|A dog with rabies.|
A zoonosis (plural zoonoses, or zoonotic diseases) is an infectious disease caused by a pathogen (an infectious agent, such as a bacterium, virus, parasite or prion) that has jumped from a non-human animal (usually a vertebrate) to a human. Typically, the first infected human transmits the infectious agent to at least one other human, who, in turn, infects others.
Major modern diseases such as Ebola virus disease and salmonellosis are zoonoses. HIV was a zoonotic disease transmitted to humans in the early part of the 20th century, though it has now mutated to a separate human-only disease. Most strains of influenza that infect humans are human diseases, although many strains of bird flu and swine flu are zoonoses; these viruses occasionally recombine with human strains of the flu and can cause pandemics such as the 1918 Spanish flu or the 2009 swine flu. Taenia solium infection is one of the neglected tropical diseases with public health and veterinary concern in endemic regions. Zoonoses can be caused by a range of disease pathogens such as viruses, bacteria, fungi and parasites; of 1,415 pathogens known to infect humans, 61% were zoonotic. Most human diseases originated in other animals; however, only diseases that routinely involve non-human to human transmission, such as rabies, are considered direct zoonosis.
Zoonoses have different modes of transmission. In direct zoonosis the disease is directly transmitted from other animals to humans through media such as air (influenza) or through bites and saliva (rabies). In contrast, transmission can also occur via an intermediate species (referred to as a vector), which carry the disease pathogen without getting sick. When humans infect other animals, it is called reverse zoonosis or anthroponosis. The term is from Greek: ζῷον zoon "animal" and νόσος nosos "sickness".
Zoonotic transmission can occur in any context in which there is contact with or consumption of animals, animal products, or animal derivatives. This can occur in a companionistic (pets), economic (farming, trade, butchering, etc.), predatory (hunting, butchering or consuming wild game) or research context.
Contamination of food or water supply
In 2006 a conference held in Berlin focused on the issue of zoonotic pathogen effects on food safety, urging government intervention and public vigilance against the risks of catching food-borne diseases from farm-to-table dining.
Many food outbreaks can be linked[by whom?] to zoonotic pathogens. Many different types of food that have an animal origin can become contaminated. Some common foods linked to zoonotic contaminations include eggs, seafood, meat, dairy, and even some vegetables. Outbreaks involving contaminated food should be handled[by whom?] in preparedness plans to prevent widespread outbreaks and to efficiently and effectively contain outbreaks.
Farming, ranching and animal husbandry
Contact with farm animals can lead to disease in farmers or others that come into contact with infected farm animals. Glanders primarily affects those who work closely with horses and donkeys. Close contact with cattle can lead to cutaneous anthrax infection, whereas inhalation anthrax infection is more common for workers in slaughterhouses, tanneries and wool mills. Close contact with sheep who have recently given birth can lead to clamydiosis, or enzootic abortion, in pregnant women, as well as an increased risk of Q fever, toxoplasmosis, and listeriosis in pregnant or the otherwise immunocompromised. Echinococcosis is caused by a tapeworm which can be spread from infected sheep by food or water contaminated with feces or wool. Bird flu is common in chickens. While rare in humans, the main public health worry is that a strain of bird flu will recombine with a human flu virus and cause a pandemic like the 1918 Spanish flu. In 2017, free range chickens in the UK were temporarily ordered to remain inside due to the threat of bird flu. Cattle are an important reservoir of cryptosporidiosis and mainly affects the immunocompromised. Recent reports have shown Minks can also get infected.
Veterinarians are exposed to unique occupational hazards and zoonotic diseases. In the US, studies have highlighted an increased risk to injuries and a lack of veterinary awareness for these hazards. Research has proved the importance for continued clinical veterinarian education on occupational risks associated with musculoskeletal injuries, animal bites, needle-sticks, and cuts.
A July 2020 report by the United Nations Environment Programme stated that the increase in zoonotic pandemics is directly attributable to anthropogenic destruction of nature and the increased global demand for meat, and that the industrial farming of pigs and chickens in particular will be a primary risk factor for the spillover of zoonotic diseases in the future.
