Based on the median lethal dose value in mice, the venom of the inland taipan is by far the most toxic of any snake – much more so than even that of sea snakes[11][12][13] – and it has the most toxic venom of any reptile when tested on human heart cell culture.[14][15][16] The inland taipan is a specialist hunter of mammals, so its venom is specially adapted to kill warm-blooded species.[17] One bite possesses enough lethality to kill more than an estimated 100 fully grown humans.[18] It is an extremely fast and agile snake that can strike instantly with extreme accuracy,[19] often striking multiple times in the same attack,[20] and it envenomates in almost every case.[21]
Although the most venomous and a capable striker, in contrast to the coastal taipan, which many experts cite as an extremely dangerous snake due to its behaviour when it encounters humans,[22][23][24] the inland taipan is usually quite a shy and reclusive snake, with a placid disposition,[25] and prefers to escape from trouble.[26] However, it will defend itself and strike if provoked,[27] mishandled,[28] or prevented from escaping.[29] Because it lives in such remote locations, the inland taipan seldom comes in contact with people;[30] therefore it is not considered the deadliest snake in the world overall, especially in terms of disposition and human deaths per year.[31] The word "fierce" from its alternative name describes its venom, not its temperament.[32]
Taxonomy
To the Aboriginal people from the place now called Goyder Lagoon in north-east South Australia, the inland taipan was called dandarabilla.[8][9]
The inland taipan was first described scientifically in 1879. Two specimens[10] of the fierce snake were discovered at the junction of the Murray and Darling Rivers in northwestern Victoria and described by Frederick McCoy, who called the species Diemenia microlepidota, or small-scaledbrown snake. In 1882, a third specimen was found near Bourke, New South Wales, and William John Macleay described the same snake under the name Diemenia ferox (thinking it was a different species[33]).[5][7] No more specimens were collected until 1972.[8][10] In 1896, George Albert Boulenger classified both as belonging to the same genus, Pseudechis (black snakes), referring to them as Pseudechis microlepidotus and P. ferox.[5]
In 1956, relying only on published descriptions and notes,[33]James Roy Kinghorn regarded ferox as a synonym for microlepidotus and proposed the genusParademansia. In 1963, Eric Worrell considered Parademansia microlepidotus and Oxyuranus scutellatus (coastal taipan, named simply "taipan" in those days) to be the same species.[5]
In September 1972, after receiving an unclassified snake head sample from a grazier from one of the Channel Country stations west of Windorah of the far southwest Queensland, herpetologists Jeanette Covacevich (then working for the Queensland Museum) and Charles Tanner travelled to the site and found 13 living specimens, and rediscovered the lost snake Parademansia microlepidotus.[10] In 1976, Covacevich and Wombey argued that Parademansia microlepidotus belongs to a distinct genus, and this was also the opinion of Harold Cogger.[5]
Covacevich, McDowell, Tanner & Mengden (1981) successfully argued, by comparing anatomical features, chromosomes, and behaviours of the two species then known as Oxyuranus scutellatus (taipan) and Parademansia microlepidota, that they belonged in a single genus. Oxyuranus (1923), the more senior name, was adopted for the combined genus.[34]
Oxyuranus microlepidotus has been the fierce snake's binomial name since the early 1980s.[34][35] The generic name Oxyuranus is from Greek oxys "sharp, needle-like", and ouranos "an arch" (specifically the arch of the heavens) and refers to the needle-like anterior process on the arch of the palate.[36] The specific namemicrolepidotus means "small-scaled" (Latin). Hence the common name, "small-scaled snake".[37] Since Covacevich et al., 1981, determined that the fierce snake (formerly: Parademansia microlepidota) is actually part of the genus Oxyuranus (taipan), another species, Oxyuranus scutellatus, which was previously known simply as the "taipan" (coined from the aboriginal snake's name dhayban), was renamed the "coastal taipan" (or "eastern taipan"), while the now newly classified Oxyuranus microlepidotus became commonly known as the "inland taipan" (or "western taipan").[10]
Two old records exist for localities further south-east, i.e., the junction of the Murray and Darling Rivers in northwestern Victoria (1879) and Bourke, New South Wales (1882), but the species has not been observed in either state since then.[2][7]
Conservation status for the snake was assessed for the IUCN Red List for the first time in July 2017, and in 2018, was designated as least concern, stating, "This species is listed as least concern, as it is widespread and overall, it is not considered to be declining. Although the impact of potential threats requires further research, these are likely to be localized within the snake's range."[1]
The inland taipan's conservation status has also been designated by Australian official sources:[47]
South Australia: (Outback regional status) - least concern[45]
Queensland: Rare (before 2010), near threatened (May 2010-December 2014), least concern (December 2014 – present)[48][49]
New South Wales: Presumed extinct, because it "hasn't been recorded in its habitat...despite surveys in a time frame appropriate to their life cycle and type"[32][50]
Victoria: Regionally extinct, based on the criterion: "As for Extinct but within a defined region (in this case the state of Victoria) that does not encompass the entire geographic range of the taxon. A taxon is presumed Regionally Extinct when exhaustive surveys in known and/or expected habitat, at appropriate ), throughout the region have failed to record an individual. Surveys should be over a time frame appropriate to the taxon’s life cycle and life form."[51] The Australian Museum lists it as presumed extinct.[7]
In captivity
Inland taipans are held in several zoo collections in Australia and overseas including the Adelaide Zoo and Taronga Zoo in Sydney.
