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{{Short description|Species of spider}}
{{italic title}}
{{Speciesbox
{{Taxobox
| image = Cupiennius_salei,_Juvenile.jpg
| name = ''Cupiennus salei''
| image_caption = ''Cupiennius salei'' juvenile in northern Honduras
| image =
| taxon = Cupiennius salei
| image_caption =
| authority = [[Eugen von Keyserling|Keyserling, 1877]]
| image_width = 250px
| synonyms = ''Ctenus salei'' <small>Keyserling</small><br>''Ancylometes ahrensi'' <small>Lucas</small><br>''Ctenus mordicus'' <small>F.O.P.-Cambridge</small><br> ''Ctenus oculatus'' <small>Simon</small><br>''Cupiennius ahrensi'' <small>Schmidt</small><br>''Phoneutria oculifera'' <small>Karsch</small>
| regnum = [[Animal]]ia
| phylum = [[Arthropod]]a
| classis = [[Arachnid]]a
| ordo = [[Spider|Araneae]]
| subordo = [[Araneomorphae]]
| familia = [[Ctenidae]]
| genus = [[Cupiennius]]
| species = '''''C. salei'''''
| binomial = '''''Cupiennius salei'''''
| binomial_authority = [[Eugen von Keyserling| Keyserling, 1877]]
| subdivision_ranks =
| subdivision_ranks =
| subdivision =
| subdivision =
}}
}}


'''''Cupiennius salei''''', from the genus ''[[Cupiennius]]'' also commonly called the '''Tiger bromeliad spider''', which are large bodied, actively-hunting spiders that are part of the family [[Trechaleidae]].
'''''Cupiennius salei''''', commonly called '''American wandering spider''' or '''tropical wandering spider''' or '''hunting spider''', is a large venomous spider belonging to a group of [[wandering spider]]s found in the tropical rainforest of South and [[Central America]]. However, the species was accidentally introduced in Germany in the early 20th century from banana plantations in Central Americ. In the mid 1950s it was realised that the spider is a good model for biological research because of its large size, inactive behaviour, and easy to breed in laboratory. Starting from 1963 publication on its biological characters, it has became the best studied spider species.<ref name=kuhn2004>{{cite journal|author =Kuhn-Nentwig L, Schaller J, Nentwig W | year= 2004|url= |title=Biochemistry, toxicology and ecology of the venom of the spider ''Cupiennius salei'' (Ctenidae) | journal= Toxicon|volume=43 |issue= 5|pages= 543-553| pmid= 15066412|doi=10.1016/j.toxicon.2004.02.009}}</ref> Further, the spider is now known to produce a complex [[Neurotoxin|neurotoxic]] venom, of which a peptide called CsTx-1 is most potent for paralysing its preys.<ref name=kuhn>{{cite journal| author= Kuhn-Nentwig L, Fedorova IM, Lüscher BP, Kopp LS, Trachsel C, Schaller J, Vu XL, Seebeck T, Streitberger K, Nentwig W, Sigel E, Magazanik LG |title= A venom-derived neurotoxin, CsTx-1, from the spider ''Cupiennius salei'' exhibits cytolytic activities|year = 2012|url= | journal= J Biol Chem | volume= 287 | issue= 30 |page = 25640-25649 |pmid= 22613721 |pmc= PMC3408166 |doi= 10.1074/jbc.M112.339051}}</ref> Its toxin has become one of the best studied among those of venomous spiders. As the spider does not produce web for trapping preys, venom is its only strategy for catching preys for food. It is known to prey on all kinds of insects and small vertebrates.

In the mid-1950s it was realised that the spider is an ideal model for biological research because of their large size, predictable behaviour, and ease of breeding in laboratories. From an initial 1963 publication on its biological characteristics, their venom has also become one of the most studied among spiders, which now known to include complex [[Neurotoxins]], such as [[cupiennins]] and [[CSTX]].<ref name=kuhn2004>{{cite journal|vauthors=Kuhn-Nentwig L, Schaller J, Nentwig W | year= 2004|title=Biochemistry, toxicology and ecology of the venom of the spider ''Cupiennius salei'' (Ctenidae) | journal= Toxicon|volume=43 |issue= 5|pages= 543–553| pmid= 15066412|doi=10.1016/j.toxicon.2004.02.009}}</ref><ref name=mcgregor>{{cite journal |vauthors=McGregor AP, Hilbrant M, Pechmann M, Schwager EE, Prpic NM, Damen WG |year= 2008 |title= ''Cupiennius salei'' and ''Achaearanea tepidariorum'': Spider models for investigating evolution and development |journal= BioEssays |volume=30 |issue= 5 | pages= 487–498 |pmid= 18404731|doi= 10.1002/bies.20744|doi-access= free }}</ref>

