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Superregnum: Eukaryota
Cladus: Unikonta
Cladus: Opisthokonta
Cladus: Holozoa
Regnum: Animalia
Subregnum: Eumetazoa
Cladus: Bilateria
Cladus: Nephrozoa
Cladus: Protostomia
Cladus: Ecdysozoa
Cladus: Panarthropoda
Phylum: Arthropoda
Subphylum: Chelicerata
Classis: Arachnida
Ordo: Araneae
Subordo: Opisthothelae
Infraordo: Araneomorphae
Taxon: Neocribellatae
Series: Entelegynae
Superfamilia: Lycosoidea
Familiae (11): Ctenidae - Lycosidae - Oxyopidae - Pisauridae - Psechridae - Senoculidae - Stiphidiidae - Trechaleidae - Zorocratidae - Zoropsidae - †Succinomidae

Genera incertae sedis (1): ?†Korearachne

Fang, K., Yang, C.-C., Lue, B.-W., Chen, S.H., Lue, K.-Y. 2000: Phylogenetic corroboration of superfamily Lycosoidae [Lycosoidea] spiders (Araneae) as inferred from partial mitochondrial 12S and 16S ribosomal DNA sequences. Zoological studies, 39(2): 107–113.

Vernacular names
中文: 狼蛛总科

Lycosoidea is a clade or superfamily of araneomorph spiders. The traditional circumscription was based on a feature of the eyes. The tapetum is a reflective layer at the back of the eye, thought to increase sensitivity in low light levels. Lycosoids were then defined by having a "grate-shaped" tapetum. Research from the late 1990s onwards suggests that this feature has evolved more than once, possibly as many as five times,[1] so that the original Lycosoidea is paraphyletic.[2] Studies published in 2014 and 2015 suggest that a smaller group of families does form a clade.

The reflective attributes of the tapeta vary significantly betwixt lycosoid spiders.[3]

The phylogeny of the Lycosoidea and related groups has been studied using both morphological and molecular data. Comparing these studies is complicated by the redrawing of family boundaries. Thus potential lycosoid genera placed in the family Miturgidae in 1993, such as Uliodon,[4] have since been placed in the Zoropsidae. The family Ctenidae, placed in the Lycosoidea in many analyses, has been reduced by moving some genera into the new family Viridasiidae.[5]

The "classical" circumscription of the Lycosoidea was based on the possession of a grate-shaped tapetum in some or all of the indirect eyes. In 1993, Griswold concluded that the Lycosoidea so defined was monophyletic, although some of the lycosoid families (as then circumscribed) were not.[4] (See the table below for the families included in this and later studies.) Stiphidiidae was later excluded from the Lycosoidea.[6] Later studies have recovered a version of Lycosoidea as a monophyletic group, although with varying compositions and placements within clades.[1][7] Ramírez, as part of a study primarily directed at dionychans, suggested that a reduced Lycosoidea, consisting of only five families, was monophyletic. Ctenidae and Zoropsidae were excluded from the lycosoid clade.[8] (Trechaleidae was not included in the study.) An alternative hypothesis explored by Ramírez also placed Thomisidae in the Lycosoidea.[9] Polotow et al. (2015) concluded that a seven-family Lycosoidea was monophyletic. Of the "classical" lycosoid families, they put back Ctenidae left out by Ramírez (although saying that the family is not monophyletic), but additionally excluded Senoculidae. They supported Ramírez' alternative of placing Thomisidae in Lycosoidea.[10]

Some circumscriptions of Lycosoidea
Family Griswold (1993)[4] Ramírez (2014) [8]Polotow et al. (2015)[10]
Ctenidae yes yes
Lycosidae yes yes yes
Oxyopidae yes yes yes
Pisauridae yes yes yes
Psechridae yes yes yes
Senoculidae yes yes
Stiphidiidae yes
Thomisidae ? yes
Trechaleidae yes * yes
Zoropsidae yes**
* Not included in the study.
** Some genera included were then placed in Miturgidae.

Lycosoid families are located within the large RTA clade of araneomorph spiders.[2][11] Within this clade, Polotow et al. place them within a "grate-shaped tapetum clade", with the family Zoropsidae as their sister:[12]
RTA clade

RTA clade

basal groups


Oval calamistrum clade


Grate‑shaped tapetum clade




Ramírez (2014), p. 282.
Coddington, Jonathan A. (2005). "Phylogeny and classification of spiders" (PDF). In Ubick, D.; Paquin, P.; Cushing, P.E. & Roth, V. (eds.). Spiders of North America: an identification manual. American Arachnological Society. pp. 18–24. Retrieved 2015-09-24.
Benson, Kari; Suter, Robert B. (2013). "Reflections on the tapetum lucidum and eyeshine in lycosoid spiders". The Journal of Arachnology. 41 (1): 43–52. doi:10.1636/B12-35.1. JSTOR 23610234. S2CID 36757386. "These results demonstrate that the reflective qualities of the tapeta, and perhaps the absorptive qualities of other tissues and media that the light must traverse, vary widely among lycosoid spiders."
Griswold, C. E. (1993). "Investigations into the phylogeny of Lycosoid spiders and their kin (Arachnida: Araneae: Lycosoidea)". Smithsonian Contributions to Zoology. 539 (539): 1–39. doi:10.5479/si.00810282.539. Retrieved 2015-10-17.
Polotow, Carmichael & Griswold (2015), p. 151-152.
Davila, Diana Silva (2003). Higher-level relationships of the spider family Ctenidae (Araneae, Ctenoidea). Bulletin of the American Museum of Natural History. hdl:2246/441.
Polotow, Carmichael & Griswold (2015), p. 125.
Ramírez (2014), p. 290.
Ramírez (2014), pp. 319–320.
Polotow, Carmichael & Griswold (2015), p. 134.
Nentwig, Wolfgang, ed. (2013). "Appendix : Spider Phylogeny" (PDF). Spider Ecophysiology. Springer. ISBN 978-3-642-33988-2. Retrieved 2015-11-03.

Polotow, Carmichael & Griswold (2015), p. 132.

Polotow, Daniele; Carmichael, Anthea & Griswold, Charles E. (2015). "Total evidence analysis of the phylogenetic relationships of Lycosoidea spiders (Araneae, Entelegynae)". Invertebrate Systematics. 29 (2): 124–163. doi:10.1071/IS14041.
Ramírez, Martín J. (2014). The morphology and phylogeny of dionychan spiders (Araneae, Araneomorphae). Bulletin of the American Museum of Natural History. hdl:2246/6537.


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