Wild animal attacks
- African sleeping sickness
- Eastern equine encephalitis
- Japanese encephalitis
- Saint Louis encephalitis
- Venezuelan equine encephalitis
- West Nile fever
- Western equine encephalitis
- Zika fever
Pets can transmit a number of diseases. Dogs and cats are routinely vaccinated against rabies. Pets can also transmit ringworm and Giardia, which are endemic in both animal and human populations. Toxoplasmosis is a common infection of cats; in humans it is a mild disease although it can be dangerous to pregnant women. Dirofilariasis is caused by Dirofilaria immitis through mosquitoes infected by mammals like dogs and cats. Cat-scratch disease is caused by Bartonella henselae and Bartonella quintana from fleas which are endemic in cats. Toxocariasis is infection of humans of any of species of roundworm, including species specific to the dog (Toxocara canis) or the cat (Toxocara cati). Cryptosporidiosis can be spread to humans from pet lizards, such as the leopard gecko. Encephalitozoon cuniculi is a microsporidial parasite carried by many mammals, including rabbits, and is an important opportunistic pathogen in people immunocompromised by HIV/AIDS, organ transplantation, or CD4+ T-lymphocyte deficiency.
Outbreaks of zoonoses have been traced to human interaction with and exposure to other animals at fairs, live animal markets, petting zoos, and other settings. In 2005, the Centers for Disease Control and Prevention (CDC) issued an updated list of recommendations for preventing zoonosis transmission in public settings. The recommendations, developed in conjunction with the National Association of State Public Health Veterinarians, include educational responsibilities of venue operators, limiting public animal contact, and animal care and management.
Hunting and bushmeat
Kate Jones, chair of ecology and biodiversity at University College London, says zoonotic diseases are Increasingly linked to environmental change and human behaviour. The disruption of pristine forests driven by logging, mining, road building through remote places, rapid urbanisation and population growth is bringing people into closer contact with animal species they may never have been near before. The resulting transmission of disease from wildlife to humans, she says, is now “a hidden cost of human economic development". In a guest article published by IPBES, Peter Daszak and three co-chairs of the 2019 Global Assessment Report on Biodiversity and Ecosystem Services, Josef Settele, Sandra Díaz and Eduardo Brondizio, write that "rampant deforestation, uncontrolled expansion of agriculture, intensive farming, mining and infrastructure development, as well as the exploitation of wild species have created a ‘perfect storm’ for the spillover of diseases from wildlife to people."
Biodiversity loss and environmental degradation
An April 2020 study published in the Proceedings of the Royal Society Part B found that increased virus spillover events from animals to humans can be linked to biodiversity loss and environmental degradation, as humans further encroach on wildlands to engage in agriculture, hunting and resource extraction they become exposed to pathogens which normally would remain in these areas. Such spillover events have been tripling every decade since 1980.
- Ebola and Marburg
Lists of diseases
|Disease||Pathogen(s)||Animals involved||Mode of transmission||Emergence|
|African sleeping sickness||Trypanosoma brucei rhodesiense||range of wild animals and domestic livestock||transmitted by the bite of the tsetse fly||Occurred around 1900-1920 Only (Africa)|
|Angiostrongyliasis||Angiostrongylus cantonensis, Angiostrongylus costaricensis||rats, cotton rats||consuming raw or undercooked snails, slugs, other mollusks, crustaceans, contaminated water, and unwashed vegetables contaminated with larvae|
|Anisakiasis||Anisakis||whales, dolphins, seals, sea lions, other marine animals||eating raw or undercooked fish and squid contaminated with eggs|