As with most spiders which also use venom to subdue prey, the bite of ''Cupiennius salei'' is not medically significant for humans, therefore they are not be considered dangerous. In particular, a peptide called CsTx-1 is highly potent for paralysing their prey which is mostly small insects.<ref name=kuhn>{{cite journal|vauthors=Kuhn-Nentwig L, Fedorova IM, Lüscher BP, Kopp LS, Trachsel C, Schaller J, Vu XL, Seebeck T, Streitberger K, Nentwig W, Sigel E, Magazanik LG |title= A venom-derived neurotoxin, CsTx-1, from the spider ''Cupiennius salei'' exhibits cytolytic activities|year = 2012| journal= J Biol Chem | volume= 287 | issue= 30 |pages = 25640–25649 |pmid= 22613721 |pmc= 3408166 |doi= 10.1074/jbc.M112.339051|doi-access= free}}</ref><ref>{{cite journal|vauthors=Prpic NM, Schoppmeier M, Damen WG | year= 2008|title=The American Wandering Spider ''Cupiennius salei'' | journal=Cold Spring Harbor Protocols |volume= 2008| issue= 10|page= pdb.emo103| pmid=21356686 |doi=10.1101/pdb.emo103}}</ref>

They are visually similar to another group called [[wandering spider]]s (but also see that diverse kinds often get mistakenly called '''banana spiders'''<ref>{{cite journal | vauthors = Vetter RS, Crawford RL, Buckle DJ | year = 2014 | title = Spiders (Araneae) Found in Bananas and Other International Cargo Submitted to North American Arachnologists for Identification | journal = Journal of Medical Entomology | volume = 51 | issue = 6 | pages = 1136–1143 | doi=10.1603/me14037 | pmid = 26309299| s2cid = 27097945 }}</ref>).


==Description==
==Description==


[[File:Cupiennius salei, Adult Female..JPG|thumb|left|''C. salei'' adult female from [[Parque Nacional Cusuco]], Dept. Cortés, Honduras]]
''Cupiennius salei'' is a nocturnal spider, and sit-and-wait predator. They are arboreal in nature, so they live in big trees covered with epiphytes, branches, and moss that constitute rainforest roof. Even though they are not very active, they are much faster than other most arachnids when provoked. As they hunt at night, their vision is useless and they rely on tactile sensation, that is they detect movements or vibrations in their environment. There is distinct sexual dimorphism. Females are relatively larger, measuring up to 3.5 cm of body length and 10 cm of legspan. The dorsal side of the body is chocolate-brown with small, lighter spots on the abdomen and many darker longitudinal stripes, particularly on the carapace. The ventral side is red-orange with thin black vertical stripes under the abdomen. Males measure only up to 2.5 cm long but they have very long and thin legs. Their colours are much lighter. They are distinct with conspicuous palpal bulbs.<ref>{{cite web| author= Francesco Tomasinelli|title= ''Cupiennius salei'' |date= | url= http://www.thebts.co.uk/media/Cupiennius%20salei.pdf |work= The British Tarantula Society Journal |publisher= |accessdate=14 September 2013}}</ref>
''Cupiennius salei'' is a large spider with distinct [[sexual dimorphism]]. The females are relatively larger than the males, measuring up to 3.5&nbsp;cm in body length, with a 10&nbsp;cm legspan. The dorsal side of the body is chocolate-brown with small, lighter spots on the abdomen and many darker longitudinal stripes, particularly on the [[carapace]]. The ventral side is red-orange with thick black central region under the abdomen. Males measure up to 2.5&nbsp;cm long and have very long and thin legs. The males are much lighter in colour than the females. They are distinct, with conspicuous [[Pedipalp|palpal bulbs]].<ref name=FT>{{cite web| author= Francesco Tomasinelli|title= ''Cupiennius salei'' | url= http://www.thebts.co.uk/media/Cupiennius%20salei.pdf |work= The British Tarantula Society Journal |access-date=14 September 2013}}</ref>


<gallery>
==Venom==


File:Cupiennius_salei,_Adult_Female_-_underside.JPG | Adult female underside, from Honduras
''Cupiennius salei'' produces a neurotoxic venom which is composed of a complex mixture of compounds. The venom contains at least 286 compound and 49 novel proteins.<ref>{{cite journal |author=Trachsel C, Siegemund D, Kämpfer U, Kopp LS, Bühr C, Grossmann J, Lüthi C, Cunningham M, Nentwig W, Kuhn-Nentwig L, Schürch S, Schaller J |year= 2012 |title= Multicomponent venom of the spider ''Cupiennius salei'': a bioanalytical investigation applying different strategies |url= |journal= FEBS J|volume= 279 |issue=15 | pages= 2683-2694 |pmid= 22672445 |doi= 10.1111/j.1742-4658.2012.08650.x}}</ref> In addition, there are many low molecular compounds, nine neurotoxic acting peptides ([[CSTX]]), at least eight neurotoxic and cytolytic acting peptides (collectively called cupiennins), highly active [[hyaluronidase]]s.<ref name=kuhn2004/> The most powerful neurotoxin is a peptide called CsTx-1.<ref name=kuhn/> In 2002 a new family of peptides called [[cupiennins]] (cupiennin 1a, cupiennin 1b, cupiennin 1c, cupiennin 1d) was discovered from the venom. These proteins are all composed of 35 amino acid residues, and have high [[Antimicrobial peptides|antimicrobial activities]].<ref>{{cite journal|author = Kuhn-Nentwig L, Muller J, Schaller J, Walz A, Dathe M, Nentwig W| year=2002 |url= |title= Cupiennin 1, a new family of highly basic antimicrobial peptides in the venom of the spider ''Cupiennius salei'' (Ctenidae)| journal= J Biol Chem|volume= 277|issue=13 |pages= 11208-11216| pmid= 11792701|doi=}}</ref> It was subsequently discovered that the cupiennins are broad-spectrum bioactive compounds having [[bactericidal]], [[insecticidal]] and [[haemolytic]] activities.<ref>{{cite journal|author = Kuhn-Nentwig L, Sheynis T, Kolusheva S, Nentwig W, Jelinek R| year= 2013|url= |title= N-terminal aromatic residues closely impact the cytolytic activity of cupiennin 1a, a major spider venom peptide| journal= Toxicon|volume= pii: S0041-0101(13)00089-5|issue= |pages= | pmid=23523532 |doi=10.1016/j.toxicon.2013.03.003}}</ref>


