Biting

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Biting is a common zoological behavior involving the active, rapid closing of the jaw around an object. This behavior is found in toothed animals such as mammals, reptiles, amphibians and fish, but can also exist in arthropods. Myocytic contraction of the muscles of mastication is responsible for generating the force that initiates the preparatory jaw abduction (opening), then rapidly adducts (closes) the jaw and moves the top and bottom teeth towards each other, resulting in the forceful action of a bite.[2]

Tyrannosaurus had a very strong bite[1]

Biting is one of the main functions in most macro-organisms' life, providing them the ability to forage, hunt, eat, build, play, fight and protect, and much more. It may be a form of physical aggression due to predatory or territorial intentions, but can also be a normal activity of an animal as it eats, carries objects, softens and prepares food for its young, removes ectoparasites or irritating foreign objects (e.g. burred plant seeds) from body surface, scratches[disambiguation needed] itself, and grooms other animals.

Animal bites often result in serious punctures, avulsions, fractures, hemorrhages, infections, envenomation and sometimes even death.[3] In modern human societies, dog bites are the most common type of bites, with human children the most commonly bitten victims and the face being the most common target area.[4] Other species that can exhibit such behavior towards human are typically aggressive urban animals such as feral cats, spiders and snakes, micropredators such as vampire bats and hematophagic arachnids (e.g. mosquitoes, fleas, lice, bedbugs and ticks, whose "bites" are actually a form of sting-like puncture rather than true biting), or dangerous wild carnivores such as wolves, big cats, bears, crocodilians and predatory fishes (e.g. sharks, barracudas and piranhas).

Types of teethEdit

 
Teeth of a lion, showcasing the front canines, middle carnassials, and back molars

The types of teeth that organisms use to bite varies throughout the animal kingdom. Different types of teeth are seen in herbivores, carnivores, and omnivores as they are adapted over many years to better fit their diets. Carnivores possess canine, carnassial, and molar teeth, while herbivores are equipped with incisor teeth and wide-back molars.[5] In general, tooth shape has traditionally been used to predict dieting habits.[6] Carnivores have long, extremely sharp teeth for both gripping prey and cutting meat into chunks.[7] They lack flat chewing teeth because they swallow food in chunks. An example of this is shown by the broad, serrated teeth of great white sharks which prey on large marine animals.[8] On the other hand, herbivores have rows of wide, flat teeth to bite and chew grass and other plants. Cows spend up to eleven hours a day biting off grass and grinding it with their molars.[9] Omnivores consume both meat and plants, so they possess a mixture of flat teeth and sharp teeth.

Carrying mechanismEdit

Biting can serve as a carrying mechanism for species such as beavers and ants, the raw power of their species-specific teeth allow them to carry large objects. In beavers specifically, they have a large tooth adapted for gnawing wood. Their jaw muscles are tuned to power through big trees and carry them back to their dam.[10] In ant behavior, ants use their powerful jaws to lift material back to the colony. They can carry several thousand times their weight due to their bite and adapted to use this to forage for their colonies.[11] Fire ants use their strong bite to get a grip on prey, and inject a toxin via its abdomen, then carry back to its territory.[12]

Dangerous bitesEdit

Some organisms have dangerous bites that inject venom. Many snakes and lizards carry a venomous saliva containing at least one of the three major groups of toxins: neurotoxins, cytotoxins and myotoxins.[13] Spider venom polypeptides target specific ion channels, which excites components of the peripheral, central and autonomic nervous systems, causing hyperactive neurotransmitter release and subsequently refractory paralysis.[13] Spider bites, or arachnidism, are mainly a form of predation, but also means of self-defense — when trapped or accidentally tampered with by humans, spiders retaliate with biting.[14] The recluse spider and widow species have neurotoxins and necrotizing agents that paralyze and digest prey.[15]

There are several creatures with non-lethal bites that may cause discomfort or diseases. Mosquito bites may cause allergic wheals that are itchy and may last a few days; in some areas, they can spread blood-borne diseases (e.g. malaria and West Nile fever) via transmission of protozoic or viral pathogens.[16] Similarly, tick bites spread diseases endemic to their location, most famously Lyme disease, but ticks also serve as disease vectors for Colorado tick fever, African tick bite fever, Tick-borne encephalitis, etc.[17]

In humansEdit

Biting is also an age appropriate behavior and reaction for human children 30 months and younger. Conversely, children above this age are expected to have verbal skills to explain their needs and dislikes, as biting is not seen as age appropriate. Biting may be prevented by methods including redirection, change in the environment and responding to biting by talking about appropriate ways to express anger and frustration. School-age children, those older than 30 months, who habitually bite may require professional intervention.[18] Some discussion of human biting appears in The Kinsey Report on Sexual Behavior in the Human Female.