|Anthrax||Bacillus anthracis||commonly – grazing herbivores such as cattle, sheep, goats, camels, horses, and pigs||by ingestion, inhalation or skin contact of spores|
|Babesiosis||Babesia spp.||mice, other animals||tick bite|
|Baylisascariasis||Baylisascaris procyonis||raccoons||ingestion of eggs in feces|
|Barmah Forest fever||Barmah Forest virus||kangaroos, wallabies, opossums||mosquito bite|
|Bird flu||Influenza A virus subtype H5N1||wild birds, domesticated birds such as chickens||close contact||2003-2019 Avian Influenza in Southeast Asia and Egypt|
|Bovine spongiform encephalopathy||Prions||cattle||eating infected meat|
|Brucellosis||Brucella spp.||cattle, goats||infected milk or meat|
|Bubonic plague, Pneumonic plague, Septicemic plague, Sylvatic plague||Yersinia pestis||rabbits, hares, rodents, ferrets, goats, sheep, camels||flea bite||Epidemics like Black Death in 1347, Third Plague Pandemic in China and India|
|Capillariasis||Capillaria spp.||rodents, birds, foxes||eating raw or undercooked fish, ingesting embryonated eggs in fecal-contaminated food, water, or soil|
|Cat-scratch disease||Bartonella henselae||cats||bites or scratches from infected cats|
|Chagas disease||Trypanosoma cruzi||armadillos, Triatominae (kissing bug)||Contact of mucosae or wounds with feces of kissing bugs. Accidental ingestion of parasites in food contaminated by bugs or infected mammal excretae.|
|Clamydiosis / Enzootic abortion||Chlamydophila abortus||domestic livestock, particularly sheep||close contact with postpartum ewes|
|COVID-19||severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)||suspected: bats, pangolins, felines, minks||respiratory transmission||COVID-19 pandemic Ongoing pandemic|
|Creutzfeldt-Jacob disease||PrPvCJD||cattle||eating meat from animals with bovine spongiform encephalopathy (BSE)||1996-2001 United Kingdom|
|Crimean–Congo hemorrhagic fever||Crimean-Congo hemorrhagic fever orthonairovirus||cattle, goats, sheep, birds, multimammate rats, hares||tick bite, contact with bodily fluids|
|Cryptococcosis||Cryptococcus neoformans||commonly – birds like pigeons||inhaling fungi|
|Cryptosporidiosis||Cryptosporidium spp.||cattle, dogs, cats, mice, pigs, horses, deer, sheep, goats, rabbits, leopard geckos, birds||ingesting cysts from water contaminated with feces|
|Cysticercosis and taeniasis||Taenia solium, Taenia asiatica, Taenia saginata||commonly – pigs and cattle||consuming water, soil or food contaminated with the tapeworm eggs (cysticercosis) or raw or undercooked pork contaminated with the cysticerci (taeniasis)|
|Dirofilariasis||Dirofilaria spp.||dogs, wolves, coyotes, foxes, jackals, cats, monkeys, raccoons, bears, muskrats, rabbits, leopards, seals, sea lions, beavers, ferrets, reptiles||mosquito bite|
|Eastern equine encephalitis, Venezuelan equine encephalitis, Western equine encephalitis||Eastern equine encephalitis virus, Venezuelan equine encephalitis virus, Western equine encephalitis virus||horses, donkeys, zebras, birds||mosquito bite|
|Ebola virus disease (a haemorrhagic fever)||Ebolavirus spp.||chimpanzees, gorillas, orangutans, fruit bats, monkeys, shrews, forest antelope and porcupines||through body fluids and organs||2013-2016; possible in Africa|
|Other haemorrhagic fevers (Crimean-Congo haemorrhagic fever, Dengue fever, Lassa fever, Marburg viral haemorrhagic fever, Rift Valley fever)||Varies – commonly viruses||varies (sometimes unknown) – commonly camels, rabbits, hares, hedgehogs, cattle, sheep, goats, horses and swine||infection usually occurs through direct contact with infected animals|
|Echinococcosis||Echinococcus spp.||commonly – dogs, foxes, jackals, wolves, coyotes, sheep, pigs, rodents||ingestion of infective eggs from contaminated food or water with feces of an infected, definitive host or fur|
|Fasciolosis||Fasciola hepatica, Fasciola gigantica||sheep, cattle, buffaloes||ingesting contaminated plants|