File:Cupiennius salei, Adult Male.JPG | Adult male, resting on leaf, from Honduras
===Venom gland===


File:Cupiennius_salei_second_instar_-_1742-9994-8-15-19f.png | Second [[instar]] of ''C. salei'' (scale bar = 500 μm)
''Cupiennius salei'' produces its venom in a pair of cylindrical pouch-like gland located an the anterior end of the head (prosoma). In adult female each gland measures 1.8 mm in diameter, and 6.5 mm in length. The gland are connected to a small duct through which the venoms are discharged via its fang-like chelicera. Just before entering the chelicera, the duct enlarges to a muscle-invested ampulla and constricts again. This specific arrangement is believed to be the regulatory system on the amount of venom that is released.<ref name=kuhn2004/><ref>{{cite journal |author=Boevé JL, Kuhn-Nentwig L, Keller S, Nentwig W |year= 1995 |title= Quantity and quality of venom released by a spider (''Cupiennius salei'', Ctenidae) |url= |journal= Toxicon |volume= 33|issue=10 | pages= 1347-1357 |pmid= 8599185|doi= 10.1016/0041-0101(95)00066-U}}</ref>
</gallery>

==Range==
''Cupiennius salei'' are found naturally across the northern parts of [[Central America]] and [[Mexico]], while other species in the genus are also found in various parts of [[Central America]] and [[South America]]. More precisely, this species naturally occurs in Southeastern Mexico, Guatemala, Belize, Honduras, Nicaragua and possibly into northwestern Costa Rica. Yet, it has also been introduced to various parts of the world either by accidental imports (such as in the early 20th century from [[banana]] plantations), or deliberately introduced elsewhere as either a laboratory model organism or an exotic pet. However, it has not yet been recorded as established in the wild outside of its native Mexico and Central America.

==Habitat==

Can be found in a wide variety of natural habitats but primarily moister broadleaf subtropical and tropical forests. However, they can also coexist close to human habitats in disturbed areas, where introduced plants such as bananas can provide ideal refuges. In general ''Cupiennius salei'' are largely arboreal, living in trees and bushes, often favoring plants with broad flat leaves and wide joints that provide shelter. Plants such as bananas and many bromeliads appear to provide ideal refuges, and the spiders can often be seen sheltering in the base of such plants where pools of water can provide protection. Although they tend to generally be inactive for long periods of time, often resting on the surfaces of broad leaves, they are capable of running fast when provoked, either to catch prey or to escape from threats.

==Ecology==

''Cupiennius salei'' is largely a [[Nocturnality|nocturnal]], "sit-and-wait" [[ambush predator]] behaving with a strong [[circadian rhythm]]icity. They hide during daylight, mostly under leaves, and emerge at dusk. At sunset, when the light intensity falls to about 15 [[lux]], they leave their refuge but usually remain nearby. They remain there motionless for about 30 mins until it is dark (less than 0.1 lux) then move to the surface of the leaf and lie in-wait for prey, occasionally briefly walking about the leaf. Their activity is greatest during the first three hours of the night. They retreat back to their refuge after six to seven hours.<ref>{{cite journal|author =Seyfarth EA | year= 1980|title=Daily patterns of locomotor activity in a wandering spider | journal= Physiological Entomology|volume= 5|issue=2 |pages= 199–206 |doi=10.1111/j.1365-3032.1980.tb00227.x| s2cid= 85030169}}</ref><ref>{{cite book|author= Friedrich G. Barth|title= A Spider's World: Senses and Behavior |url= https://books.google.com/books?id=NEUXoekpcIoC|year=2002 |pages=21–25 |publisher= Springer-Verlag Berlin Heidelberg |isbn =9783540420460}}</ref>

Under laboratory conditions, females make [[cocoon (silk)|cocoon]]s every three to four weeks, each containing up to 1,500 embryos. The embryo is typically 1.3&nbsp;mm in diameter. The complete [[life cycle (biology)|life cycle]] takes between 9 and 12 months from fertilized egg to mature adult. After hatching from the cocoon, the larvae start feeding. Generally they are fed first with [[Drosophila melanogaster|fruit flies]] and later with [[Cricket (insect)|crickets]]. They become [[sexual maturity|reproductively mature]] after the final [[moulting|moult]].<ref name=mcgregor/>

