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Cyrtarachninae

April 13, 2024

Cyrtarachninae is a subfamily of spiders in the family Araneidae (orb-weaver spiders, araneids). The group has been circumscribed in several different ways. It originated as the group Cyrtarachneae, described by Eugène Simon in 1892. The group was later treated at different ranks: as a tribe, both under Simon's name and as Cyrtarachnini, and as the subfamily Cyrtarachninae. Circumscriptions have varied. The broadest circumscription, Cyrtarachninae sensu lato (s.l.), includes three of Simon's original groups, including the bolas spiders (also placed in the tribe Mastophoreae or Mastophorini, or in the subfamily Mastophorinae). Unlike most araneids, members of the subfamily do not construct orb webs, some not using webs at all to capture prey, some using one or more sticky drops on a single line (a bolas), while others construct webs with few widely spaced non-spiral threads, some triangular. Many have been shown to attract prey by producing analogues of insect sex pheromones, particularly to attract male moths. Adult females may mimic snails, bird droppings and other objects, and so are able to remain exposed during the day time, capturing prey at night.

Cyrtarachninae
Male and female Cyrtarachne ixoides
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Class: Arachnida
Order: Araneae
Infraorder: Araneomorphae
Family: Araneidae
Subfamily: Cyrtarachninae s.l.
Simon, 1892[1]
Tribes and genera

See text.

Description edit

 
Mastophora bisaccata resembles a snail

The abdomen of adult females in many species of Cyrtarachninae s.l. is large relative to the cephalothorax, and partially covers it. Males are often very substantially smaller than females, particularly among bolas spiders.[2] Many species resemble other objects, and are presumed to derive some protection from this resemblance. Some species of Mastophora, such as Mastophora extraordinaria, resemble bird droppings. At rest, Mastophora bisaccata clings to the underside of leaves with its legs drawn in, and then looks like a snail.[3] Cyrtarachne conica also resembles a snail.[4] A unifying characteristic of Cyrtarachninae s.l. is a tendency towards reduction of the web from that of more typical members of the Araneidae.[5] The ability to produce mimics of the sex pheromones of their prey, particularly those of female moths, seems to have evolved in parallel to web reduction.[6]

Taxonomy edit

In 1892, Eugène Simon created the group Cyrtarachneae, including five genera: Paraplectana, Aranoethra, Pasilobus, Cyrtarachne and Poecilopachys.[7] In the same work, he also created the group Glyptocranieae, including the genera Agatostichus (now included in Mastophora), Glyptocranium, Cladomelea and Dicrostichus (now Ordgarius).[8] Glyptocranium is now accepted as a junior synonym of Mastophora, and in 1931, Cândido Mello-Leitão established the alternative name Mastophoreae for the group. Simon placed two genera, Celaenia and Taczanowskia, in the group Celaenieae.[9] These three groups, Cyrtarachneae, Mastophoreae and Celaenieae, were treated as tribes, sometimes under the formal names Cyrtarachnini, Mastophorini and Celaeniini. Emerit in 1978 treated the first two groups as the subfamilies Cyrtarachninae and Mastophorinae (his work did not include genera Simon placed in Celaenieae).[10]

Eberhard in a study of the attack behaviour of araneids in 1980 and in a study of bolas spiders in 1982 showed that Simon's three groups shared similar characteristics and suggested that they should be placed together.[11][12] In 1997, Scharff and Coddington published a phylogenetic analysis of the family Araneidae. They included genera from two of Simon's groups, Cyrtarachneae and Mastophoreae, and supported earlier authors in showing that Cyrtarachneae and Mastophoreae were monophyletic and were sisters. They proposed to recognize this relationship by combining them into the subfamily Cyrtarachninae, noting that "The biology of Cyrtarachninae is fairly coherent. There is a strong tendency towards web reduction, compensated, apparently, by the evolution of aggressive chemical mimicry". They did not include any genera from Simon's Celaenieae.[6] Tanikawa et al. in 2014 included all three of Simon's groups in their broad circumscription of Cyrtarachninae, showing that the resulting taxon was divided into two clades.[13] A wider study of the family Araneidae published in 2020 followed Tanikawa et al. in separating Cyrtarachninae s.l. into two informal sister groups, which they called "mastophorines" and "cyrtarachines". Mastophorines included the genus Caelinia from Simon's Celaenieae.[5]

These alternative treatments are summarized in the following table.