|Foodborne illnesses (commonly diarrheal diseases)||Campylobacter spp., Escherichia coli, Salmonella spp., Listeria spp., Shigella spp. and Trichinella spp.||animals domesticated for food production (cattle, poultry)||raw or undercooked food made from animals and unwashed vegetables contaminated with feces|
|Giardiasis||Giardia lamblia||beavers, other rodents, raccoons, deer, cattle, goats, sheep, dogs, cats||ingesting spores and cysts in food and water contaminated with feces|
|Glanders||Burkholderia mallei.||horses, donkeys||direct contact|
|Gnathostomiasis||Gnathostoma spp.||dogs, minks, opossums, cats, lions, tigers, leopards, raccoons, poultry, other birds, frogs||raw or undercooked fish or meat|
|Hantavirus||Hantavirus spp.||deer mice, cotton rats and other rodents||exposure to feces, urine, saliva or bodily fluids|
|Henipavirus||Henipavirus spp.||horses, bats||exposure to feces, urine, saliva or contact with sick horses|
|Histoplasmosis||Histoplasma capsulatum||birds, bats||inhaling fungi in guano|
|Influenza||Influenza A virus||horses, pigs, domestic and wild birds, wild aquatic mammals such as seals and whales, minks and farmed carnivores||droplets transmitted through air||Spanish Flu in 1918 after WWI|
|Japanese encephalitis||Japanese encephalitis virus||pigs, water birds||mosquito bite|
|Kyasanur Forest disease||Kyasanur Forest disease virus||rodents, shrews, bats, monkeys||tick bite|
|La Crosse encephalitis||La Crosse virus||chipmunks, tree squirrels||mosquito bite|
|Leishmaniasis||Leishmania spp.||dogs, rodents, other animals||sandfly bite||2004 Afghanistan|
|Leprosy||Mycobacterium leprae, Mycobacterium lepromatosis||armadillos, monkeys, rabbits, mice||direct contact, including meat consumption. However, scientists believe most infections are spread human to human.|
|Leptospirosis||Leptospira interrogans||rats, mice, pigs, horses, goats, sheep, cattle, buffaloes, opossums, raccoons, mongooses, foxes, dogs||direct or indirect contact with urine of infected animals||1616-20 New England infection United States-Native Americans|
|Lassa fever||Lassa fever virus||rodents||exposure to rodents|
|Lyme disease||Borrelia burgdorferi||deer, wolves, dogs, birds, rodents, rabbits, hares, reptiles||tick bite|
|Lymphocytic choriomeningitis||Lymphocytic choriomeningitis virus||rodents||exposure to urine, feces, or saliva|
|Melioidosis||Burkholderia pseudomallei||various animals||direct contact with contaminated soil and surface water|
|Microsporidiosis||Encephalitozoon cuniculi||Rabbits, dogs, mice, and other mammals||ingestion of spores|
|Middle East respiratory syndrome||MERS coronavirus||bats, camels||close contact||2012–present Saudi Arabia|
|Monkeypox||Monkeypox virus||rodents, primates||contact with infected rodents, primates, or contaminated materials|
|Nipah virus infection||Nipah virus (NiV)||bats, pigs||direct contact with infected bats, infected pigs|
|Orf||Orf virus||goats, sheep||close contact|
|Psittacosis||Chlamydophila psittaci||macaws, cockatiels, budgerigars, pigeons, sparrows, ducks, hens, gulls and many other bird species||contact with bird droplets|
|Q fever||Coxiella burnetii||livestock and other domestic animals such as dogs and cats||inhalation of spores, contact with bodily fluid or faeces|
|Rabies||Rabies virus||commonly – dogs, bats, monkeys, raccoons, foxes, skunks, cattle, goats, sheep, wolves, coyotes, groundhogs, horses, mongooses and cats||through saliva by biting, or through scratches from an infected animal||Variety of places like Oceanic, South America, Europe; Year is unknown|
|Rat-bite fever||Streptobacillus moniliformis, Spirillum minus||rats, mice||bites of rats but also urine and mucus secretions|
|Rift Valley fever||Phlebovirus||livestock, buffaloes, camels||mosquito bite, contact with bodily fluids, blood, tissues, breathing around butchered animals or raw milk||2006-07 East Africa outbreak|
|Rocky Mountain spotted fever||Rickettsia rickettsii||dogs, rodents||tick bite|
|Ross River fever||Ross River virus||kangaroos, wallabies, horses, opossums, birds, flying foxes||mosquito bite|
|Saint Louis encephalitis||Saint Louis encephalitis virus||birds||mosquito bite|