The snake is also on display at several locations outside of Australia. In the United States, inland taipans are held at the Reptile Gardens in South Dakota,[57] at Kentucky Reptile Zoo[58] and at Animal World & Snake Farm Zoo in Texas.[59][60][61]
In New South Wales, private ownership of an inland taipan is legal only with the highest class of venomous reptile licence.[71]
Description
The inland taipan is dark tan, ranging from a rich, dark hue to a brownish light green, depending on the season. Its back, sides, and tail may be different shades of brown and grey, with many scales having a wide, blackish edge. These dark-marked scales occur in diagonal rows so that the marks align to form broken chevrons of variable length that are inclined backward and downward. The lowermost lateral scales often have an anterior yellow edge. The dorsal scales are smooth and without keels. The round-snouted head and neck are usually noticeably darker than the body (glossy black in winter; dark brown in summer), the darker colour allowing the snake to heat itself while exposing only a smaller portion of the body at the burrow entrance. The eyes are of average size with blackish-brown irises and without a noticeable coloured rim around the pupils.
The inland taipan averages about 1.8 m (5.9 ft) in total length, although larger specimens can reach total lengths of 2.5 m (8.2 ft).[72] Its fangs are between 3.5 and 6.2 mm long (shorter than those of the coastal taipan).[30]
Seasonal adaptation
Inland taipans adapt to their environments by changing the colour of their skin during seasonal changes. They tend to become lighter during the summer and darker during the winter. This seasonal colour change facilitates thermoregulation, allowing the snake to absorb more radiant heat in the colder months.
Breeding
Inland taipans produce clutches of one to two dozen eggs. The eggs hatch in about two months. They are usually laid in abandoned animal burrows and deep crevices. Reproduction rate depend in part on their diet: if not enough food is available, then the snake reproduces less.
