Roar
A roar is a type of animal vocalization that is loud, deep and resonating. Many mammals have evolved to produce roars and other roar-like vocals for purposes such as long-distance communication and intimidation. These include various species of big cats, bears, pinnipeds, deer, bovids, elephants and simians.
The anatomical basis for the ability to roar often involves modifications to the larynx and hyoid bone and enlarged internal air spaces for low-frequency vocal resonation. While roaring, animals may stretch out their necks and elevate their heads to increase the space for resonance.
Definition
[edit]The definition of "roar" has varied between species.[1] However Weissengruber et al. (2002) has given a more general description of roars as consisting of both a low pitch and low formant.[2][1] They have used the roars of lions and red deer as quintessential examples of the sound.[2] Other researchers have mentioned similar "roar-like" vocalizations in which either the pitch or formant is still higher than in true roars.[1]
Roaring anatomy
[edit]Roaring mammals have evolved various means to achieve their vocalizations. A proportionally large larynx contributes to a deeper pitch. The male hammer-headed bat has a larynx that takes up most of his thoracic cavity and is half the size of his backbone. A larger larynx also has enlarged vocal cords which also contributes to a deeper pitch; as more massive folds leads to slower oscillation.[1] In addition, the big cats (lion, tiger, jaguar and leopard, referred to as the "roaring cats"), have vocal cords that are square-shaped as opposed to the triangle-shaped cords of other felids; this allows them to produce a louder call with less lung pressure.[2] The elasticity of the larynx and the length of the vocal tract affect the formant or resonance of a sound. In big cats and some male deer, specialized musculature and ligaments pull the larynx deeper in the vocal tract when roaring, lowering the vocal tract resonance.[1]
Other species have evolved internal inflatable air spaces connected to the vocal tract, which play a role in vocal resonance. The male Mongolian gazelle and musk ox possess an air space (paired and two-chambered in the former) attached to the larynx,[1] while bears have such spaces connected to the pharynx.[3][1] Male howler monkeys have an unpaired rostroventral laryngeal air sac within the hyoid bulla (extension of the hyoid bone) and a pair of ventral laryngeal air spaces outside.[4] The hammer-headed bat has a pouch in the palatine that connects to an enlarged nasopharynx region, in addition to paired cheek pouches which extend to the rostrum.[1] Elephants possess a pharyngeal pouch associated with their larynx and hyoid apparatus, and their roars can also be modified by the nostrils in their trunks.[5] Male elephant seals and saiga antelopes have an enlarged and inflated proboscis, which also affects resonance. Saiga nevertheless roar with their mouths closed and produce a "nasal roar".[1]
The structure of the hyoid bone can play a role in an animal's ability to roar. The hyoid of the big cats is less ossified and more flexible than in other cats. The snow leopard also has this property but cannot roar, as its shorter vocal folds provide little resistance to airflow.[2][6] In howler monkeys, the hyoid bone is relatively large and cup-shaped; contributing to the depth and resonance of the call.[4] Though usually airborne, some roars are emitted underwater, as in the case of the male harbor seal.[1]
Biological function
[edit]In some species, roars evolved due to sexual selection, and only one sex roars;[1] for example, in gorillas only the adult male (silverback) has a larynx large enough and vocal cords lengthened enough to produce a full roar.[7] Nonetheless, in other species both sexes can produce these vocalizations. In lions, where both sexes roar, the vocalization plays a role in social spacing and territorial defense. The roars ward off other lions from mistakenly entering another lion's territory. The roar of a lion is audible for a long distance: up to five miles in human hearing and probably farther for lions.[8][9][10]
In popular culture
[edit]The lion's roar is familiar to many through Leo the Lion, the iconic logo seen during the opening sequence of MGM films. Leo's current roar, recreated by Mark Mangini in 1982 and redone in 1994 and 1995, consists of tiger growls and lion growls instead of actual roars. As Mangini later stated, "lions don't make that kind of ferocious noises [sic], and the logo needed to be ferocious and majestic".[11]
See also
[edit]References
[edit]- ^ a b c d e f g h i j k Frey, Roland; Gebler, Alban (2010). "Chapter 10.3 – Mechanisms and evolution of roaring-like vocalization in mammals". In Brudzynski, Stefan M. (ed.). Handbook of Mammalian Vocalization — An Integrative Neuroscience Approach. Elsevier Science. pp. 439–450. ISBN 9780123745934.