During courtship, ''Cupiennius salei'' communicate using sex [[pheromone]]s. Females are usually solitary and to attract males, release the pheromones on trees along a silk thread. When a male detects the pheromone, he generates oscillatory movement that creates vibrations on the leaves (an average frequency of 76 [[Hertz|Hz]]). The female responds to this by creating a counter vibration, and in this way guides the receptive male to her exact location.<ref>{{cite journal|vauthors=Rovner JS, Barth FG | year= 1981|title= Vibratory communication through living plants by a tropical wandering spider| journal= Science|volume= 214|issue= 4519|pages= 464–465| pmid= 17730248| doi=10.1126/science.214.4519.464| bibcode= 1981Sci...214..464R| s2cid= 34181897}}</ref> The female pheromone has been identified as (S)-1,1'-dimethyl citrate. The male's pheromone sensory cells are located in tip pore [[Sensillum|sensilla]] and respond to touching with either female silk or the synthetic compound of the pheromone.<ref>{{cite journal|vauthors=Tichy H, Gingl E, Ehn R, Papke M, Schulz S | year=2001 |title= Female sex pheromone of a wandering spider (''Cupiennius salei''): identification and sensory reception| journal= J Comp Physiol A|volume=187 |issue= 1|pages= 75–78| pmid=11318380 | doi=10.1007/s003590000175| s2cid=33812023 }}</ref>

''Cupiennius salei'' have one pair of principal eyes and three pairs of secondary eyes located on the prosoma (the anterior end of the head) and they are [[colour blindness|colour blind]].<ref>{{cite journal |vauthors=Orlando E, Schmid A |year= 2011 |title= Colour blindness of the movement-detecting system of the spider ''Cupiennius salei'' |journal= J Exp Biol |volume=214 |issue= Pt 4 | pages=546–550 |pmid= 21270302 |doi=10.1242/jeb.051672 |s2cid= 712396 |url= https://phaidra.univie.ac.at/o:244556 |doi-access= }}</ref> Being adapted to nocturnality, their visual capability is reduced and they rely on their [[Tactile sensor|tactile sensation]] to [[Seismic communication|detect movements or vibrations]] in their environment.<ref name=FT/>

==Venom==

As ''Cupiennius salei'' does not produce any dedicated prey capture web, their bite effect plays an important part of their hunting strategy alongside grasping with the chelicerae, forelegs and pedipalps. Both ambush and pursuit are key parts of active prey capture. They prey on a wide range of invertebrates especially insects (moths, earwigs, cockroaches, flies, grasshoppers, etc), and small vertebrates such as frogs and lizards.<ref>{{cite journal |author= Nentwig W |title= Non-webbuilding spiders: prey specialists or generalists? |journal= Oecologia |volume= 69|issue=4 | pages= 571–576 |year= 1986 |doi= 10.1007/BF00410365|pmid= 28311618 |bibcode= 1986Oecol..69..571N |s2cid= 5871434 }}</ref> Without any dedicated web for prey capture, they therefore depend entirely on body mechanics and venom for predation.
They produces a neurotoxic venom which is composed of a complex mixture of at least 286 compounds and 49 novel proteins.<ref>{{cite journal |vauthors=Trachsel C, Siegemund D, Kämpfer U, Kopp LS, Bühr C, Grossmann J, Lüthi C, Cunningham M, Nentwig W, Kuhn-Nentwig L, Schürch S, Schaller J |year= 2012 |title= Multicomponent venom of the spider ''Cupiennius salei'': a bioanalytical investigation applying different strategies |journal= FEBS J|volume= 279 |issue=15 | pages= 2683–2694 |pmid= 22672445 |doi= 10.1111/j.1742-4658.2012.08650.x|hdl= 11336/95537 |s2cid= 6989656 |hdl-access= free }}</ref> In addition, there are many low molecular compounds, nine neurotoxic acting peptides (CSTX), at least eight neurotoxic and cytolytic acting peptides (collectively called cupiennins), highly active [[hyaluronidase]]s.<ref name=kuhn2004/> The most powerful neurotoxin is a peptide called CsTx-1.<ref name=kuhn/> In 2002 a new family of peptides called cupiennins (cupiennin 1a, cupiennin 1b, cupiennin 1c, cupiennin 1d) was discovered from the venom, all composed of 35 amino acid residues, and have high [[Antimicrobial peptides|antimicrobial activities]].<ref>{{cite journal|vauthors=Kuhn-Nentwig L, Muller J, Schaller J, Walz A, Dathe M, Nentwig W | year=2002 |title= Cupiennin 1, a new family of highly basic antimicrobial peptides in the venom of the spider ''Cupiennius salei'' (Ctenidae)| journal= J Biol Chem|volume= 277|issue=13 |pages= 11208–11216| pmid= 11792701|doi=10.1074/jbc.M111099200|doi-access= free}}</ref> It was subsequently discovered that the cupiennins are broad-spectrum bioactive compounds having [[bactericidal]], [[insecticide|insecticidal]] and [[haemolytic]] activities.<ref>{{cite journal|vauthors=Kuhn-Nentwig L, Sheynis T, Kolusheva S, Nentwig W, Jelinek R | year= 2013|title= N-terminal aromatic residues closely impact the cytolytic activity of cupiennin 1a, a major spider venom peptide| journal= Toxicon|volume= 75|pages= 177–86| pmid=23523532 |doi=10.1016/j.toxicon.2013.03.003}}</ref>

