Udder

Wikipedia

Udder of a cow

An udder is an organ formed of two or four mammary glands on the females of dairy animals and ruminants such as cattle, goats, and sheep.[1] An udder is equivalent to the breast in primates and other mammals. The udder is a single mass hanging beneath the animal, consisting of pairs of mammary glands with protruding teats. In cattle, camels and deer, there are normally two pairs, in sheep and goats, there is one pair, and in some animals, there are many pairs. In animals with udders, the mammary glands develop on the milk line near the groin. Mammary glands that develop on the chest (such as in primates and elephants) are generally referred to as breasts.[1]

Udder care and hygiene in cows is important in milking, aiding uninterrupted and untainted milk production, and preventing mastitis. Products exist to soothe the chapped skin of the udder. This helps prevent bacterial infection, and reduces irritation during milking by the cups, and so the cow is less likely to kick the cups off. It has been demonstrated that incorporating nutritional supplements into diet, including vitamin E, is an additional method of improving udder health and reducing infection.[2]

Etymology

Udder has been attested in Middle English as udder or uddyr (also as uther, iddyr), and in Old English as ūder.[3] It was evolved from the Proto-Germanic reconstructed root *eudrą or *ūdrą, which in turn descended from Proto-Indo-European *h₁ówHdʰr̥ (“udder”). It is cognate with Saterland Frisian Jadder (“udder”), Dutch uier (“udder”), German Euter (“udder”), Swedish juver (“udder”), Icelandic júgur (“udder”), Vedic Sanskrit ऊधर् (ū́dhar), Ancient Greek οὖθαρ (oûthar), and Latin ūber.[4]

Culinary Use

The udder, or elder in Ireland, Scotland and northern England, of a slaughtered cow was in times past prepared and consumed.[5] In other countries, like Italy, parts of Pakistan, Kenya, and some South American countries, cow udder is still consumed in dishes like the traditional teteun [it] and ubres asada.

Microbial Ecology

The udder microbiome of cows can act as a defense mechanism for preventing infection and can impact the production and quality of milk. The presence of Staphylococcus – specifically S. aureus, S. uberis, and S. agalactiae – on the teat apex can lead to intramammary infections (IMI) if it migrates to the teat canal and the mammary gland.[6] These infections trigger the mammary gland immune response[7] and can lead to decreased milk production.[8] The 4 major phyla associated with a healthy teat apex include Actinobacteria, Bacteroidetes, Firmicutes, and Proteobacteria.[9] Some of these non-aureus staphylococci (NAS) can release bacteriocins that inhibit the growth of S. aureus and prevent infection[10] whereas the microbiome of dairy cows with IMI can be categorized with an increased prevalence of Staphylococcus and decreased diversity.[11] IMIs can also impact the quality and composition of the proteins found in milk.[12] The loss of milk production and increased waste of milk due to lower quality make IMIs one of the leading causes of economic losses in the milk industry.[13]

Environmental factors can play a role in shaping the diversity and composition of these communities. The udder skin is completely exposed to the both indoor and outdoor environments and comes into direct contact with areas such as bedding, milking equipment, and feces.[9] These bacteria can then seed raw milk potential pathogens that affect safety and spoilage organisms that affect quality.[14] For example, S. aureus is naturally found on the external teat skin.[15] Listeria monocytogenes is commonly found in the environment and is associated with improper cleaning and sanitation.[16] Pseudomonas spp. are known spoilage organisms in milk and are often found in environments such as soil. While pasteurization can eliminate or reduce these bacteria, high initial bacterial loads could allow some of these to persist post-pasteurization. Effective cleaning and sanitation of the cow’s housing environment as well as the udder surface can help prevent contamination of raw milk through the udder surface.[14] Antimicrobials can also be used to prevent growth, however, consideration is needed before use to prevent the occurrence of antimicrobial resistance in these pathogens.[17]

