/ sound. Bioacoustics Passive acoustic monitoring Sound production Acoustic communication Scorpaenidae Passive acoustic monitoring (PAM) of fish populations (i.e. the monitoring of vocal fish by means of hydrophones) has been used for analysing fish presence...
Includes: Supplementary data
Journal Articles
J Exp Biol (2018) 221 (21): jeb189308.
Published: 29 October 2018
... effectiveness as a defence against echolocating bats. Neuroptera Insect hearing Bioacoustics Bat echolocation Desert The ability to hear airborne sound has evolved independently at least 18–20 times (see Yager, 1999 ; Yack, 2004 ; Strauß and Lakes-Harlan, 2014 ) across seven insect orders...
Journal Articles
J Exp Biol (2017) 220 (16): 2900–2907.
Published: 15 August 2017
... Katydid Bioacoustics Laser Doppler vibrometry Finite element modelling Microcomputed tomography Acoustic communication plays a vital role in the life of many animals as a means to attract and locate potential mating partners or deter rivals (e.g. Drosopoulos and Claridge, 2006 ; Hauser, 2000...
Includes: Supplementary data
Journal Articles
J Exp Biol (2017) 220 (6): 1112–1121.
Published: 15 March 2017
... distinct lineages of acoustically calling orthopterans. Laser vibrometry Bioacoustics Stridulation Sound generation Homology Wing venation Within the orthopteran suborder Ensifera, males of most bush crickets (Tettigoniidae), field crickets (Gryllinae) and a few closely related species...
Journal Articles
J Exp Biol (2017) 220 (6): 1065–1071.
Published: 15 March 2017
... Bird song Amplitude Noise Bioacoustics Response time Acoustic communication is often constrained by the effects of background noise, which can mask and degrade acoustic signals, preventing them from being recognised or discriminated by their targeted receivers. To overcome this problem...
Includes: Supplementary data
Journal Articles
J Exp Biol (2015) 218 (15): 2442–2447.
Published: 01 August 2015
... helium–oxygen mixture instead of air shift to significantly higher frequencies, showing that crocodilian vocalizations contain vocal resonance frequencies or ‘formants’. Bioacoustics Source-filter theory Alligator sinensis Vocal tract resonance Bellow Archosauria In many vertebrates...
Includes: Supplementary data
Journal Articles
J Exp Biol (2014) 217 (24): 4347–4355.
Published: 15 December 2014
...Julia E. Samson; T. Aran Mooney; Sander W. S. Gussekloo; Roger T. Hanlon Sound is a widely available and vital cue in aquatic environments, yet most bioacoustic research has focused on marine vertebrates, leaving sound detection in invertebrates poorly understood. Cephalopods are an ecologically...
Includes: Supplementary data
Journal Articles
J Exp Biol (2014) 217 (23): 4244–4251.
Published: 01 December 2014
... Biologists Ltd 2014 Acoustic communication Bioacoustics Distress sounds Ictaluridae Predator–prey Pectoral spine Anti-predator adaptation Catfishes are one of the most successful groups of fishes, with over 3000 species ( Ferraris, 2007 ). They have highly modified pectoral spines that...
Journal Articles
J Exp Biol (2012) 215 (24): 4278–4287.
Published: 15 December 2012
... 2012 5 9 2012 © 2012. 2012 bioacoustics bat moth predator–prey interaction sensory ecology The study of bats and moths has provided fundamental biological insights in areas ranging from the neurological basis of behavior ( Roeder, 1967a ; Yager, 2012 ) to the co-evolution...
Includes: Supplementary data
Journal Articles
J Exp Biol (2012) 215 (17): 3001–3009.
Published: 01 September 2012
.... * Author for correspondence at present address: Loggerhead Marinelife Center, 14200 US Highway One, Juno Beach, FL 33408, USA ( kelly@marinelife.org ) 28 9 2011 25 4 2012 © 2012. 2012 bioacoustics auditory brainstem response sound Testudines anthropogenic noise There are...
Journal Articles
J Exp Biol (2011) 214 (19): 3165–3172.
Published: 01 October 2011
... therefore the basis for the related physiological mechanisms, thus remains unknown. * Author for correspondence ( hannah.moir@eee.strath.ac.uk ) 5 7 2011 © 2011. 2011 bioacoustics hearing tympanum locust distortion-product otoacoustic emissions laser Doppler vibrometry...
Journal Articles
J Exp Biol (2011) 214 (14): 2416–2425.
Published: 15 July 2011
... results have implications for the evolution of sonar jamming in tiger moths, and we suggest evolutionary pathways by which sonar jamming may have evolved from other tiger moth defense mechanisms. flight bioacoustics bat moth Arctiinae startle jamming Funding was provided by grant no. IOB...
Includes: Multimedia, Supplementary data
Journal Articles
J Exp Biol (2010) 213 (17): 2924–2932.
Published: 01 September 2010
... depending on vocal fold tension. A differentiated recruitment of tissue into oscillation could extend the frequency range specifically at the upper end of the frequency scale. t.riede@utah.edu 10 5 2010 © 2010. 2010 larynx viscoelastic properties bioacoustics hyaluronan...
Journal Articles
J Exp Biol (2009) 212 (14): 2141–2148.
Published: 15 July 2009
... generalize the meaning of these prey-generated sounds to a second tiger moth species producing a different call. Here we describe the three-dimensional kinematic and bioacoustic details of this behaviour, first,as naïve bats learn to deal with an unpalatable model tiger moth and subsequently, as they avoid...
Includes: Multimedia, Supplementary data
Journal Articles
J Exp Biol (2009) 212 (8): 1212–1224.
Published: 15 April 2009
... of the syrinx. Our results confirm several assumptions underlying existing mathematical models in a complex geometry. * Author for correspondence (e-mail: coen@biology.sdu.dk ) 30 1 2009 2009 bird song biomechanics bioacoustics vocal control Birdsong is a widely...
Journal Articles
J Exp Biol (2009) 212 (2): 257–269.
Published: 15 January 2009
... correspondence( bzfmz@bristol.ac.uk ) 30 9 2008 2009 biomechanics stridulation phase shifter bioacoustics Gryllidae Orthoptera Male crickets produce calling songs by stridulation, using their forewings or tegmina: a plectrum or scraper on the left tegmen is swept along a row of...
Includes: Multimedia, Supplementary data