Captive snakes generally live for 10 to 15 years. An inland taipan at the Australia Zoo lived to be over 20 years old.[30]
Feeding
In the wild, the inland taipan consumes only mammals,[73][74] mostly rodents, such as the long-haired rat (Rattus villosissimus), the plains rat (Pseudomys australis), the introduced house mouse (Mus musculus), and other dasyurids. In captivity, it may also eat day-old chicks.[7] Unlike other venomous snakes that strike with a single, accurate bite then retreat while waiting for the prey to die, the fierce snake subdues the prey with a series of rapid, accurate strikes. It is known to deliver up to eight venomous bites in a single attack,[7][32] often snapping its jaws fiercely several times to inflict multiple punctures in the same attack.[20] Its more risky attack strategy entails holding its prey with its body and biting it repeatedly. This injects the extremely toxic venom deep into the prey. The venom acts so rapidly that its prey does not have time to fight back.[75]
Many reptile keepers consider it a placid snake to handle.[7]
Inland taipans are rarely encountered in the wild by the average person because of their remoteness and brief above-ground appearance during the day. So long as a person is not creating much vibration and noise, the inland taipan may not feel alarmed or bothered by a human presence.[78][79][80] However, caution should be exercised and a safe distance maintained as it can inflict a potentially fatal bite. The inland taipan will defend itself and strike if provoked,[27] mishandled,[28] or prevented from escaping.[29] Firstly, but not always, it makes a threat display by raising its forebody in a tight low S-shaped curve with its head facing the threat. Should the person choose to ignore the warning, the inland taipan will strike.[7][29][81] It is an extremely fast and agile snake that can strike instantly with extreme accuracy,[29][82] and it envenoms in almost every case.[21]
Clinical toxicologist, venom researcher, herpetologist, and family physician Scott A. Weinstein[83] et al. have stated in Toxicon journal (October 2017) "There have been 11 previously well-documented envenomings by O. microlepidotus, but only 2 were inflicted by wild snakes. When clinically indicated, prompt provision of adequate antivenom is the cornerstone of managing O. microlepidotus envenoming. Rapid application of pressure-bandage immobilization and efficient retrieval of victims envenomed in remote locales, preferably by medically well-equipped aircraft, probably improves the likelihood of a positive outcome."[84]
Snakebite victims
A case of survival without antivenom was recorded in 1967; on 15 September, a tour guide was bitten while trying to capture a snake for a tour group in the Channel Country. He was conveyed to Broken Hill Hospital and then to Queen Elizabeth Hospital in Adelaide, but was not given antivenom, as he reported he was severely allergic to horse serum and believed he had been bitten by a brown snake. He spent four weeks in the hospital overall; his condition was likened to severe myasthenia gravis. Meanwhile, the snake was sent to Eric Worrell, who confirmed it was a coastal taipan.[85] After its rediscovery in 1972, it was identified as an inland taipan.[10]
In 1984, Australian toxicologist Peter Mirtschin was bitten by a 3-week-old inland taipan. He was the first to be treated with Taipan antivenom.[86]
In September 2012, in the small city of Kurri Kurri, New South Wales, north of Sydney, more than 1000 km away from the snake's natural environment, a teenaged boy was bitten on the finger by an inland taipan. The teenager's rapid self-application of a compression bandage above the wound[87] and the availability and administration of a polyvalent (broad-spectrum) antivenom in the local hospital saved his life. The police worked to find out how the inland taipan got to this part of Australia. The snake was most likely a stolen or illegal pet and the boy had tried to feed it.[88][89]
In December 2013, reptile handler Scott Grant (age 40+), who was conducting a demonstration in front of 300 people at the annual building union's picnic in Portland, Victoria, had just finished showing the crowd an inland taipan and was trying to put it into a bag when it struck him. He got into his utility and tied a bandage around his arm. A few minutes later, however, he was lying on the ground and convulsing. He was flown in a serious condition to Essendon Airport and driven to the Royal Melbourne Hospital, where his condition was stabilised, and over time, he recovered. Only a tiny amount of venom from the inland taipan had entered his body, and the adverse reaction he felt shortly after was an allergic one, presumably due to his past snake bites.[90][91][92][93]
In October 2017, Weinstein et al. published a case report in Toxicon, writing, "The victim was seeking to observe members of an isolated population of this species and was envenomed while attempting to photograph an approximately 1.5 m specimen. He reported feeling “drowsiness” and blurred vision that progressed to ptosis; he later developed dysphagia and dysarthria. The patient was treated with one vial of polyvalent antivenom, which was later followed by an additional two vials of taipan monovalent. He was intubated during retrieval, and recovered after 3 days of intensive care. He had a right ophthalmoplegia that persisted for approximately 1 week post-envenoming.".[84]
According to Rob Bredl, "the Barefoot Bushman", in an isolated area of South Australia, his father, Joe Bredl, was bitten while catching an inland taipan and barely survived. A more recent victim was his friend John Robinson, bitten while cleaning an inland taipan's cage at his reptile display on the Sunshine Coast, Queensland. He weathered the bite without antivenom, but sustained considerable muscle damage, as well as heart damage.[94]
Almost all positively identified inland taipan bite victims have been herpetologists handling the snakes for study or snake handlers, such as people who catch snakes to extract their venom, or keepers in wildlife parks. All were treated successfully with antivenom. No recorded incidents have been fatal since the advent of monovalent (specific) antivenom therapy,[6][30][95] though weeks are needed to recover from such a severe bite.[37][96]
Jeff Leibowitz, an American snake collector, was bitten by an inland taipan in 2024.[97][98] Leibowitz was hospitalized and given anti-venom, and survived.[97]
Venom
The average quantity of venom delivered by this species is 44 mg, and the maximum dose recorded is 110 mg, compared to the Indian cobra (Naja naja) 169 mg/max 610 mg, and the North American eastern diamondback rattlesnake (Crotalus adamanteus) 410 mg/max 848 mg.[99]
The median lethal dose (LD50), subcutaneous (the most applicable to actual bites) for mice is 0.025 mg/kg[6][99] (0.01 mg/kg subcutaneous, in bovine serum albumin).[6][100] Compared to the beaked sea snake (Enhydrina schistosa) 0.164 mg/kg, Indian cobra 0.565 mg/kg, North American eastern diamondback rattlesnake 11.4 mg/kg,[99] the inland taipan has a smaller venom yield than its cousin the coastal taipan yet its venom is almost four times as toxic.[31][101] One bite's worth of venom is enough to kill 100 fully grown men.