They produce venom in a pair of cylindrical pouch-like glands located at the anterior end of the head ([[Cephalothorax|prosoma]]). In adult females, each gland measures 1.8&nbsp;mm in diameter and 6.5&nbsp;mm in length. The glands are connected to a small duct through which the venom is discharged via its fang-like [[chelicera]]. Just before entering the chelicera, the duct enlarges to a muscle-invested ampulla and then constricts again. This specific arrangement is believed to be the regulatory system on the amount of venom that is released.<ref name=kuhn2004/><ref>{{cite journal |vauthors=Boevé JL, Kuhn-Nentwig L, Keller S, Nentwig W |year= 1995 |title= Quantity and quality of venom released by a spider (''Cupiennius salei'', Ctenidae) |journal= Toxicon |volume= 33|issue=10 | pages= 1347–1357 |pmid= 8599185|doi= 10.1016/0041-0101(95)00066-U}}</ref>


===Venom optimization===
{{Main|Venom optimization hypothesis}}
{{Main|Venom optimization hypothesis}}


''Cupiennius salei'' belongs to a non-web producing spiders, and therefore, entirely depends on its venom for predation. It is known to prey on a variety of insects including, butterfly, moth, earwig, cockroach, fly, grasshopper, and small vertebrates like frogs and lizards.<ref>{{cite journal |author= Nentwig W |title= Non-webbuilding spiders: prey specialists or generalists? |url= |journal= Oecologia |volume= 69|issue=4 | pages= 571-576 |year= 1986 |pmid= |doi= 10.1007/BF00410365}}</ref> Its venom glands store only about 10 μl crude venom. Refilling of the glands takes 2-3 days and the lethal efficacy of the venom is very low for several days, requiring 8 to 18 days for full effect.<ref>{{cite journal |author= Boevé JL, Kuhn-Nentwig L, Keller S, Nentwig W|year= 1995 |title= Quantity and quality of venom released by a spider (''Cupiennius salei'', Ctenidae) |url= |journal= Toxicon |volume=33 |issue= 10 | pages= 1347-1357 |pmid= 8599185|doi= }}</ref> It was found that the amount of venom released differed for each specific prey. For example, for bigger and stronger insects like beetle, the spider uses the entire amount of its venom; while for small ones, it uses only small amount, thus economising its costly venom.<ref name=wigger>{{cite journal| author= Wigger E, Kuhn-Nentwig L, Nentwig W |title= The venom optimisation hypothesis: a spider injects large venom quantities only into difficult prey types |year =2002 |url= | journal= Toxicon | volume= 40 | issue= 6 |page = 749-752 |pmid= 12175611 |pmc= |doi= 10.1016/S0041-0101(01)00277-X}}</ref><ref name=morgen>{{cite journal| author= Morgenstern D, King GF |title= The venom optimization hypothesis revisited |year =2013 |url= | journal= Toxicon | volume=63 | issue= |page = 120-128 |pmid=23266311 |pmc= |doi= 10.1016/j.toxicon.2012.11.022}}</ref>
The venom glands of ''Cupiennius salei'' store only about 10 μl of crude venom.<ref name=wigger>{{cite journal|vauthors=Wigger E, Kuhn-Nentwig L, Nentwig W |title= The venom optimisation hypothesis: a spider injects large venom quantities only into difficult prey types |year =2002 | journal= Toxicon | volume= 40 | issue= 6 |pages = 749–752 |pmid= 12175611 |doi= 10.1016/S0041-0101(01)00277-X}}</ref> Refilling of the glands takes 2–3 days and the lethal efficacy of the venom is very low for several days after envenomation, requiring 8 to 18 days to regain full effect.<ref>{{cite journal |vauthors=Boevé JL, Kuhn-Nentwig L, Keller S, Nentwig W |year= 1995 |title= Quantity and quality of venom released by a spider (''Cupiennius salei'', Ctenidae) |journal= Toxicon |volume=33 |issue= 10 | pages= 1347–1357 |pmid= 8599185|doi= 10.1016/0041-0101(95)00066-U}}</ref> It has been determined that the amount of venom released differs between types of prey. For larger and stronger insects such as beetles, the spider uses the entire amount of its venom; for smaller prey, it uses only small amounts, thus economising use of the biologically costly venom.<ref name=wigger/><ref name=morgen>{{cite journal|vauthors=Morgenstern D, King GF |title= The venom optimization hypothesis revisited |year =2013 | journal= Toxicon | volume=63 |pages = 120–128 |pmid=23266311 |doi= 10.1016/j.toxicon.2012.11.022}}</ref>

==Etymology==

The species was named after the species initial collector [[Auguste Sallé]], who travelled across Mexico, and parts of Central and South America principally for making entomological collections, sent to Hugh Cuming, but is known for his Ornithology. Some of his Mexican collections are described by Sclater, 1857 plus memoires.{{citation needed|date=June 2023}}

