Purr

A purr is a tonal fluttering sound made by some species of felids and two species of genets. It varies in loudness and tone among species and in the same animal. Felids are a family of mammals that belong to the order Carnivora and are informally known as cats. This designation includes larger, outdoor cats and the domestic cat (Felis catus). Genets are a member of the genus Genetta and are slim animals with features similar to cats. Their features include retractile claws and the ringed tail.

Although true purring is exclusive to felids and viverrids, other animals such as raccoons produce purr-like vocalization. Animals that produce purr-like sounds include mongoose, bears, badgers, foxes, hyaenas, rabbits, squirrels, guinea pigs, tapirs, ring-tailed lemurs, and gorillas while eating. Animals purr for a variety of reasons including to express happiness, or fear and as a defense mechanism. It has also been shown that cats purr to manage pain and soothe themselves.[1] Purring is a soft buzzing sound, similar to a rolled 'r' with a fundamental frequency of around 25 Hz.[2]  This sound occurs with noticeable vibrations on the surface of the body, varies in a rhythmic pattern during breathing and occurs continuously during inhalation and exhalation. The intensity and length of the purr can also vary depending on the level of arousal of the animal.[2]

Mechanism

The mechanism by which cats purr is an object of speculation, with different theories proposed. An early theory was that purring is a hemodynamic process where sound is produced as the blood runs through the thorax.[3]

There is a unique “neural oscillator” in the cat's brain of uncertain significance.[4] Although the mechanism has not yet been fully elucidated, recent studies have inferred it could be the result of oscillatory mechanisms in the central nervous system.[5]  Studies have also shown that purring can be caused through electrically stimulating the infundibular region of the cat's brain, suggesting central control.[6]

Vocal folds/laryngeal muscles

One hypothesis, backed by electromyographic studies, is that cats produce the purring noise by using the vocal folds or the muscles of the larynx to alternately dilate and constrict the glottis rapidly, causing air vibrations during inhalation and exhalation.[7] Combined with the steady inhalation and exhalation of air as the cat breathes, a purring noise is produced with strong harmonics.[8]

Degree of hyoid ossification

No cat can both purr and roar. The subdivision of the Felidae into “purring cats” on one hand, and “roaring cats” on the other, goes back to Owen[9] and was definitively introduced by Pocock,[10], based on whether the hyoid bone of the larynx is incompletely (“roarers”) or completely (“purrers”) ossified. However, Weissengruber et al. argued that the ability of a cat species to purr is not affected by the anatomy of its hyoid.[11]

The “roaring cats” (lion, Panthera leo; tiger, P. tigris; jaguar, P. onca; leopard, P. pardus) have an incompletely ossified hyoid, which according to this theory, enables them to roar but not to purr. However, the snow leopard (Uncia uncia, or P. uncia), as the fifth felid species with an incompletely ossified hyoid, purrs.[12]

All remaining species of the family Felidae (‘purring cats’) have a completely ossified hyoid, which enables them to purr but not to roar. Based on a technical acoustic definition of roaring, the presence of this vocalization type depends on specific characteristics of the vocal folds and an elongated vocal tract, which is rendered possible by an incompletely ossified hyoid.

Frequency, amplitude, and respiratory variation

  • Domestic cats purr at a frequency of 20 to 30 vibrations per second.
  • Eklund, Peters & Duthie, comparing purring in a cheetah (Acinonyx jubatus) and a domestic cat (Felis catus) found that the cheetah purred with an average frequency of 20.87 Hz (egressive phases) and 18.32 Hz (ingressive phases), while the much smaller domestic cat purred with an average frequency of 21.98 Hz (egressive phases) and 23.24 Hz (ingressive phases).[13]
  • Schötz & Eklund studied purring in four domestic cats and found that the fundamental frequency varied between 20.94 and 27.21 Hz for egressive phases and between 23.0 and 26.09 Hz for ingressive phases. Schötz & Eklund also observed considerable variation between the four cats as regards relative amplitude, duration and frequency between egressive and ingressive phases, but that this variation occurred within the same general range. [14]
  • In a follow-up study of purring in four adult cheetahs, Eklund, Peters, Weise & Munro found that egressive phases were longer than ingressive phases in four cheetahs. Likewise, ingressive phases had a lower frequency than egressive phases in all four cheetahs. Mean frequency were between 19.3 Hz and 20.5 Hz in ingressive phases, and between 21.9 Hz and 23.4 Hz in egressive phases. Moreover, the amplitude was louder in the egressive phases in four cheetahs.[15]
  • Eklund & Peters compared purring in adult, subadult and juvenile cheetahs and reported that while there was considerable variation across most of the parameters analyzed (amplitude, phase duration, cycles per phase and fundamental frequency) – mainly attributable to degree of relaxation/agitation in the animals resting or playing– previously reported observations that ingressive phases tend to be lower in frequency were largely confirmed. There were no major differences in these parameters as a function of age.[16]

Purpose

In domestic cats, many signals that occur when interacting with humans seem to originate from when the animal was dependent on the mother. Cats have been observed to purr for most of their lifespan, starting from when they were young and suckling from their mother.[17] Purring may have developed as an evolutionary advantage as a signalling mechanism of reassurance between mother cats and nursing kittens. Post-nursing cats often purr as a sign of contentment: when being petted, becoming relaxed, or eating. Some purring may be a signal to another animal that the purring cat does not pose a threat.