Belcher's sea snake (Hydrophis belcheri), which many times is mistakenly called the hook-nosed sea snake (Enhydrina schistosa), has been erroneously popularized as the most venomous snake in the world, due to Ernst and Zug's published book Snakes in Question: The Smithsonian Answer Book from 1996. Bryan Grieg Fry, a prominent venom expert, has clarified the error: "The hook-nosed myth was due to a fundamental error in a book called Snakes in Question. In there, all the toxicity testing results were lumped in together, regardless of the mode of testing (e.g. subcutaneous vs. intramuscular vs. intravenous vs. intraperitoneal). As the mode can influence the relative number, venoms can only be compared within a mode. Otherwise, it's apples and rocks."[13] Belcher's sea snake's actual LD50 (recorded only intramuscularly) is 0.24 mg/kg[103] and 0.155 mg/kg,[102] less lethal than other sea snakes such as the olive sea snake (Aipysurus laevis) 0.09 mg/kg and the most toxic intramuscularly, recorded of the sea snakes – the black-banded robust sea snake (Hydrophis melanosoma) 0.082 mg/kg. The black-banded robust sea snake has also been tested subcutaneously registering at 0.111 mg/kg, which is in line with the coastal taipan and thus more than four times less toxic than the inland taipan's venom. In the LD50 subcutaneous test, it is actually Dubois' sea snake (Aipysurus duboisii) which has the most toxic venom of any of the sea snakes tested, registering at 0.044 mg/kg. This is still nearly half as lethal as the inland taipan's venom.[102]
The biological properties and toxicity of a baby inland taipan's venom are not significantly different from or weaker than those of an adult's.[76][104]
Possibly haemorrhagins[107] – affecting the blood vessels (endothelium)
Hyaluronidase enzyme – increases the rate of absorption of venom[7]
Paradoxin (PDX) appears to be one of the most potent, if not the most potent, beta-neurotoxins yet discovered. Beta-neurotoxins keep nerve endings from liberating the neurotransmitter acetylcholine.[100]
According to researcher Ronelle Welton of James Cook University, most of the contents in the venom have not been characterized and little molecular research has been undertaken on taipan (Oxyuranus) species at large. As of 2005, the amino acid sequences of only seven proteins from inland taipan have been submitted to SWISS-PROT databases.[37]
The first local and general symptoms of a bite are local pain and variable nonspecific effects, which may include headache, nausea, vomiting, abdominal pain, diarrhoea, dizziness, collapse, or convulsions leading to major organ effects - neurotoxicity, coagulopathy, rhabdomyolysis or kidney failure/damage, and finally death.[81][108]
Inland taipan snake venom contains potent presynaptic neurotoxins (toxins in venom that cause paralysis or muscle weakness). Also present are postsynaptic neurotoxins, which are less potent, but more rapidly acting than the presynaptic neurotoxins.[109] Presynaptic neurotoxins disrupt neurotransmitter release from the axon terminal. This takes days to resolve and does not respond to antivenom. Postsynaptic neurotoxins competitively block acetylcholine receptors, but the effect can be reversed by antivenom. Envenoming causes a progressive descending flaccid paralysis; ptosis is usually the first sign, then facial (dysarthria) and bulbar involvement occur, progressing to dyspnea and respiratory paralysis leading to suffocation and peripheral weakness.[37][108] Because it can act so fast, it can kill a person within about 45 minutes. People experiencing effects of the venom within half an hour have been reported.[110][96] The development of general or respiratory paralysis is of paramount concern in that these are often difficult to reverse once established, even with large amounts of antivenom. Prolonged intubation and ventilatory support (perhaps up to a week or longer) may be required. Early diagnosis of neurotoxic symptoms and prompt and adequate dosages of antivenom are critical to avoid these complications.[82]