Some alternative treatments
Simon (1892)
groups[14]		 Formal tribe
names 		Emerit (1978)[10] Scharff & Coddington
(1997)[6]		 Tanikawa et al.
(2014)[13]		 Scharff et al.
(2020)[5]
Celaenieae Celaeniini Cyrtarachninae mastophorines
Mastophoreae
(Glyptocranieae)		 Mastophorini Mastophorinae Cyrtarachninae
Cyrtarachneae Cyrtarachnini Cyrtarachninae cyrtarachnines

Genera edit

Genera which have been placed in a broad circumscription of Cyrtarachninae (mostly based on phylogenetic studies) include the following.[6][15][16][13][5] The division into two groups follows Scharff et al. (2020).[5] The mastophorines include Simon's Celaenieae plus Glyptocranieae (= Mastophorae),[9][8] the cyrtarachnines his Cyrtarachneae.[7] (Authorities and distributions below are from the World Spider Catalog.[17])

Webs edit

 
Prey capture devices: 1 = circular spanning-thread web, 2 = triangular spanning-thread web; 3 = bolas

Cyrtarachninae s.l. contains species which construct several kinds of web, differing from the orb webs of other araneids. Some construct circular "spanning-thread webs", which have a small number of radii and widely spaced sticky threads that do not form spirals. Others construct triangular spanning-thread webs. These are formed in the same way as full spanning-thread webs, but have only three radii so that they appear triangular. The spanning threads in both circular and triangular spanning-thread webs are attached in such a way that when they catch a prey item (usually a moth), the thread detaches at one end and the prey ends up dangling until hauled up by the spider.[13][2] Bolas spiders do not spin webs at all, adult females catching their prey at night on apparently single threads with one or more sticky balls which they swing towards their prey. Finally, some species, as well as male and juvenile female bolas spiders, capture their prey without a web, using their outstretched legs.[13]

One hypothesis was that the evolution of the web types involved successive reduction: spanning-thread webs → triangular webs → bolas → no web.[6][13] However, the 2014 molecular phylogenetic study by Tanikawa et al. showed that this hypothesis did not fit with the evolutionary relationships they derived, relationships which were confirmed by Scharff et al. in 2020.[5] The cladogram below, based on Tanikawa et al. (2020), shows the apparent relationships among groups capturing prey in different ways. Triangular webs are shown to have evolved from within the group that uses spanning-thread webs. However, completely webless species and those using bolas form a separate monophyletic group.[13][5]

Cyrtarachninae s.l.
mastophorines

webless spiders

bolas spiders

cyrtarachnines

spanning-thread web spiders (paraphyletic)