|Severe acute respiratory syndrome||SARS coronavirus||bats, civets||close contact, respiratory droplets||2002-2004 SARS; started in China|
|Swine influenza||any strain of the influenza virus endemic in pigs (excludes H1N1 swine flu, which is a human virus)||pigs||close contact||2009-10|
|Taenia crassiceps infection||Taenia crassiceps||wolves, coyotes, jackals, foxes||contact with soil contaminated with feces|
|Toxocariasis||Toxocara canis, Toxocara cati||dogs, foxes, cats||ingestion of eggs in soil, fresh or unwashed vegetables or undercooked meat|
|Toxoplasmosis||Toxoplasma gondii||cats, livestock, poultry||exposure to cat feces, organ transplantation, blood transfusion, contaminated soil, water, grass, unwashed vegetables, unpasteurized dairy products and undercooked meat|
|Trichinosis||Trichinella spp.||rodents, pigs, horses, bears, walruses, dogs, foxes, crocodiles, birds||eating undercooked meat|
|Tuberculosis||Mycobacterium bovis||infected cattle, deer, llamas, pigs, domestic cats, wild carnivores (foxes, coyotes) and omnivores (possums, mustelids and rodents)||milk, exhaled air, sputum, urine, faeces and pus from infected animals|
|Tularemia||Francisella tularensis||lagomorphs (type A), rodents (type B), birds||ticks, deer flies, and other insects including mosquitoes|
|West Nile fever||Flavivirus||birds, horses||mosquito bite|
|Zika fever||Zika virus||chimpanzees, gorillas, orangutans, monkeys, baboons||mosquito bite, sexual intercourse, blood transfusion and sometimes bites of monkeys||2015-16 in the Americas and Oceanic|
During most of human prehistory groups of hunter-gatherers were probably very small. Such groups probably made contact with other such bands only rarely. Such isolation would have caused epidemic diseases to be restricted to any given local population, because propagation and expansion of epidemics depend on frequent contact with other individuals who have not yet developed an adequate immune response. To persist in such a population, a pathogen either had to be a chronic infection, staying present and potentially infectious in the infected host for long periods, or it had to have other additional species as reservoir where it can maintain itself until further susceptible hosts are contacted and infected. In fact, for many 'human' diseases, the human is actually better viewed as an accidental or incidental victim and a dead-end host. Examples include rabies, anthrax, tularemia and West Nile virus. Thus, much of human exposure to infectious disease has been zoonotic.
Many modern diseases, even epidemic diseases, started out as zoonotic diseases. It is hard to establish with certainty which diseases jumped from other animals to humans, but there is increasing evidence from DNA and RNA sequencing, that measles, smallpox, influenza, HIV, and diphtheria came to humans this way. Various forms of the common cold and tuberculosis also are adaptations of strains originating in other species. Some experts have suggested that all human viral infections were originally zoonotic.
Zoonoses are of interest because they are often previously unrecognized diseases or have increased virulence in populations lacking immunity. The West Nile virus appeared in the United States in 1999 in the New York City area, and moved through the country in the summer of 2002, causing much distress. Bubonic plague is a zoonotic disease, as are salmonellosis, Rocky Mountain spotted fever, and Lyme disease.
A major factor contributing to the appearance of new zoonotic pathogens in human populations is increased contact between humans and wildlife. This can be caused either by encroachment of human activity into wilderness areas or by movement of wild animals into areas of human activity. An example of this is the outbreak of Nipah virus in peninsular Malaysia in 1999, when intensive pig farming began on the habitat of infected fruit bats. Unidentified infection of the pigs amplified the force of infection, eventually transmitting the virus to farmers and causing 105 human deaths.