References

  1. 1 2 Rowen D. Frandson; W. Lee Wilke; Anna Dee Fails (1 April 2013), Anatomy and Physiology of Farm Animals, John Wiley & Sons, pp. 449–451, ISBN 978-1-118-68601-0
  2. O'Rourke, D (2009-04-01). "Nutrition and udder health in dairy cows: a review". Irish Veterinary Journal. 62 (Suppl 4) S15: S15 – S20. doi:10.1186/2046-0481-62-S4-S15. ISSN 0368-0762. PMC 3339345. PMID 22082340.
  3. "udder - Middle English Compendium". quod.lib.umich.edu. Retrieved 2022-01-31.
  4. Kroonen, Guus (2013-07-19). Etymological Dictionary of Proto-Germanic. Brill. ISBN 978-90-04-18340-7.
  5. The Words We Use, Diarmaid O Muirithe, irishtimes.com, 11 November 2000
  6. Zigo, František; Farkašová, Zuzana; Výrostková, Jana; Regecová, Ivana; Ondrašovičová, Silvia; Vargová, Mária; Sasáková, Naďa; Pecka-Kielb, Ewa; Bursová, Šárka; Kiss, David Sandor (2022-02-14). "Dairy Cows' Udder Pathogens and Occurrence of Virulence Factors in Staphylococci". Animals. 12 (4): 470. doi:10.3390/ani12040470. ISSN 2076-2615. PMC 8868196. PMID 35203178.
  7. Oviedo-Boyso, Javier; Valdez-Alarcón, Juan J.; Cajero-Juárez, Marcos; Ochoa-Zarzosa, Alejandra; López-Meza, Joel E.; Bravo-Patiño, Alejandro; Baizabal-Aguirre, Víctor M. (April 2007). "Innate immune response of bovine mammary gland to pathogenic bacteria responsible for mastitis". Journal of Infection. 54 (4): 399–409. doi:10.1016/j.jinf.2006.06.010. PMID 16882453.
  8. Schukken, Y.H.; Hertl, J.; Bar, D.; Bennett, G.J.; González, R.N.; Rauch, B.J.; Santisteban, C.; Schulte, H.F.; Tauer, L.; Welcome, F.L.; Gröhn, Y.T. (July 2009). "Effects of repeated gram-positive and gram-negative clinical mastitis episodes on milk yield loss in Holstein dairy cows". Journal of Dairy Science. 92 (7): 3091–3105. doi:10.3168/jds.2008-1557. PMID 19528587.
  9. 1 2 Derakhshani, Hooman; Fehr, Kelsey B.; Sepehri, Shadi; Francoz, David; De Buck, Jeroen; Barkema, Herman W.; Plaizier, Jan C.; Khafipour, Ehsan (December 2018). "Invited review: Microbiota of the bovine udder: Contributing factors and potential implications for udder health and mastitis susceptibility". Journal of Dairy Science. 101 (12): 10605–10625. doi:10.3168/jds.2018-14860. PMID 30292553.
  10. Carson, Domonique A.; Barkema, Herman W.; Naushad, Sohail; De Buck, Jeroen (September 2017). Drake, Harold L. (ed.). "Bacteriocins of Non-aureus Staphylococci Isolated from Bovine Milk". Applied and Environmental Microbiology. 83 (17) e01015-17. Bibcode:2017ApEnM..83E1015C. doi:10.1128/AEM.01015-17. ISSN 0099-2240. PMID 28667105.
  11. Metzger, Stephanie A.; Hernandez, Laura L.; Skarlupka, Joseph H.; Walker, Teresa M.; Suen, Garret; Ruegg, Pamela L. (2018-10-09). "A Cohort Study of the Milk Microbiota of Healthy and Inflamed Bovine Mammary Glands From Dryoff Through 150 Days in Milk". Frontiers in Veterinary Science. 5 247. doi:10.3389/fvets.2018.00247. ISSN 2297-1769. PMC 6189514. PMID 30356776.
  12. Zhang, L.; Boeren, S.; van Hooijdonk, A.C.M.; Vervoort, J.M.; Hettinga, K.A. (August 2015). "A proteomic perspective on the changes in milk proteins due to high somatic cell count". Journal of Dairy Science. 98 (8): 5339–5351. doi:10.3168/jds.2014-9279. PMID 26094216.
  13. Rasmussen, Philip; Barkema, Herman W.; Osei, Prince P.; Taylor, James; Shaw, Alexandra P.; Conrady, Beate; Chaters, Gemma; Muñoz, Violeta; Hall, David C.; Apenteng, Ofosuhene O.; Rushton, Jonathan; Torgerson, Paul R. (September 2024). "Global losses due to dairy cattle diseases: A comorbidity-adjusted economic analysis". Journal of Dairy Science. 107 (9): 6945–6970. doi:10.3168/jds.2023-24626. PMC 11382338. PMID 38788837.
  14. 1 2 Doyle, Conor J.; Gleeson, David; O'Toole, Paul W.; Cotter, Paul D. (2017-01-15). Bjorkroth, J. (ed.). "Impacts of Seasonal Housing and Teat Preparation on Raw Milk Microbiota: a High-Throughput Sequencing Study". Applied and Environmental Microbiology. 83 (2) e02694-16. Bibcode:2017ApEnM..83E2694D. doi:10.1128/AEM.02694-16. ISSN 0099-2240. PMC 5203630. PMID 27815277.
  15. Capurro, A.; Aspán, A.; Ericsson Unnerstad, H.; Persson Waller, K.; Artursson, K. (January 2010). "Identification of potential sources of Staphylococcus aureus in herds with mastitis problems". Journal of Dairy Science. 93 (1): 180–191. doi:10.3168/jds.2009-2471. PMID 20059917.
  16. Hunt, Karen; Drummond, Niall; Murphy, Mary; Butler, Francis; Buckley, Jim; Jordan, Kieran (December 2012). "A case of bovine raw milk contamination with Listeria monocytogenes". Irish Veterinary Journal. 65 (1) 13. doi:10.1186/2046-0481-65-13. ISSN 2046-0481. PMC 3526472. PMID 22769601.
  17. Winther, Anja R.; Perrin, Aurelie; Nordraak, Anne O. O.; Kjos, Morten; Porcellato, Davide (2024-08-07). "An in vitro evaluation of the effect of antimicrobial treatment on bovine mammary microbiota". Scientific Reports. 14 (1) 18333. doi:10.1038/s41598-024-69273-y. ISSN 2045-2322. PMC 11306798. PMID 39112607.
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