==Taxonomy==



==References==
==References==
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==External links==
==External links==
{{Commons category}}
*[http://arthropodgenomes.org/wiki/Cupiennius_salei i5k Insect and other Arthropod Genome Sequencing Initiative]
{{Wikispecies}}
*[https://web.archive.org/web/20110702083310/http://arthropodgenomes.org/wiki/Cupiennius_salei i5k Insect and other Arthropod Genome Sequencing Initiative]
*[http://www.lifesci.ucsb.edu/undergrad/pop_up/spider/spider.html Photograph]
*[http://www.lifesci.ucsb.edu/undergrad/pop_up/spider/spider.html Photograph]
*[http://fineartamerica.com/featured/hunting-spider-cupiennius-salei-walking-heidi-hans-juergen-koch.html Photograph at fineartamerica]
*[http://fineartamerica.com/featured/hunting-spider-cupiennius-salei-walking-heidi-hans-juergen-koch.html Photograph at fineartamerica]
*[http://eol.org/pages/1199647/names?all=1 Taxonomy at Encyclopedia of Life]
*[http://eol.org/pages/1199647/names?all=1 Taxonomy at Encyclopedia of Life]
*[http://www.uniprot.org/taxonomy/6928 Taxonomy at UniProt]
*[https://www.uniprot.org/taxonomy/6928 Taxonomy at UniProt]
*[http://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=877664 Taxonomic information at ITIS Report]
*[https://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=877664 Taxonomic information at ITIS Report]
*[http://animaldiversity.ummz.umich.edu/accounts/Cupiennius_salei/classification/ Classification at Animal Diversity Web]
*[http://animaldiversity.ummz.umich.edu/accounts/Cupiennius_salei/classification/ Classification at Animal Diversity Web]
*[http://zipcodezoo.com/Animals/C/Cupiennius_salei/ Information at ZipcodeZoo]

{{Taxonbar|from=Q2182469}}


[[Category:Ctenidae]]
[[Category:Trechaleidae]]
[[Category:Venomous animals]]
[[Category:Spiders of Central America]]
[[Category:Spiders of Mexico]]
[[Category:Spiders described in 1877]]

Latest revision as of 16:35, 6 June 2024

Cupiennius salei
Cupiennius salei juvenile in northern Honduras
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Class: Arachnida
Order: Araneae
Infraorder: Araneomorphae
Family: Trechaleidae
Genus: Cupiennius
Species:
C. salei
Binomial name
Cupiennius salei
Synonyms

Ctenus salei Keyserling
Ancylometes ahrensi Lucas
Ctenus mordicus F.O.P.-Cambridge
Ctenus oculatus Simon
Cupiennius ahrensi Schmidt
Phoneutria oculifera Karsch

Cupiennius salei, from the genus Cupiennius also commonly called the Tiger bromeliad spider, which are large bodied, actively-hunting spiders that are part of the family Trechaleidae.

In the mid-1950s it was realised that the spider is an ideal model for biological research because of their large size, predictable behaviour, and ease of breeding in laboratories. From an initial 1963 publication on its biological characteristics, their venom has also become one of the most studied among spiders, which now known to include complex Neurotoxins, such as cupiennins and CSTX.[1][2]

As with most spiders which also use venom to subdue prey, the bite of Cupiennius salei is not medically significant for humans, therefore they are not be considered dangerous. In particular, a peptide called CsTx-1 is highly potent for paralysing their prey which is mostly small insects.[3][4]

They are visually similar to another group called wandering spiders (but also see that diverse kinds often get mistakenly called banana spiders[5]).

Description

[edit]
C. salei adult female from Parque Nacional Cusuco, Dept. Cortés, Honduras

Cupiennius salei is a large spider with distinct sexual dimorphism. The females are relatively larger than the males, measuring up to 3.5 cm in body length, with a 10 cm legspan. The dorsal side of the body is chocolate-brown with small, lighter spots on the abdomen and many darker longitudinal stripes, particularly on the carapace. The ventral side is red-orange with thick black central region under the abdomen. Males measure up to 2.5 cm long and have very long and thin legs. The males are much lighter in colour than the females. They are distinct, with conspicuous palpal bulbs.[6]

Range

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Cupiennius salei are found naturally across the northern parts of Central America and Mexico, while other species in the genus are also found in various parts of Central America and South America. More precisely, this species naturally occurs in Southeastern Mexico, Guatemala, Belize, Honduras, Nicaragua and possibly into northwestern Costa Rica. Yet, it has also been introduced to various parts of the world either by accidental imports (such as in the early 20th century from banana plantations), or deliberately introduced elsewhere as either a laboratory model organism or an exotic pet. However, it has not yet been recorded as established in the wild outside of its native Mexico and Central America.

Habitat

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Can be found in a wide variety of natural habitats but primarily moister broadleaf subtropical and tropical forests. However, they can also coexist close to human habitats in disturbed areas, where introduced plants such as bananas can provide ideal refuges. In general Cupiennius salei are largely arboreal, living in trees and bushes, often favoring plants with broad flat leaves and wide joints that provide shelter. Plants such as bananas and many bromeliads appear to provide ideal refuges, and the spiders can often be seen sheltering in the base of such plants where pools of water can provide protection. Although they tend to generally be inactive for long periods of time, often resting on the surfaces of broad leaves, they are capable of running fast when provoked, either to catch prey or to escape from threats.