Similarly, in recent times avian influenza and West Nile virus have spilled over into human populations probably due to interactions between the carrier host and domestic animals. Highly mobile animals such as bats and birds may present a greater risk of zoonotic transmission than other animals due to the ease with which they can move into areas of human habitation.
Because they depend on the human host for part of their life-cycle, diseases such as African schistosomiasis, river blindness, and elephantiasis are not defined as zoonotic, even though they may depend on transmission by insects or other vectors.
Use in vaccines
The first vaccine against smallpox by Edward Jenner in 1800 was by infection of a zoonotic bovine virus which caused a disease called cowpox. Jenner had noticed that milkmaids were resistant to smallpox. Milkmaids contracted a milder version of the disease from infected cows that conferred cross immunity to the human disease. Jenner abstracted an infectious preparation of 'cowpox' and subsequently used it to inoculate persons against smallpox. As a result, smallpox has been eradicated globally, and mass vaccination against this disease ceased in 1981.
- Animal welfare#Animal welfare organizations – The well-being of (non-human) animals
- Conservation medicine
- Cross-species transmission
- Emerging infectious disease – Infectious disease of emerging pathogen, often novel in its outbreak range or transmission mode
- Foodborne illness – Illness resulting from food that is spoiled or contaminated by pathogenic bacteria, viruses, parasites, or toxins
- Spillover infection – Occurs when a reservoir population causes an epidemic in a novel host population
- Wildlife disease
- Veterinary medicine – Deals with the diseases of animals, animal welfare, etc.
- Wildlife smuggling and zoonoses – Health risks associated with the trade in exotic wildlife
- List of zoonotic primate viruses – Wikipedia list article
- "zoonosis". Merriam-Webster Dictionary. Retrieved 29 March 2019.
- WHO. "Zoonoses". Archived from the original on 3 January 2015. Retrieved 18 December 2014.
- "A glimpse into Canada's highest containment laboratory for animal health: The National Centre for Foreign Animal Diseases". science.gc.ca. Government of Canada. 22 October 2018. Archived from the original on 20 June 2019. Retrieved 16 August 2019.
Zoonoses are infectious diseases which jump from an animal host or reservoir into humans.
- Scotch, M.; Brownstein, J. S.; Vegso, S.; Galusha, D.; Rabinowitz, P. (2011). "Human vs. Animal Outbreaks of the 2009 swine-origin H1N1 influenza A epidemic". Ecohealth. 8 (3): 376–380. doi:10.1007/s10393-011-0706-x. PMC 3246131. PMID 21912985.
- Coral-Almeida, Marco; Gabriël, Sarah; Abatih, Emmanuel Nji; Praet, Nicolas; Benitez, Washington; Dorny, Pierre (6 July 2015). "'Taenia solium' Human Cysticercosis: A Systematic Review of Sero-epidemiological Data from Endemic Zones around the World". PLOS Neglected Tropical Diseases. 9 (7): e0003919. doi:10.1371/journal.pntd.0003919. ISSN 1935-2735. PMC 4493064. PMID 26147942.
- Taylor LH, Latham SM, Woolhouse ME (2001). "Risk factors for human disease emergence". Philosophical Transactions of the Royal Society B: Biological Sciences. 356 (1411): 983–89. doi:10.1098/rstb.2001.0888. PMC 1088493. PMID 11516376.
- Marx PA, Apetrei C, Drucker E (October 2004). "AIDS as a zoonosis? Confusion over the origin of the virus and the origin of the epidemics". Journal of Medical Primatology. 33 (5–6): 220–26. doi:10.1111/j.1600-0684.2004.00078.x. PMID 15525322.
- "Zoonosis". Medical Dictionary. Archived from the original on 28 June 2013. Retrieved 30 January 2013.
- Messenger AM, Barnes AN, Gray GC (2014). "Reverse zoonotic disease transmission (zooanthroponosis): a systematic review of seldom-documented human biological threats to animals". PLOS ONE. 9 (2): e89055. Bibcode:2014PLoSO...989055M. doi:10.1371/journal.pone.0089055. PMC 3938448. PMID 24586500.