triangular web spiders

References edit

  1. ^ Framenau, Volker W.; Scharff, Nikolaj & Harvey, Mark S. (2010), "Systematics of the Australian orb-weaving spider genus Demadiana with comments on the generic classification of the Arkyinae (Araneae : Araneidae)", Invertebrate Systematics, 24 (2): 139–171, doi:10.1071/IS10005, p. 150
  2. ^ a b Yeargan, K.V. (1994). "Biology of Bolas Spiders". Annual Review of Entomology. 39: 81–99. doi:10.1146/annurev.en.39.010194.000501.
  3. ^ Gertsch, W.J. (1955). "The North American bolas spiders of the genera Mastophora and Agatostichus". Bulletin of the American Museum of Natural History. 106: 221–254. hdl:2246/1022. Retrieved 2021-01-16.
  4. ^ Holl, A. (2013), "Coloration and Chromes", in Nentwig, W. (ed.), Ecophysiology of Spiders, Berlin, etc.: Springer-Verlag, pp. 16–25, ISBN 978-3-642-71554-9, page 25
  5. ^ a b c d e f g Scharff, N.; Coddington, J.A.; Blackledge, Todd A.; Agnarsson, Ingi; Framenau, Volker W.; Szűts, Tamás; Hayashii, Cheryl Y. & Dimitrov, Dimitar (2020), "Phylogeny of the orb‐weaving spider family Araneidae (Araneae: Araneoidea)", Cladistics, 36: 1–21, doi:10.1111/cla.12382, hdl:1956/22200, PMID 34618955
  6. ^ a b c d e Scharff, N. & Coddington, J.A. (1997), "A phylogenetic analysis of the orb-weaving spider family Araneidae (Arachnida, Araneae)", Zoological Journal of the Linnean Society, 120 (4): 355–434, doi:10.1111/j.1096-3642.1997.tb01281.x
  7. ^ a b Simon (1892), p. 876ff.
  8. ^ a b Simon (1892), p. 881ff.
  9. ^ a b Simon (1892), p. 895ff.
  10. ^ a b Emerit, M. (1978), "Deux sous families d'Araneidae (les Cyrtarachninae et Mastophorinae) nouvelles pour Madagascar. A propos de prétendues lacunes faunistiques de la région malgache.", Symposia of the Zoological Society of London (in French), 42: 359–365
  11. ^ Eberhard, W.G. (1980), "The natural history and behaviour of the bolas spider Mastophora dizzydeani sp.n. (Araneidae)" (PDF), Psyche: A Journal of Entomology, 89 (3–4): 143–169, doi:10.1155/1980/81062, retrieved 2021-01-20
  12. ^ Eberhard, W.O. (1982), "Behavioral characteristics for the higher classification of orb-weaving spiders" (PDF), Evolution, 36 (5): 1067–1095, doi:10.1111/j.1558-5646.1982.tb05475.x, JSTOR 2408084, PMID 28567834, retrieved 2021-01-20
  13. ^ a b c d e f g Tanikawa, Akio; Shinkai, Akira & Miyashita, Tadashi (2014), "Molecular Phylogeny of Moth-Specialized Spider Sub-Family Cyrtarachninae, which Includes Bolas Spiders", Zoological Science, 31 (11): 716–720, doi:10.2108/zs140034, PMID 25366153
  14. ^ Simon, E. (1892), Histoire naturelle des araignées, vol. 1 (2nd ed.), Paris: Roret, doi:10.5962/bhl.title.51973
  15. ^ Levi, H.W. (2003), "The bolas spiders of the genus Mastophora (Araneae: Araneidae)", Bulletin of the Museum of Comparative Zoology, 157: 309–382
  16. ^ Scharff, Nikolaj & Hormiga, Gustavo (2012). "First evidence of aggressive chemical mimicry in the Malagasy orb weaving spider Exechocentrus lancearius Simon, 1889 (Arachnida: Araneae: Araneidae) and description of a second species in the genus" (PDF). Arthropod Systematics & Phylogeny. 70 (2): 107–118. Retrieved 2021-01-17.
  17. ^ "Search". World Spider Catalog. Natural History Museum Bern. Retrieved 2021-01-16.