The venom also contains a potent hemotoxin (procoagulants), a prothrombin activator that leads to the consumption of major coagulation factors, including fibrinogen, leading to interference with blood clotting. This causes defibrination, with nonclottable blood, putting victims at risk of major bleeding from the bite site and can lead to more serious, sometimes fatal, internal haemorrhaging, especially in the brain. Recovering from this takes many hours after venom neutralisation has been achieved with antivenom.[108] Taipan snake procoagulants are among the most powerful snake venom procoagulants known,[109] though mild coagulopathy has also been reported for inland taipan envenomation (Sutherland and Tibballs, 2001).[37]
No nephrotoxins (kidney toxins) have so far been isolated from inland taipan snake venoms, but renal (kidney) impairment or acute kidney failure can occur secondary to severe rhabdomyolysis.[108]
Taipan snake venom does contain myotoxins that cause myolysis (rhabdomyolysis, muscle damage);[109] the urine of bite victims often turns reddish-brown as their muscles release myoglobin, which is passed through the kidneys (myoglobinuria). The kidneys are often badly damaged by filtering so much tissue debris out of the blood, and kidney failure is a common complication in serious cases of significant envenoming.[111]
Until 1955, the only antivenom available for general distribution for Australian snakes was the monovalent (specific) tiger snake (Notechis) antivenom, which gave varying degrees of cross-protection against the bites of most other dangerous Australian snakes. Thereafter followed specific antivenom for other common snakes, among them the coastal taipan, and finally, a polyvalent (broad-spectrum) antivenom for the bites of any unidentified snake from Australia.
The coastal taipan antivenom, known as "taipan antivenom",[112] is effective against the inland taipan venom, as well, but it is not as effective in bite victims of the inland taipan as in those of the coastal taipan.[37]
^ abcdeFohlman, J. (1979). "Comparison of two highly toxic Australian snake venoms: The taipan (Oxyuranus s. scutellatus) and the fierce snake (Parademansia microlepidotus)". Toxicon. 17 (2): 170–2. doi:10.1016/0041-0101(79)90296-4. PMID442105.
^ abcdefWhite, Julian (November 1991). Oxyuranus microlepidotus. "Neurotoxic paralysis usually takes 2-4 hours to become clinically detectable. Coagulopathy however may become well established within 30 minutes of a bite" International Programme on Chemical Safety. Retrieved 8 November 2013.
^ abPearn, John; Winkel, Kenneth D. (December 2006). "Toxinology in Australia's colonial era: A chronology and perspective of human envenomation in 19th century Australia". Toxicon. 48 (7): 726–737. doi:10.1016/j.toxicon.2006.07.027. PMID16996551.
Department of Wildlife Ecology and Conservation. Frequently Asked Questions About Venomous Snakes. "A comparative study found that the snake venom that is most toxic to mice (of the species tested) is that of the Inland Taipan (Oxyuranus microlepidotus), found in Australia". University of Florida. Retrieved 5 November 2013.
Hodgson WC, Dal Belo CA, Rowan EG (2007). "The neuromuscular activity of paradoxin: a presynaptic neurotoxin from the venom of the inland taipan (Oxyuranus microlepidotus)". Neuropharmacology. 52 (5): 1229–36. doi:10.1016/j.neuropharm.2007.01.002. PMID17313963. S2CID19532337. The inland taipan is the world's most venomous snake
Bell, Karen L; Sutherland, Struan K; Hodgson, Wayne C (1998). "Some pharmacological studies of venom from the inland taipan (Oxyuranus microlepidotus)". Toxicon. 36 (1): 63–74. doi:10.1016/S0041-0101(97)00060-3. PMID9604283. The Inland Taipan is believed to have the most toxic venom in the world (Sutherland, 1994)
Journal of Herpetology Vol.17 no.1 (1983) Ecology of Highly Venoumous Snakes: the Australian Genus Oxyuranus. "..the number of mouse LD50 doses per bite is much higher for Oxyuranus microlepidotus (218,000 mice)...than for any other snakes, including sea snakes, investigated to date (Broad, Sutherland and Coulter, 1979)." (page 1) University of Sydney. Retrieved 8 November 2013.
