Dendrocnide moroides, commonly known in Australia as the stinging tree, stinging bush, or gympie-gympie, is a plant in the nettle family Urticaceae found in rainforest areas of Malesia and Australia.[3] It is notorious for its extremely painful and long-lasting sting. The common name gympie-gympie comes from the language of the indigenous Gubbi Gubbi people of south-eastern Queensland.
Description
D. moroides is a straggly perennial shrub, usually flowering and fruiting when less than 3 m (10 ft) tall, but it may reach up to 10 m (33 ft) in height. It is superficially similar to Dendrocnide cordifolia, with the most obvious difference being the point of attachment of the petiole to the leaf blade—where D. moroides is peltate, i.e. the stalk attaches to the underside of the leaf and not at the edge, D. cordifolia is cordate. The stem, branches, petioles, leaves, and fruits are all covered in stinging hairs.[3][4]
It has large, heart-shaped, simple leaves about 12–22 cm (4+1⁄2–8+1⁄2 in) long and 11–18 cm (4+1⁄2–7 in) wide with toothed margins, a pointed tip and a cordate to obtuse base shape. There are six to eight pairs of lateral veins either side of the midrib. The petiole (leaf stem) is quite long, about as long as the leaf blade itself, with stipules about 1–2 cm (1⁄2–3⁄4 in) long.[3][5]
The inflorescence is monoecious (rarely dioecious),[6] and is borne in the leaf axils. It is up to 15 cm (6 in) long, often paired.[5] It carries both male and female flowers which are quite small, the perianth measuring less than 1 mm (0.04 in) across. Flowering occurs throughout the year, but mostly in summer.[3][5]
The fruit of this species is an achene (a tiny seed-like fruit), produced in number in a globular structure which is pink to light-purple in colour and has an appearance similar to a mulberry. Each achene, measuring just 2 mm (0.08 in) long, is contained in a small fleshy sac which derives from the swollen pedicel.[3][5] As with the rest of this plant, the infructescences are also covered in stinging hairs, but are edible if the hairs are removed.[7][8][9][10]
Taxonomy
The type specimen for this species was collected in 1819 by Allan Cunningham near the Endeavour River,[3] and was first described in 1857 by Hugh Algernon Weddell as Laportea moroides in his work Monographie de la Famille des Urticées, published in the journal Archives du Muséum d'Histoire Naturelle.[11] The current binomial combination was published by Wee-Lek Chew in The Gardens' Bulletin Singapore in 1966.[12][13]
Etymology
The genus name Dendrocnide has been constructed on the Ancient Greek δένδρον (déndron), meaning "tree", and κνίδος (knídos), meaning "stinging needle". The species epithetmoroides is created from the genus name for mulberries Morus, combined with the Greek suffix -oides, meaning "resembling", referring to the mulberry-like infructescence.[5][14] The binomial name may be translated as "mulberry-like stinging tree".[15]
Distribution and habitat
The species occurs in and near rainforest, from Cape York Peninsula south to northern New South Wales in Australia and also occurs in the Moluccas and Indonesia.[3][5] It is an early coloniser in rainforest gaps, such as alongside water courses and roads, around tree falls, and in man-made clearings.[16][17] The seeds germinate in full sunlight after soil disturbance. Although common in Queensland, it is rare in the southernmost part of its range and is listed as an endangered species in New South Wales.[18][19]
D. moroides is notorious for its extremely painful sting which may leave victims suffering for weeks or even months. It is reputed to be the most venomous plant in Australia, if not the world.[10][16][17] After contact with the plant the victim will feel an immediate severe burning and stinging at the site of contact, which then intensifies further over the next 20 to 30 minutes and will last from hours to several days before subsiding.[3][17][20] During this time the victim may get little sleep because of the intensity of the pain.[3] In severe cases, it may cause urticaria (hives), and the lymph glands under the arms may swell and become painful,[3][17][20] and there have been rare cases of hospitalization.[15][16][17][21]
Mechanism
Very fine, brittle hairs called trichomes are loaded with toxins and cover the entire plant; even the slightest touch will embed them in the skin. Electron micrograph images[20][22] show that they are similar to a hypodermic needle in being very sharp-pointed and hollow.[23][24] Additionally, it has been shown that there is a structurally weak point near the tip of the hair, which acts as a pre-set fracture line.[9][24][25] When it enters the skin the hair fractures at this point, allowing the contents of the trichome to be injected into the victim's tissues.[17][20][24][26]
The trichomes stay in the skin for up to a year, and release the toxin cocktail into the body during triggering events such as touching the affected area, contact with water, or temperature changes.[9][17][23] Ernie Rider, a conservation officer with the Queensland Parks and Wildlife Service,[16] was slapped in the face and torso with the foliage in 1963, and said:
For two or three days the pain was almost unbearable; I couldn't work or sleep... I remember it feeling like there were giant hands trying to squash my chest... then it was pretty bad pain for another fortnight or so. The stinging persisted for two years and recurred every time I had a cold shower...There's nothing to rival it; it's ten times worse than anything else.[16]
Physical contact with Dendrocnide moroides is not the only way that it can cause harm to a person—the trichomes are constantly being shed from the plant and may be suspended in the air within its vicinity. They can then be inhaled, which may lead to respiratory complications if a person spends time in close proximity to the plant.[10][20] The Australian entomologist and ecologistMarina Hurley wrote her doctorate studying two Dendrocnide species of the Atherton Tablelands, west of Cairns, namely Dendrocnide moroides and Dendrocnide cordifolia,[20] and was exposed to the airborne hairs over a long period of time. She suffered sneezing fits, watery eyes and nose, and eventually developed an allergy that required medical attention.[16][17]W. V. MacFarlane, who was a Professorial Fellow in Physiology at the John Curtin School of Medical Research at the Australian National University, observed the effects of inhaling the trichomes, and he reported:
The plucking of hairs from the leaves invariably produces sneezing in the operator within 10 or 15 minutes. During early attempts to separate stinging hairs from dried leaves, dust and presumably some hairs were inhaled. Initially they produced sneezing, but within three hours there was diffuse nasopharyngeal pain, and after 26 hours a sensation of an acute sore throat like tonsillitis was experienced.[26]
Pharmacology
The cause of the intense pain has been the subject of scientific research since European explorers first encountered the plant in the mid-19th century.[9] While it is known that a cocktail of toxins is contained within the trichomes, its exact nature was not fully understood as of 2018[update].[20][25][27] It is known that the active constituents are very stable, since dead leaves found on the forest floor and even decades-old laboratory specimens can still inflict the sting.[17][20][26]
Early studies suggested that a variety of compounds, such as histamine, acetylcholine, 5-hydroxytryptamine and formic acid, could be responsible; however none of these has been proven to produce a similar intensity or duration of pain to those exhibited by the sting from the plant.[9][15][25][27] Around 1970 a new compound was identified and given the name moroidin. It was for a time thought possibly to be the causative agent; however later research showed that it did not cause the same effects as a sting from the plant.[10][15][23]
In 2020 a previously unknown family of disulfide-rich peptides was identified by a group of researchers and given the name gympietides.[15][22][23] These compounds were shown to be similar to some toxins found in cone snails, and produce significant pain responses in laboratory tests. Moreover, their complex structure – resembling the inhibitor cystine knot – made them highly stable, explaining how the sting lasts for such a long time.[15][22][23][28]
There has been anecdotal evidence of some plants having no sting but still possessing the hairs, suggesting a chemical change to the toxin.[27]
Remedies
A commonly recommended first-aid treatment is to use depilatory wax or sticky tape to remove the hairs.[29][30] The Kuku Yalanji people of Mossman Gorge used a method that was essentially similar, making a juice from the fruits or roots of the plant and applying it to the affected area, before scraping it off with a mussel shell once it had become sticky.[31] Mechanical removal is not always successful however, as the hairs are so tiny that the skin will often close over them, making removal impossible.[10][17]
Various other treatments, mostly ineffectual, have been tried over time. They include bathing the affected area in hot water, applying papaya ointment, xylocaine or lignocaine cream, and even swabbing with dilute hydrochloric acid. All of these have, at best, a temporary effect.
Anecdotal stories
Anecdotes of encounters with gympie-gympie are numerous, and range in accuracy, such as one which involves using the leaves as toilet paper (the user would have been stung when they first picked up the leaf, and unlikely to have proceeded to use it in the intended manner).[17] Nevertheless, some have been documented, such as horses having to be rested after being stung, or even becoming violent and having to be shot.[9] Only one report of a human fatality attributed to any Dendrocnide species (in this case D. cordata) is confirmed, which occurred in New Guinea in 1922.[17][26]
^ abcdefgChew, W.-L.; Kodela, P.G. "Dendrocnide moroides". Flora of Australia. Australian Biological Resources Study, Department of Agriculture, Water and the Environment: Canberra. Retrieved 12 June 2021.
^Cooper, Wendy; Cooper, William (1994). Fruits of the Rain Forest - A Guide to Fruits in Australian Tropical Rain Forests. GEO Productions. p. 88. ISBN0-646-19803-3.
^Roberts, John; Fisher, Colin (CJ); Gibson, Roy (1995). A Guide to Traditional Aboriginal Rainforest Plant Use. Mossman, Queensland: Bamanga Bubu Ngadimumku Inc. p. 31. ISBN0-646-22991-5.