Criminally, Forensic Dentistry is involved in bite-mark analysis. Because bite-marks change significantly over time, investigators must call for an expert as soon as possible. Bites are then analyzed to determine whether the biter was human, self-inflicted or not, and whether DNA was left behind from the biter. All measurements must be extremely precise, as small errors in measurement can lead to large errors in legal judgment.[19]

See alsoEdit

ReferencesEdit

  1. ^ "Archived copy". Archived from the original on 2014-03-29. Retrieved 2014-03-13.CS1 maint: archived copy as title (link)
  2. ^ Ferrara, T.L.; Clausen, P.; Huber, D.R.; McHenry, C.R.; Peddemors, V.; Wroe, S. (2011). "Mechanics of biting in great white and sandtiger sharks". Journal of Biomechanics. 44 (3): 430–435. doi:10.1016/j.jbiomech.2010.09.028. PMID 21129747.
  3. ^ Cherry, James (2014). Feigin and Cherry's textbook of pediatric infectious diseases – Animal and Human Bites, Morven S. Edwards. Philadelphia, PA: Elsevier/Saunders. ISBN 978-1-4557-1177-2; Access provided by the University of PittsburghCS1 maint: postscript (link)
  4. ^ Kenneth M. Phillips (2009-12-27). "Dog Bite Statistics". Archived from the original on 2010-09-21. Retrieved 2010-08-06.
  5. ^ Animal Teeth | Types of Teeth | DK Find Out. (2018). Retrieved October 28, 2018, from https://www.dkfindout.com/us/animals-and-nature/food-chains/types-teeth/
  6. ^ Sanson, Gordon (2016). "Cutting food in terrestrial carnivores and herbivores". Interface Focus. 6 (3): 20150109. doi:10.1098/rsfs.2015.0109. PMC 4843622. PMID 27274799.
  7. ^ Animal Teeth | Types of Teeth | DK Find Out. (2018). Retrieved October 28, 2018, from https://www.dkfindout.com/us/animals-and-nature/food-chains/types-teeth/
  8. ^ Ferrara, T.L.; Clausen, P.; Huber, D.R.; McHenry, C.R.; Peddemors, V.; Wroe, S. (2011). "Mechanics of biting in great white and sandtiger sharks". Journal of Biomechanics. 44 (3): 430–435. doi:10.1016/j.jbiomech.2010.09.028. PMID 21129747.
  9. ^ Wroe, S.; Huber, D. R.; Lowry, M.; McHenry, C.; Moreno, K.; Clausen, P.; Ferrara, T. L.; Cunningham, E.; Dean, M. N.; Summers, A. P. (2008). "Three-dimensional computer analysis of white shark jaw mechanics: How hard can a great white bite?". Journal of Zoology. 276 (4): 336–342. doi:10.1111/j.1469-7998.2008.00494.x.
  10. ^ Müller-Schwarze, Dietland (2011). "Form, Weight, and Special Adaptations". The Beaver: Its Life and Impact. Cornell University Press. pp. 11–8. ISBN 978-0-8014-6086-9.
  11. ^ Nguyen, Vienny; Lilly, Blaine; Castro, Carlos (2014). "The exoskeletal structure and tensile loading behavior of an ant neck joint". Journal of Biomechanics. 47 (2): 497–504. doi:10.1016/j.jbiomech.2013.10.053. PMID 24287400. Lay summaryEntomology Today (February 11, 2014).
  12. ^ Drees, Bastiaan M. (December 2002). "Medical Problems and Treatment Considerations for the Red Imported Fire Ant" (PDF). Texas A&M University.
  13. ^ a b Harris, J. B.; Goonetilleke, A. (2004). "Animal poisons and the nervous system: What the neurologist needs to know". Journal of Neurology, Neurosurgery & Psychiatry. 75: iii40–iii46. doi:10.1136/jnnp.2004.045724. PMC 1765666. PMID 15316044.
  14. ^ "Workplace Safety & Health Topics Venomous Spiders". cdc.gov. February 24, 2012. Retrieved 28 October 2018
  15. ^ Braitberg, G.; Segal, L. (2009). "Spider bites - Assessment and management". Australian Family Physician. 38 (11): 862–7. PMID 19893831. Archived from the original on 2010-01-07. Retrieved 2018-11-19.
  16. ^ "Mosquito Bites", Mayo Clinic, accessed June 28, 2019
  17. ^ "Tickborne Diseases of the United States", The Center for Disease Control, accessed June 28, 2019
  18. ^ Child Care Links,"How to Handle Biting Archived October 7, 2011, at the Wayback Machine", retrieved 14 August 2007
  19. ^ Shanna Freeman, "How Forensic Dentistry Works", How Stuff Works, accessed June 28, 2019

External linksEdit

  •   Media related to Biting at Wikimedia Commons