BBC Nature Wildlife. Inland Taipan page. "Australia's inland taipan is considered to be the most venomous snake in the world". BBC. Retrieved 15 October 2013.
Cecilie Beatson (29 November 2011). Animal Species: Inland Taipan "The venom of the Inland Taipan is extremely potent and is rated as the most toxic of all snake venoms in LD50 tests on mice". Australian Museum. Retrieved 14 October 2013.
Fry, Brian site admin (10 April 2005) Most VenomousArchived 2014-10-17 at the Wayback Machine, Question: " ...I was talking to another herpatolagist and he said the hook nosed sea snake was the most venomous of all" Fry Answers: "The hook nosed myth was due to a fundamental error in a book called 'Snakes in question'. In there, all the toxicity testing results were lumped in together, regardless of the mode of testing (e.g. subcutaneous vs. intramuscular vs intravenous vs intraperitoneal). As the mode can influence the relative number, venoms can only be compared within a mode. Otherwise, its apples and rocks." Venomdoc forums. Retrieved 25 February 2015.
kingsnake.com September Guest Chatter (16 September 2006).Q&A with Dr. Bryan Grieg Fry, Deputy Director, Australian Venom Research Unit, University of MelbourneArchived 2012-10-15 at the Wayback Machine. "Q: In retrospect to the LD50 charts, what do you personally feel is the hottest snake, in regards to potency, defensiveness, means of injection, etc.? A: It is the inland taipan (Oxyuranus microlepidotus). Not, as is popularised, any of the sea snakes." connectedbypets.com. Retrieved 14 October 2013.
Garden of Eden Exotics (2 May 2012) Dr. Bryan Grieg Fry – Interview "...The inland taipan (Oxyuranus microlepidotus) is far and away the most toxic, much more so than even sea snakes." nyexotics.blogspot.com. Retrieved 14 October 2013.
^Fry, BryanArchived 2014-04-19 at the Wayback Machine (8 February 2005) Most VenomousArchived 2014-10-17 at the Wayback Machine,"Q;I was wondering what snakes venom is the most potent to humans A:Drop for drop it is the inland taipan (Oxyuranus microlepidotus), which has a venom more toxic than any other land snake or even the sea snakes." venomdoc.com Forums, Retrieved 17 April 2014.
^* Journal of Herpetology Vol.17 no.1 (1983) Ecology of Highly Venoumous Snakes: the Australian Genus Oxyuranus. "..the number of mouse LD50 doses per bite is much higher for Oxyuranus microlepidotus (218,000 mice)...than for any other snakes, including sea snakes, investigated to date (Broad, Sutherland and Coulter, 1979)." (page 1) University of Sydney. Retrieved 8 November 2013.
Martin, Stella (January 2004). Newsletter No. 80. "It has been calculated that there is enough venom in just one bite of an Inland taipan to kill more than 100 men of average size." Environmental Protection Agency (Queensland). Retrieved 18 October 2013.
Clinical Toxinology Resources. Snakebite Protocols – Oxyuranus microlepidotusArchived 10 August 2018 at the Wayback Machine. "Signs and Symptoms of Envenomation:E. Fang Marks: The snake strikes with extraordinary speed and accuracy, often snapping its jaws fiercely several times which can result in multiple punctures in the same attack.", "Special Considerations:A. Multiple Bites: The Inland Taipan is an extremely fast and agile snake which can strike instantly with extreme accuracy. It is possible for a Taipan to deliver more than one bite in a single attack." University of Adelaide. Retrieved 18 October 2013.