Ecology

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Cupiennius salei is largely a nocturnal, "sit-and-wait" ambush predator behaving with a strong circadian rhythmicity. They hide during daylight, mostly under leaves, and emerge at dusk. At sunset, when the light intensity falls to about 15 lux, they leave their refuge but usually remain nearby. They remain there motionless for about 30 mins until it is dark (less than 0.1 lux) then move to the surface of the leaf and lie in-wait for prey, occasionally briefly walking about the leaf. Their activity is greatest during the first three hours of the night. They retreat back to their refuge after six to seven hours.[7][8]

Under laboratory conditions, females make cocoons every three to four weeks, each containing up to 1,500 embryos. The embryo is typically 1.3 mm in diameter. The complete life cycle takes between 9 and 12 months from fertilized egg to mature adult. After hatching from the cocoon, the larvae start feeding. Generally they are fed first with fruit flies and later with crickets. They become reproductively mature after the final moult.[2]

During courtship, Cupiennius salei communicate using sex pheromones. Females are usually solitary and to attract males, release the pheromones on trees along a silk thread. When a male detects the pheromone, he generates oscillatory movement that creates vibrations on the leaves (an average frequency of 76 Hz). The female responds to this by creating a counter vibration, and in this way guides the receptive male to her exact location.[9] The female pheromone has been identified as (S)-1,1'-dimethyl citrate. The male's pheromone sensory cells are located in tip pore sensilla and respond to touching with either female silk or the synthetic compound of the pheromone.[10]

Cupiennius salei have one pair of principal eyes and three pairs of secondary eyes located on the prosoma (the anterior end of the head) and they are colour blind.[11] Being adapted to nocturnality, their visual capability is reduced and they rely on their tactile sensation to detect movements or vibrations in their environment.[6]

Venom

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As Cupiennius salei does not produce any dedicated prey capture web, their bite effect plays an important part of their hunting strategy alongside grasping with the chelicerae, forelegs and pedipalps. Both ambush and pursuit are key parts of active prey capture. They prey on a wide range of invertebrates especially insects (moths, earwigs, cockroaches, flies, grasshoppers, etc), and small vertebrates such as frogs and lizards.[12] Without any dedicated web for prey capture, they therefore depend entirely on body mechanics and venom for predation. They produces a neurotoxic venom which is composed of a complex mixture of at least 286 compounds and 49 novel proteins.[13] In addition, there are many low molecular compounds, nine neurotoxic acting peptides (CSTX), at least eight neurotoxic and cytolytic acting peptides (collectively called cupiennins), highly active hyaluronidases.[1] The most powerful neurotoxin is a peptide called CsTx-1.[3] In 2002 a new family of peptides called cupiennins (cupiennin 1a, cupiennin 1b, cupiennin 1c, cupiennin 1d) was discovered from the venom, all composed of 35 amino acid residues, and have high antimicrobial activities.[14] It was subsequently discovered that the cupiennins are broad-spectrum bioactive compounds having bactericidal, insecticidal and haemolytic activities.[15]

They produce venom in a pair of cylindrical pouch-like glands located at the anterior end of the head (prosoma). In adult females, each gland measures 1.8 mm in diameter and 6.5 mm in length. The glands are connected to a small duct through which the venom is discharged via its fang-like chelicera. Just before entering the chelicera, the duct enlarges to a muscle-invested ampulla and then constricts again. This specific arrangement is believed to be the regulatory system on the amount of venom that is released.[1][16]

The venom glands of Cupiennius salei store only about 10 μl of crude venom.[17] Refilling of the glands takes 2–3 days and the lethal efficacy of the venom is very low for several days after envenomation, requiring 8 to 18 days to regain full effect.[18] It has been determined that the amount of venom released differs between types of prey. For larger and stronger insects such as beetles, the spider uses the entire amount of its venom; for smaller prey, it uses only small amounts, thus economising use of the biologically costly venom.[17][19]

Etymology

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The species was named after the species initial collector Auguste Sallé, who travelled across Mexico, and parts of Central and South America principally for making entomological collections, sent to Hugh Cuming, but is known for his Ornithology. Some of his Mexican collections are described by Sclater, 1857 plus memoires.[citation needed]