- Humphrey T, O'Brien S, Madsen M (2007). "Campylobacters as zoonotic pathogens: A food production perspective". International Journal of Food Microbiology. 117 (3): 237–57. doi:10.1016/j.ijfoodmicro.2007.01.006. PMID 17368847.
- Cloeckaert A (2006). "Introduction: emerging antimicrobial resistance mechanisms in the zoonotic foodborne pathogens Salmonella and Campylobacter". Microbes and Infection. 8 (7): 1889–90. doi:10.1016/j.micinf.2005.12.024. PMID 16714136.
- Frederick, A. Murphy (1999). "The Threat Posed by the Global Emergence of Livestock, Food-borne, and Zoonotic Pathogens". Annals of the New York Academy of Sciences. 894 (1): 20–27. Bibcode:1999NYASA.894...20M. doi:10.1111/j.1749-6632.1999.tb08039.x. PMID 10681965.
- Med-Vet-Net. "Priority Setting for Foodborne and Zoonotic Pathogens" (PDF). Archived (PDF) from the original on 25 June 2008. Retrieved 5 April 2008.
- "Investigating Foodborne Outbreaks". Centers for Disease Control and Prevention. 15 September 2011. Archived from the original on 28 June 2013. Retrieved 5 June 2013.
- "Inhalation Anthrax". cdc.gov. Archived from the original on 26 March 2017. Retrieved 26 March 2017.
- "Avian flu: Poultry to be allowed outside under new rules". BBC News. 28 February 2017. Archived from the original on 7 March 2017. Retrieved 26 March 2017.
- Lassen, Brian; Ståhl, Marie; Enemark, Heidi L (5 June 2014). "Cryptosporidiosis – an occupational risk and a disregarded disease in Estonia". Acta Veterinaria Scandinavica. 56 (1): 36. doi:10.1186/1751-0147-56-36. ISSN 0044-605X. PMC 4089559. PMID 24902957.
- "Mink found to have coronavirus on two Dutch farms – ministry". Reuters. 26 April 2020. Archived from the original on 27 April 2020. Retrieved 27 April 2020.
- Rood, Kerry A.; Pate, Michael L. (2 January 2019). "Assessment of Musculoskeletal Injuries Associated with Palpation, Infection Control Practices, and Zoonotic Disease Risks among Utah Clinical Veterinarians". Journal of Agromedicine. 24 (1): 35–45. doi:10.1080/1059924X.2018.1536574. ISSN 1059-924X. PMID 30362924.
- Carrington, Damian (6 July 2020). "Coronavirus: world treating symptoms, not cause of pandemics, says UN". The Guardian. Retrieved 7 July 2020.
- Prevention, CDC – Centers for Disease Control and. "Toxoplasmosis – General Information – Pregnant Women". cdc.gov. Archived from the original on 18 November 2015. Retrieved 1 April 2017.
- Weese, J. Scott (2011). Companion animal zoonoses. Wiley-Blackwell. pp. 282–284. ISBN 978-0813819648.
- Wildlife, Exotic Pets, and Emerging Zoonoses
- Centers for Disease Control and Prevention (2005). "Compendium of Measures To Prevent Disease Associated with Animals in Public Settings, 2005: National Association of State Public Health Veterinarians, Inc. (NASPHV)" (PDF). MMWR. 54 (RR–4): inclusive page numbers. Archived (PDF) from the original on 17 December 2008. Retrieved 28 December 2008.
- Vidal, John (18 March 2020). "'Tip of the iceberg': is our destruction of nature responsible for Covid-19?". The Guardian. ISSN 0261-3077. Retrieved 18 March 2020.
- Carrington, Damian (27 April 2020). "Halt destruction of nature or suffer even worse pandemics, say world's top scientists". The Guardian. Retrieved 27 April 2020.
- Shield, Charli (16 April 2020). "Coronavirus Pandemic Linked to Destruction of Wildlife and World's Ecosystems". Deutsche Welle. Retrieved 16 April 2020.
- Information in this table is largely compiled from: World Health Organization. "Zoonoses and the Human-Animal-Ecosystems Interface". Archived from the original on 6 December 2014. Retrieved 21 December 2014.