In addition to this, cats have been shown to have different sounding purrs depending on the situation. Purring sometimes seems to be a way for cats to signal their caretakers for food. This purring has a high-frequency component not present in other purrs. These are called solicitation purrs (when the cat is looking for something) and non-solicitation purrs and are distinguishable to humans. In a study, 50 humans were subjected to playbacks of purrs recorded in solicitation and non-solicitation situations at the same amplitude. Humans regularly judged the solicitation purrs as less pleasant and more urgent than the non-solicitation purrs.[17] This variety of purring seems to be found more frequently in cats in a one-to-one relationship with a caretaker. Similarities have previously been drawn between an infant crying and the isolation cry of domestic cats. The high frequency aspect of the purr can subtly exploit humans sensitivity to these cries, which makes it more difficult to become habituated and ignore this. Using sensory biases in communication between species provides the signalers (cats) with a productive way to increase the standard of care received.[17]

Cats often purr when distressed or in pain, such as during labor. In cats, there are three stages of labor. In the first stage, the uterus begins to contract, the cervix relaxes and the water breaks. During this stage, the cat begins to purr which is hypothesized to be a self relaxation technique. This purring may trigger a cat's brain to release a hormone which helps it in relaxing and acts as a painkiller.[18]

See also

  • Kneading

References

  1. www.purina.com.au https://www.purina.com.au/cats/behaviour/purring#.XdHfjFdKiUl. Retrieved 2019-11-18. Missing or empty |title= (help)
  2. Sissom, Dawn E. Frazer; Rice, D. A.; Peters, G. (1991). "How cats purr". Journal of Zoology. 223 (1): 67–78. Bibcode:1991Natur.349Q.460.. doi:10.1111/j.1469-7998.1991.tb04749.x. ISSN 1469-7998.
  3. Schötz, Susanne; van de Weijer, Joost; Eklund, Robert (2019-08-29). "Melody matters: An acoustic study of domestic cat meows in six contexts and four mental states". doi:10.7287/peerj.preprints.27926v1. Cite journal requires |journal= (help)
  4. "Why and how do cats purr?". Library of Congress. Retrieved 2011-04-10.
  5. Remmers, J. E.; Gautier, H. (1972-12-01). "Neural and mechanical mechanisms of feline purring". Respiration Physiology. 16 (3): 351–361. doi:10.1016/0034-5687(72)90064-3. ISSN 0034-5687.
  6. Gibbs, E. L.; Gibbs, F. A. (1936). "A purring center in the cat's brain". Journal of Comparative Neurology. 64 (2): 209–211. doi:10.1002/cne.900640203. ISSN 1096-9861.
  7. K.M. Dyce, W.O. Sack and C.J.G. Wensing in Textbook of Veterinary Anatomy 3rd Ed. 2002, Saunders, Philadelphia; p156
  8. "How A Puma Purrs". Archived from the original on 2013-01-22.
  9. Owen, Richard (1834). "On the Anatomy of the Cheetah, Felis jubata, Schreb". The Transactions of the Zoological Society of London. 1 (2): 129–136. doi:10.1111/j.1096-3642.1835.tb00611.x.
  10. Pocock, R.I. (1916). "On the hyoidean apparatus of the lion (F. leo) and related species of Felidæ". Annals and Magazine of Natural History. 18 (104): 222–229. doi:10.1080/00222931608693839.
  11. Weissengruber, G. E.; Forstenpointner, G.; Peters, G.; Kubber-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.
  12. Hemmer, Helmut (1972). "Uncia uncia". Mammalian Species (20): 1–5. doi:10.2307/3503882. JSTOR 3503882.
  13. Eklund, Robert, Gustav Peters & Elizabeth D. Duthie. 2010. An acoustic analysis of purring in the cheetah (Acinonyx jubatus) and in the domestic cat (Felis catus), Proceedings of Fonetik 2010, 2–4 June 2010, Lund University, Lund, Sweden, pp. 17–22.
  14. Schötz, Susanne & Robert Eklund. 2011. A comparative acoustic analysis of purring in four cats. Proceedings of Fonetik 2011, 8–10 June 2011, Royal Institute of Technology, Stockholm, Sweden, pp. 9–12.
  15. Eklund, Robert, Gustav Peters, Florian Weise & Stuart Munro. 2012. A comparative acoustic analysis of purring in four cheetahs, Proceedings of Fonetik 2012, 30 May–1 June 2012, Gothenburg University, Gothenburg, Sweden, pp. 41–44.
  16. Eklund, Robert & Gustav Peters. 2013. A comparative acoustic analysis of purring in juvenile, subadult and adult cheetahs. In: Robert Eklund (ed.), Proceedings of Fonetik 2013, the XXVIth Swedish Phonetics Conference, Studies in Language and Culture, no. 21, ISBN 978-91-7519-582-7, ISBN 978-91-7519-579-7, ISSN 1403-2570, pp. 25–28.
  17. McComb, Karen; Taylor, Anna M.; Wilson, Christian; Charlton, Benjamin D. (2009-07-14). "The cry embedded within the purr". Current Biology. 19 (13): R507–R508. doi:10.1016/j.cub.2009.05.033. ISSN 0960-9822.
  18. "Birth Difficulties Symptoms - Cats | petMD". www.petmd.com. Retrieved 2019-11-18.

Further reading

  • Peters, G. (2002). "Purring and similar vocalizations in mammals". Mammal Review. 32 (4): 245–271. doi:10.1046/j.1365-2907.2002.00113.x.
  • Stogdale L, Delack JB. Feline purring. Compendium on Continuing Education for the Practicing Veterinarian 1985; 7: 551–553.
  • Reprinted in: Voith VL, Borchelt PL (eds). Readings in Companion Animal Behavior. Trenton: Veterinary Learning Systems, 1996; 269–270.
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