Taxonomy

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References

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  1. ^ a b c Kuhn-Nentwig L, Schaller J, Nentwig W (2004). "Biochemistry, toxicology and ecology of the venom of the spider Cupiennius salei (Ctenidae)". Toxicon. 43 (5): 543–553. doi:10.1016/j.toxicon.2004.02.009. PMID 15066412.
  2. ^ a b McGregor AP, Hilbrant M, Pechmann M, Schwager EE, Prpic NM, Damen WG (2008). "Cupiennius salei and Achaearanea tepidariorum: Spider models for investigating evolution and development". BioEssays. 30 (5): 487–498. doi:10.1002/bies.20744. PMID 18404731.
  3. ^ a b Kuhn-Nentwig L, Fedorova IM, Lüscher BP, Kopp LS, Trachsel C, Schaller J, Vu XL, Seebeck T, Streitberger K, Nentwig W, Sigel E, Magazanik LG (2012). "A venom-derived neurotoxin, CsTx-1, from the spider Cupiennius salei exhibits cytolytic activities". J Biol Chem. 287 (30): 25640–25649. doi:10.1074/jbc.M112.339051. PMC 3408166. PMID 22613721.
  4. ^ Prpic NM, Schoppmeier M, Damen WG (2008). "The American Wandering Spider Cupiennius salei". Cold Spring Harbor Protocols. 2008 (10): pdb.emo103. doi:10.1101/pdb.emo103. PMID 21356686.
  5. ^ Vetter RS, Crawford RL, Buckle DJ (2014). "Spiders (Araneae) Found in Bananas and Other International Cargo Submitted to North American Arachnologists for Identification". Journal of Medical Entomology. 51 (6): 1136–1143. doi:10.1603/me14037. PMID 26309299. S2CID 27097945.
  6. ^ a b Francesco Tomasinelli. "Cupiennius salei" (PDF). The British Tarantula Society Journal. Retrieved 14 September 2013.
  7. ^ Seyfarth EA (1980). "Daily patterns of locomotor activity in a wandering spider". Physiological Entomology. 5 (2): 199–206. doi:10.1111/j.1365-3032.1980.tb00227.x. S2CID 85030169.
  8. ^ Friedrich G. Barth (2002). A Spider's World: Senses and Behavior. Springer-Verlag Berlin Heidelberg. pp. 21–25. ISBN 9783540420460.
  9. ^ Rovner JS, Barth FG (1981). "Vibratory communication through living plants by a tropical wandering spider". Science. 214 (4519): 464–465. Bibcode:1981Sci...214..464R. doi:10.1126/science.214.4519.464. PMID 17730248. S2CID 34181897.
  10. ^ Tichy H, Gingl E, Ehn R, Papke M, Schulz S (2001). "Female sex pheromone of a wandering spider (Cupiennius salei): identification and sensory reception". J Comp Physiol A. 187 (1): 75–78. doi:10.1007/s003590000175. PMID 11318380. S2CID 33812023.
  11. ^ Orlando E, Schmid A (2011). "Colour blindness of the movement-detecting system of the spider Cupiennius salei". J Exp Biol. 214 (Pt 4): 546–550. doi:10.1242/jeb.051672. PMID 21270302. S2CID 712396.
  12. ^ Nentwig W (1986). "Non-webbuilding spiders: prey specialists or generalists?". Oecologia. 69 (4): 571–576. Bibcode:1986Oecol..69..571N. doi:10.1007/BF00410365. PMID 28311618. S2CID 5871434.
  13. ^ Trachsel C, Siegemund D, Kämpfer U, Kopp LS, Bühr C, Grossmann J, Lüthi C, Cunningham M, Nentwig W, Kuhn-Nentwig L, Schürch S, Schaller J (2012). "Multicomponent venom of the spider Cupiennius salei: a bioanalytical investigation applying different strategies". FEBS J. 279 (15): 2683–2694. doi:10.1111/j.1742-4658.2012.08650.x. hdl:11336/95537. PMID 22672445. S2CID 6989656.
  14. ^ Kuhn-Nentwig L, Muller J, Schaller J, Walz A, Dathe M, Nentwig W (2002). "Cupiennin 1, a new family of highly basic antimicrobial peptides in the venom of the spider Cupiennius salei (Ctenidae)". J Biol Chem. 277 (13): 11208–11216. doi:10.1074/jbc.M111099200. PMID 11792701.
  15. ^ Kuhn-Nentwig L, Sheynis T, Kolusheva S, Nentwig W, Jelinek R (2013). "N-terminal aromatic residues closely impact the cytolytic activity of cupiennin 1a, a major spider venom peptide". Toxicon. 75: 177–86. doi:10.1016/j.toxicon.2013.03.003. PMID 23523532.
  16. ^ Boevé JL, Kuhn-Nentwig L, Keller S, Nentwig W (1995). "Quantity and quality of venom released by a spider (Cupiennius salei, Ctenidae)". Toxicon. 33 (10): 1347–1357. doi:10.1016/0041-0101(95)00066-U. PMID 8599185.
  17. ^ a b Wigger E, Kuhn-Nentwig L, Nentwig W (2002). "The venom optimisation hypothesis: a spider injects large venom quantities only into difficult prey types". Toxicon. 40 (6): 749–752. doi:10.1016/S0041-0101(01)00277-X. PMID 12175611.
  18. ^ Boevé JL, Kuhn-Nentwig L, Keller S, Nentwig W (1995). "Quantity and quality of venom released by a spider (Cupiennius salei, Ctenidae)". Toxicon. 33 (10): 1347–1357. doi:10.1016/0041-0101(95)00066-U. PMID 8599185.
  19. ^ Morgenstern D, King GF (2013). "The venom optimization hypothesis revisited". Toxicon. 63: 120–128. doi:10.1016/j.toxicon.2012.11.022. PMID 23266311.
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