- "Haemorrhagic fevers, Viral". World Health Organization. Archived from the original on 27 July 2019. Retrieved 19 June 2019.
- Kumar, Binod; Asha, Kumari; Khanna, Madhu; Ronsard, Larance; Meseko, Clement Adebajo; Sanicas, Melvin (3 November 2018). "The emerging influenza virus threat: status and new prospects for its therapy and control". Archives of Virology. 163 (4): 831–844. doi:10.1007/s00705-018-3708-y. ISSN 1432-8798. PMC 7087104. PMID 29322273.
- Khanna, M.; Kumar, P.; Choudhary, K.; Kumar, B.; Vijayan, V. K. (November 2008). "Emerging influenza virus: a global threat". Journal of Biosciences. 33 (4): 475–482. doi:10.1007/s12038-008-0066-z. ISSN 0250-5991. PMC 7101584. PMID 19208973.
- "Parasites – Leishmaniasis". CDC. 27 February 2019. Archived from the original on 15 June 2019. Retrieved 19 June 2019.
- "Leishmaniasis". World Health Organization. Archived from the original on 26 July 2019. Retrieved 19 June 2019.
- Clark, Laura. "How Armadillos Can Spread Leprosy". Smithsonianmag.com. Smithsonian.com. Archived from the original on 28 March 2017. Retrieved 16 April 2017.
- Shute, Nancy. "Leprosy From An Armadillo? That's An Unlikely Peccadillo". NPR.org. National Public Radio. Archived from the original on 17 April 2017. Retrieved 16 April 2017.
- Benatar, David (1 September 2007). "The Chickens Come Home to Roost". American Journal of Public Health. 97 (9): 1545–1546. doi:10.2105/AJPH.2006.090431.
- Meerburg BG, Singleton GR, Kijlstra A (2009). "Rodent-borne diseases and their risks for public health". Crit Rev Microbiol. 35 (3): 221–70. doi:10.1080/10408410902989837. PMID 19548807.
- Daszak P, Cunningham AA, Hyatt AD (2001). "Anthropogenic environmental change and the emergence of infectious diseases in wildlife". Acta Tropica. 78 (2): 103–16. doi:10.1016/S0001-706X(00)00179-0. PMID 11230820.
- Field H, Young P, Yob JM, Mills J, Hall L, Mackenzie J (2001). "The natural history of Hendra and Nipah viruses". Microbes and Infection / Institut Pasteur. 3 (4): 307–14. doi:10.1016/S1286-4579(01)01384-3. PMID 11334748.
- Bardosh, K. One Health: Science, Politics and Zoonotic Disease in Africa. 2016. Routledge; London. ISBN 978-1-138-96148-7.
- Crawford, Dorothy (2018). Deadly Companions: How Microbes Shaped our History. Oxford University Press. ISBN 978-0198815440.
- Greger, Michael (2007). "The Human/Animal Interface: Emergence and resurgence of infectious diseases". Critical Reviews in Microbiology. 33 (4): 243–99. doi:10.1080/10408410701647594. PMID 18033595.
- H. Krauss, A. Weber, M. Appel, B. Enders, A. v. Graevenitz, H. D. Isenberg, H. G. Schiefer, W. Slenczka, H. Zahner: Zoonoses. Infectious Diseases Transmissible from Animals to Humans. 3rd Edition, 456 pages. ASM Press. American Society for Microbiology, Washington, D.C., 2003. ISBN 1-55581-236-8.
- Jorge Guerra González (2010), Infection Risk and Limitation of Fundamental Rights by Animal-To-Human Transplantations. EU, Spanish and German Law with Special Consideration of English Law (in German), Hamburg: Verlag Dr. Kovac, ISBN 978-3-8300-4712-4
- David Quammen (2013). Spillover: Animal Infections and the Next Human Pandemic. ISBN 978-0-393-34661-9.
|Wikimedia Commons has media related to Zoonoses.|
|Look up zoonosis in Wiktionary, the free dictionary.|
|Scholia has a topic profile for Zoonosis.|