April 13, 2024
cyrtarachninae, subfamily, spiders, family, araneidae, weaver, spiders, araneids, group, been, circumscribed, several, different, ways, originated, group, cyrtarachneae, described, eugène, simon, 1892, group, later, treated, different, ranks, tribe, both, unde. Cyrtarachninae is a subfamily of spiders in the family Araneidae orb weaver spiders araneids The group has been circumscribed in several different ways It originated as the group Cyrtarachneae described by Eugene Simon in 1892 The group was later treated at different ranks as a tribe both under Simon s name and as Cyrtarachnini and as the subfamily Cyrtarachninae Circumscriptions have varied The broadest circumscription Cyrtarachninae sensu lato s l includes three of Simon s original groups including the bolas spiders also placed in the tribe Mastophoreae or Mastophorini or in the subfamily Mastophorinae Unlike most araneids members of the subfamily do not construct orb webs some not using webs at all to capture prey some using one or more sticky drops on a single line a bolas while others construct webs with few widely spaced non spiral threads some triangular Many have been shown to attract prey by producing analogues of insect sex pheromones particularly to attract male moths Adult females may mimic snails bird droppings and other objects and so are able to remain exposed during the day time capturing prey at night CyrtarachninaeMale and female Cyrtarachne ixoidesScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ArthropodaSubphylum ChelicerataClass ArachnidaOrder AraneaeInfraorder AraneomorphaeFamily AraneidaeSubfamily Cyrtarachninae s l Simon 1892 1 Tribes and generaSee text Contents 1 Description 2 Taxonomy 2 1 Genera 3 Webs 4 ReferencesDescription edit nbsp Mastophora bisaccata resembles a snailThe abdomen of adult females in many species of Cyrtarachninae s l is large relative to the cephalothorax and partially covers it Males are often very substantially smaller than females particularly among bolas spiders 2 Many species resemble other objects and are presumed to derive some protection from this resemblance Some species of Mastophora such as Mastophora extraordinaria resemble bird droppings At rest Mastophora bisaccata clings to the underside of leaves with its legs drawn in and then looks like a snail 3 Cyrtarachne conica also resembles a snail 4 A unifying characteristic of Cyrtarachninae s l is a tendency towards reduction of the web from that of more typical members of the Araneidae 5 The ability to produce mimics of the sex pheromones of their prey particularly those of female moths seems to have evolved in parallel to web reduction 6 Taxonomy editIn 1892 Eugene Simon created the group Cyrtarachneae including five genera Paraplectana Aranoethra Pasilobus Cyrtarachne and Poecilopachys 7 In the same work he also created the group Glyptocranieae including the genera Agatostichus now included in Mastophora Glyptocranium Cladomelea and Dicrostichus now Ordgarius 8 Glyptocranium is now accepted as a junior synonym of Mastophora and in 1931 Candido Mello Leitao established the alternative name Mastophoreae for the group Simon placed two genera Celaenia and Taczanowskia in the group Celaenieae 9 These three groups Cyrtarachneae Mastophoreae and Celaenieae were treated as tribes sometimes under the formal names Cyrtarachnini Mastophorini and Celaeniini Emerit in 1978 treated the first two groups as the subfamilies Cyrtarachninae and Mastophorinae his work did not include genera Simon placed in Celaenieae 10 Eberhard in a study of the attack behaviour of araneids in 1980 and in a study of bolas spiders in 1982 showed that Simon s three groups shared similar characteristics and suggested that they should be placed together 11 12 In 1997 Scharff and Coddington published a phylogenetic analysis of the family Araneidae They included genera from two of Simon s groups Cyrtarachneae and Mastophoreae and supported earlier authors in showing that Cyrtarachneae and Mastophoreae were monophyletic and were sisters They proposed to recognize this relationship by combining them into the subfamily Cyrtarachninae noting that The biology of Cyrtarachninae is fairly coherent There is a strong tendency towards web reduction compensated apparently by the evolution of aggressive chemical mimicry They did not include any genera from Simon s Celaenieae 6 Tanikawa et al in 2014 included all three of Simon s groups in their broad circumscription of Cyrtarachninae showing that the resulting taxon was divided into two clades 13 A wider study of the family Araneidae published in 2020 followed Tanikawa et al in separating Cyrtarachninae s l into two informal sister groups which they called mastophorines and cyrtarachines Mastophorines included the genus Caelinia from Simon s Celaenieae 5 These alternative treatments are summarized in the following table Some alternative treatments Simon 1892 groups 14 Formal tribenames Emerit 1978 10 Scharff amp Coddington 1997 6 Tanikawa et al 2014 13 Scharff et al 2020 5 Celaenieae Celaeniini Cyrtarachninae mastophorinesMastophoreae Glyptocranieae Mastophorini Mastophorinae CyrtarachninaeCyrtarachneae Cyrtarachnini Cyrtarachninae cyrtarachninesGenera edit Genera which have been placed in a broad circumscription of Cyrtarachninae mostly based on phylogenetic studies include the following 6 15 16 13 5 The division into two groups follows Scharff et al 2020 5 The mastophorines include Simon s Celaenieae plus Glyptocranieae Mastophorae 9 8 the cyrtarachnines his Cyrtarachneae 7 Authorities and distributions below are from the World Spider Catalog 17 mastophorines webless Celaenia Thorell 1868 Australia and New