- ^ a b c d Weissengruber, G. E.; Forstenpointner, G.; Peters, G.; Kübber-Heiss, A.; Fitch, W. T. (2002). "Hyoid apparatus and pharynx in the lion (Panthera leo), jaguar (Panthera onca), tiger (Panthera tigris), cheetah (Acinonyx jubatus) and domestic cat (Felis silvestris f. catus)". Journal of Anatomy. 201 (3): 195–209. doi:10.1046/j.1469-7580.2002.00088.x. PMC 1570911. PMID 12363272.
- ^ Weissengruber, G. E.; Forstenpointner, G.; Kübber-Heiss, A.; Riedelberger, K.; Schwammer, H.; Ganzberger, K. (2001). "Occurrence and structure of epipharyngeal pouches in bears (Ursidae)". Journal of Anatomy. 198 (3): 309–14. doi:10.1046/j.1469-7580.2001.19830309.x. PMC 1468220. PMID 11322723.
- ^ a b Kelemen, G.; Sade, J. (1960). "The vocal organ of the Howling monkey (Alouatta palliata)". Journal of Morphology. 107 (2): 123–140. doi:10.1002/jmor.1051070202. PMID 13752246. S2CID 30539292.
- ^ "Elephant". Archived from the original on 28 November 2016. Retrieved 11 October 2016.
- ^ Nowak, Ronald M. (1999). Walker's Mammals of the World. Johns Hopkins University Press. ISBN 0-8018-5789-9.
- ^ Dixson, Alan F. (15 May 2009). Sexual Selection and the Origins of Human Mating Systems. OUP Oxford. ISBN 9780191569739. Archived from the original on 1 October 2016. Retrieved 28 September 2016.
- ^ Mel Sunquist; Fiona Sunquist (15 August 2002). Wild Cats of the World. University of Chicago Press. p. 294. ISBN 978-0-226-77999-7.
- ^ J.A. Rudnai (6 December 2012). The Social Life of the Lion: A study of the behaviour of wild lions (Panthera leo massaica [Newmann]) in the Nairobi National Park, Kenya. Springer Science & Business Media. pp. 55–9. ISBN 978-94-011-7140-3. Archived from the original on 15 February 2017.
- ^ Richard Estes (1991). The Behavior Guide to African Mammals: Including Hoofed Mammals, Carnivores, Primates. University of California Press. p. 374. ISBN 978-0-520-08085-0.
- ^ "'Sound helps filmmakers achieve narrative value for their films'". 23 November 2015. Archived from the original on 2017-08-31. Retrieved 2017-07-10.
External links
[edit]- Eklund, Robert, Gustav Peters, Gopal Ananthakrishnan & Evans Mabiza. 2011. An acoustic analysis of lion roars. I: Data collection and spectrogram and waveform analyses. In: Quarterly Progress and Status Report TMH-QPSR, Volume 51, 2011. Proceedings from Fonetik 2011. Royal Institute of Technology, Stockholm, Sweden, 8–10 June 2010, pp. 1–4. Download PDF from http://roberteklund.info.
- Ananthakrishnan, Gopal, Robert Eklund, Gustav Peters, Gopal & Evans Mabiza. 2011. An acoustic analysis of lion roars. II: Vocal tract characteristics. In: Quarterly Progress and Status Report TMH-QPSR, Volume 51, 2011. Proceedings from Fonetik 2011. Royal Institute of Technology, Stockholm, Sweden, 8–10 June 2010, pp. 5–8.Download PDF from http://roberteklund.info.