Tuesday, 29 April 2014

Slow Loris Venom

Slow lorises are the only venomous primates. They do not have venom glands; instead, their saliver mixes with the secretion of their brachial glands on their arms to produce the venomous fluid. Their anterior incisors, or tooth comb, are normally used for feeding and grooming, but are also an effective venom delivery system. When threatened, the slow loris raises its arms above its head, allowing it to move its mouth to its glands to combine fluids if need be. The fluid is either applied to the top of the head for defence, or kept in the mouth to bite the threat (Nekaris, et al., 2013).


Slow loris bites are intensely painful and the wound can retain fluid, fester and heal very slowly. There is also a high chance the wound will scar. Due to the illegal pet trade in Asia, people are often bitten by slow lorises. There have been two cases where owners have almost died because they were bitten by their pet lorises. These people, who were allergic to cats, went into anaphylactic shock because the loris' gland extract shares a high degree of sequence similarity with cat allergens (Nekaris, et al., 2013).

A slow loris (Image 1).

A slow loris' brachial gland and mouth which makes up its venom system (Image 2).

A slow loris in its defensive position (Image 3).

There are many potential reasons why slow lorises use their venom. It was thought that the lorises used venom to subdue their prey; however, the lorises consume their prey very rapidly and do not appear to need venom to paralyse them. Lorises have been seen using their venom to defend against predators. Female lorises will cover their offspring with their fluid before 'parking' them for a few hours whilst they forage. The venom has also repelled cats, sun bears and civets, which are some of the slow loris' predators. Whilst the loris is going through a period of torpor, it decreases its social behaviour. Venom could provide an essential line of defence against ectoparasites during this time, as the loris is not grooming itself. Lorises may also use the venom as a seasonal, offensive weapon during the breeding season. This could explain why venom is only sometimes potent. During the few days which mating can occur, there is intense competition and feeding between males and females (Nekaris, et al., 2013).


One theory about slow lorises is that they evoled to mimic the spectacled cobra. Many animals possess protective colouration that deceives predators, but it is extremely rare in mammals. Multiple researchers have pointed out that lorises have snake-like characteristics in regards to their defensive postures and serpentine gait. Their grunt that they make during aggressive encounters also resembles the hiss of a cobra during threatening displays. Lorises also have facial markings similar to the eyespots and stripes of the spectacled cobra, and their dorsal stripes closely resembles the body of the cobra, particularly when viewed from above. It is thought that this mimicry evolved during a period of co-existance between these two species, at a time when environmental pressures would have favoured its selection. Ten million years ago, when the spectacled cobra and slow loris were moving into Asia, the climate underwent a number of fluctuations, causing a band of drier woodland to run from the Malay Peninsula down to Java, replacing the tropical forests. This change in habitat may have benefited some animals, as it made migrations easier. Being arboreal, slow lorises dislike travelling on the ground, as it increases the risk of predation. The drying out of the land forced the lorises to travel on the ground. They experienced a change in predation pressure, which caused them to develop these mimicking features to put off aerial predators (Nekaris, et al., 2013).

Potential mimicry of specatacled cobras in slow lorises (Image 4).

 References


Nekaris, K., et al. (2013). Mad, bad and dangerous to know: the biochemistry, ecology and evolution of slow loris venom. Journal of Venomous Animals and Toxins including Tropical Diseases , 19 (21).

Images

Image 1 - http://ichef.bbci.co.uk/naturelibrary/images/ic/credit/640x395/s/sl/slow_loris/slow_loris_1.jpg. Accessed on 29/4/14.

Image 2 -https://taxo4254.wikispaces.com/file/view/brachial%20gland%20and%20incisors.jpg/384315024/brachial%20gland%20and%20incisors.jpg. Accessed on 29/4/14.

Image 3 - http://www.nocturama.org/wp-content/uploads/2012/03/Nekaris_c.jpg. Accessed on 29/4/14.

Image 4 - Retrieved from Nekaris, K. et al. (2013) on 29/4/14.


4 comments:

  1. Hi! great post:) I didn't know that there was a mammal with poison glands! cool! What are the poison composed off? How does it affect the body of other animals?

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    1. The loris' venom hasn't evovled to kill or subdue prey, so it doesn't really affect the animal in that sense. What it does is it causes severe pain and the venom prevents/delays the wound from healing - which can cause the animal to die from infection. Most venoms are made up of similar toxins, I'm not sure what particular ones make up the venom. But all of the molecular compounds are proteins and peptides.

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  2. The fact that these animals may be mimicking a snake is really amazing! Are the properties of the venom similar to that of the spectacled cobra? If so, that is really an awesome example of mimicry! How do you think someone could go about testing this theory of mimicry? Great post!

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    1. A lot of species have the same venom compounds, but about 48% of the slow loris's compounds are unique to the species. I don't know if the article was suggesting that the lorises evolved venom to mimic the cobra (the authors seem to think that the venom was evolved for mating competition), I think they were just talking about their physical appearance. The evolution of these stripes and spots could also have been for attracting a mate, but males, females and babies have them, so that's unlikely. I also don't think these stripes are for camouflage, since they are only present in one species of slow loris. If genetic testing was done, and it showed that the striped species was the oldest (suggesting that it was the one that moved over to the area), it could support the mimicry because the species only needed them at that moment and they aren't crucial for survival of all the other lorises.

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