Zealand Taczanowskia Keyserling 1879 South America and Mexico bolas Cladomelea Simon 1895 Central and South Africa Exechocentrus Simon 1889 Madagascar Mastophora Holmberg 1876 North and South America Ordgarius Keyserling 1886 India to Japan south to Australia cyrtarachnines spanning thread web Aranoethra Butler 1873 West and Central Africa Cyrtarachne Thorell 1868 Mediterranean Basin and Africa to Japan and Australia Paraplectana Brito Capello 1867 Africa to Taiwan Poecilopachys Simon 1895 Australia and the Pacific triangular web Pasilobus Simon 1895 Africa to Japan and the Solomon IslandsExample species nbsp Cladomelea debeeri nbsp Mastophora phrynosoma nbsp Cyrtarachne inaequalis nbsp Paraplectana tsushimensis nbsp Pasilobus hupingensis nbsp Poecilopachys australasiaWebs edit nbsp Prey capture devices 1 circular spanning thread web 2 triangular spanning thread web 3 bolasCyrtarachninae s l contains species which construct several kinds of web differing from the orb webs of other araneids Some construct circular spanning thread webs which have a small number of radii and widely spaced sticky threads that do not form spirals Others construct triangular spanning thread webs These are formed in the same way as full spanning thread webs but have only three radii so that they appear triangular The spanning threads in both circular and triangular spanning thread webs are attached in such a way that when they catch a prey item usually a moth the thread detaches at one end and the prey ends up dangling until hauled up by the spider 13 2 Bolas spiders do not spin webs at all adult females catching their prey at night on apparently single threads with one or more sticky balls which they swing towards their prey Finally some species as well as male and juvenile female bolas spiders capture their prey without a web using their outstretched legs 13 One hypothesis was that the evolution of the web types involved successive reduction spanning thread webs triangular webs bolas no web 6 13 However the 2014 molecular phylogenetic study by Tanikawa et al showed that this hypothesis did not fit with the evolutionary relationships they derived relationships which were confirmed by Scharff et al in 2020 5 The cladogram below based on Tanikawa et al 2020 shows the apparent relationships among groups capturing prey in different ways Triangular webs are shown to have evolved from within the group that uses spanning thread webs However completely webless species and those using bolas form a separate monophyletic group 13 5 Cyrtarachninae s l mastophorines webless spidersbolas spiderscyrtarachnines spanning thread web spiders paraphyletic triangular web spidersReferences edit Framenau Volker W Scharff Nikolaj amp Harvey Mark S 2010 Systematics of the Australian orb weaving spider genus Demadiana with comments on the generic classification of the Arkyinae Araneae Araneidae Invertebrate Systematics 24 2 139 171 doi 10 1071 IS10005 p 150 a b Yeargan K V 1994 Biology of Bolas Spiders Annual Review of Entomology 39 81 99 doi 10 1146 annurev en 39 010194 000501 Gertsch W J 1955 The North American bolas spiders of the genera Mastophora and Agatostichus Bulletin of the American Museum of Natural History 106 221 254 hdl 2246 1022 Retrieved 2021 01 16 Holl A 2013 Coloration and Chromes in Nentwig W ed Ecophysiology of Spiders Berlin etc Springer Verlag pp 16 25 ISBN 978 3 642 71554 9 page 25 a b c d e f g Scharff N Coddington J A Blackledge Todd A Agnarsson Ingi Framenau Volker W Szuts Tamas Hayashii Cheryl Y amp Dimitrov Dimitar 2020 Phylogeny of the orb weaving spider family Araneidae Araneae Araneoidea Cladistics 36 1 21 doi 10 1111 cla 12382 hdl 1956 22200 PMID 34618955 a b c d e Scharff N amp Coddington J A 1997 A phylogenetic analysis of the orb weaving spider family Araneidae Arachnida Araneae Zoological Journal of the Linnean Society 120 4 355 434 doi 10 1111 j 1096 3642 1997 tb01281 x a b Simon 1892 p 876ff a b Simon 1892 p 881ff a b Simon 1892 p 895ff a b Emerit M 1978 Deux sous families d Araneidae les Cyrtarachninae et Mastophorinae nouvelles pour Madagascar A propos de pretendues lacunes faunistiques de la region malgache Symposia of the Zoological Society of London in French 42 359 365 Eberhard W G 1980 The natural history and behaviour of the bolas spider Mastophora dizzydeani sp n Araneidae PDF Psyche A Journal of Entomology 89 3 4 143 169 doi 10 1155 1980 81062 retrieved 2021 01 20 Eberhard W O 1982 Behavioral characteristics for the higher classification of orb weaving spiders PDF Evolution 36 5 1067 1095 doi 10 1111 j 1558 5646 1982 tb05475 x JSTOR 2408084 PMID 28567834 retrieved 2021 01 20 a b c d e f g Tanikawa Akio Shinkai Akira amp Miyashita Tadashi 2014 Molecular Phylogeny of Moth Specialized Spider Sub Family Cyrtarachninae which Includes Bolas Spiders Zoological Science 31 11 716 720 doi 10 2108 zs140034 PMID 25366153 Simon E 1892 Histoire naturelle des araignees vol 1 2nd ed Paris Roret doi 10 5962 bhl title 51973 Levi H W 2003 The bolas spiders of the genus Mastophora Araneae Araneidae Bulletin of the Museum of Comparative Zoology 157 309 382 Scharff Nikolaj amp Hormiga Gustavo 2012 First evidence of aggressive chemical mimicry in the Malagasy orb weaving spider Exechocentrus lancearius Simon 1889 Arachnida Araneae Araneidae and description of a second species in the genus PDF Arthropod Systematics amp Phylogeny 70 2 107 118 Retrieved 2021 01 17 Search World Spider Catalog Natural History Museum Bern Retrieved 2021 01 16 Retrieved from https en wikipedia org w index php title Cyrtarachninae amp oldid 1163318017, wikipedia, wiki, book, books, library,

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