Clinical Toxinology Resources. Snakebite Protocols – Oxyuranus microlepidotusArchived 10 August 2018 at the Wayback Machine. "Signs and Symptoms of Envenomation:E. Fang Marks: The snake strikes with extraordinary speed and accuracy, often snapping its jaws fiercely several times which can result in multiple punctures in the same attack.", "Special Considerations:A. Multiple Bites: The Inland Taipan is an extremely fast and agile snake which can strike instantly with extreme accuracy. It is possible for a Taipan to deliver more than one bite in a single attack." University of Adelaide. Retrieved 18 October 2013.
^"Coastal Taipan". Archived from the original on 2 February 2021. Retrieved 21 October 2013.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
^* Cecilie Beatson (29 November 2011). Animal Species: Inland Taipan "The venom of the Inland Taipan is extremely potent and is rated as the most toxic of all snake venoms in LD50 tests on mice". Australian Museum. Retrieved 14 October 2013.
Cecilie Beatson (29 November 2011). Animal Species: Inland Taipan "The venom of the Inland Taipan is extremely potent and is rated as the most toxic of all snake venoms in LD50 tests on mice". Australian Museum. Retrieved 14 October 2013.
National Geographic Channel, (Dangerous Encounters with Brady Barr), video clip. Deadliest Snakes / Inland TaipanArchived 12 April 2017 at the Wayback Machine "in Deadliest Snakes, Brady approaches seven of the world's most dangerous and venomous snakes to determine which snake is the deadliest. He will scientifically investigate each species of snake by grading them on five basic criteria: size, volume and toxicity of venom, personality, and number of human deaths." Reptile Gardens (video host). Retrieved 6 November 2013.
^Rob Bredl website. The Taipans. (archived) barefootbushman.com. Retrieved 15 November 2013.
^Barrett, Robyn; Little, Mark (October–December 2003). "Five years of snake envenoming in far north Queensland". Emergency Medicine. 15 (5–6): 500–510. doi:10.1046/j.1442-2026.2003.00509.x. PMID14992068.
^ abcHodgson WC, Dal Belo CA, Rowan EG (2007). "The neuromuscular activity of paradoxin: a presynaptic neurotoxin from the venom of the inland taipan (Oxyuranus microlepidotus)". Neuropharmacology. 52 (5): 1229–36. doi:10.1016/j.neuropharm.2007.01.002. PMID17313963. S2CID19532337. The inland taipan is the world's most venomous snake
^Tan, NH; Ponnudurai, G; Mirtschin, PJ (1993). "A comparative study of the biological properties of venoms from juvenile and adult inland taipan (Oxyuranus microlepidotus) snake venoms". Toxicon. 31 (3): 363–7. doi:10.1016/0041-0101(93)90155-C. PMID8470140.
^Clarke, Carol; Kuruppu, Sanjaya; Reeve, Shane; Ian Smith, A.; Hodgson, Wayne C. (2006). "Oxylepitoxin-1, a reversible neurotoxin from the venom of the inland taipan (Oxyuranus microlepidotus)". Peptides. 27 (11): 2655–60. doi:10.1016/j.peptides.2006.06.003. PMID16879898. S2CID44544394.
^Kornhauser, Rachelle; Hart, Andrew J.; Reeve, Shane; Smith, A. Ian; Fry, Bryan G.; Hodgson, Wayne C. (2010). "Variations in the pharmacological profile of post-synaptic neurotoxins isolated from the venoms of the Papuan (Oxyuranus scutellatus canni) and coastal (Oxyuranus scutellatus scutellatus) taipans". NeuroToxicology. 31 (2): 239–43. doi:10.1016/j.neuro.2009.12.009. PMID20036687.
Boulenger GA (1896). Catalogue of the Snakes in the British Museum (Natural History). Volume III., Containing the Colubridæ (Opisthoglyphæ and Proteroglyphæ),... London: Trustees of the British Museum. (Taylor and Francis, printers). xiv + 727 pp. + Plates I-XXV. (Pseudechis microlepidotus and P. ferox, p. 332).
McCoy F(1879). Natural History of Victoria. Prodromus of the Zoology of Victoria; or, Figures and Descriptions of the Living Species of All Classes of the Victorian Indigenous Animals. Decade III. London: G. Robertson. (J. Ferres, government printer, Melbourne). 50 pp. + Plates 21–30. (Diemenia microlepidota, new species, pp. 12–13 + Plate 23, Figures 2–3).