Actinopus Perty, 1833
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publication ID |
https://doi.org/ 10.11646/megataxa.2.1.1 |
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publication LSID |
lsid:zoobank.org:pub:D8203766-9E7B-468F-9E75-F21393A1BA3D |
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DOI |
https://doi.org/10.5281/zenodo.6423615 |
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persistent identifier |
https://treatment.plazi.org/id/0975136A-FF8A-CE50-FF77-FCA1DEF63843 |
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treatment provided by |
Plazi |
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scientific name |
Actinopus Perty, 1833 |
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Actinopus Perty, 1833 View in CoL View at ENA
Figs 1–225 View FIGURE 1 View FIGURE 2 View FIGURE 3 View FIGURE 4 View FIGURE 5 View FIGURE 6 View FIGURE 7 View FIGURE 8 View FIGURE 9 View FIGURE 10 View FIGURE 11 View FIGURE 12 View FIGURE 13 View FIGURE 14 View FIGURE 15 View FIGURE 16 View FIGURE 17 View FIGURE 18 View FIGURE 19 View FIGURE 20 View FIGURE 21 View FIGURE 22 View FIGURE 23 View FIGURE 24 View FIGURE 25 View FIGURE 26 View FIGURE 27 View FIGURE 28 View FIGURE 29 View FIGURE 30 View FIGURE 31 View FIGURE 32 View FIGURE 33 View FIGURE 34 View FIGURE 35 View FIGURE 36 View FIGURE 37 View FIGURE 38 View FIGURE 39 View FIGURE 40 View FIGURE 41 View FIGURE 42 View FIGURE 43 View FIGURE 44 View FIGURE 45 View FIGURES 46 View FIGURE 47 View FIGURE 48 View FIGURE 49 View FIGURE 50 View FIGURE 51 View FIGURE 52 View FIGURE 53 View FIGURE 54 View FIGURE 55 View FIGURE 56 View FIGURE 57 View FIGURE 58 View FIGURE 59 View FIGURE 60 View FIGURE 61 View FIGURE 62 View FIGURE 63 View FIGURE 64 View FIGURE 65 View FIGURE 66 View FIGURE 67 View FIGURE 68 View FIGURE 69 View FIGURE 70 View FIGURE 71 View FIGURE 72 View FIGURE 73 View FIGURE 74 View FIGURE 75 View FIGURE 76 View FIGURE 77 View FIGURE 78 View FIGURE 79 View FIGURE 80 View FIGURE 81 View FIGURE 82 View FIGURE 83 View FIGURE 84 View FIGURE 85 View FIGURE 86 View FIGURE 87 View FIGURE 88 View FIGURE 89 View FIGURE 90 View FIGURE 91 View FIGURE 92 View FIGURE 93 View FIGURE 94 View FIGURE 95 View FIGURE 96 View FIGURE 97 View FIGURE 98 View FIGURE 99 View FIGURE 100 View FIGURE 101 View FIGURE 102 View FIGURE 103 View FIGURE 104 View FIGURE 105 View FIGURE 106 View FIGURE 107 View FIGURE 108 View FIGURE 109 View FIGURE 110 View FIGURE 111 View FIGURE 112 View FIGURE 113 View FIGURE 114 View FIGURE 115 View FIGURE 116 View FIGURE 117 View FIGURE 118 View FIGURE 119 View FIGURE 120 View FIGURE 121 View FIGURE 122 View FIGURE 123 View FIGURE 124 View FIGURE 125 View FIGURE 126 View FIGURE 127 View FIGURE 128 View FIGURE 129 View FIGURE 130 View FIGURE 131 View FIGURE 132 View FIGURE 133 View FIGURE 134 View FIGURE 135 View FIGURE 136 View FIGURE 137 View FIGURE 138 View FIGURE 139 View FIGURE 140 View FIGURE 141 View FIGURE 142 View FIGURE 143 View FIGURE 144 View FIGURE 145 View FIGURE 146 View FIGURE 147 View FIGURE 148 View FIGURE 149 View FIGURE 150 View FIGURE 151 View FIGURE 152 View FIGURE 153 View FIGURE 154 View FIGURE 155 View FIGURE 156 View FIGURE 157 View FIGURE 158 View FIGURE 159 View FIGURE 160 View FIGURE 161 View FIGURE 162 View FIGURE 163 View FIGURE 164 View FIGURE 165 View FIGURE 166 View FIGURE 167 View FIGURE 168 View FIGURE 169 View FIGURE 170 View FIGURE 171 View FIGURE 172 View FIGURE 173 View FIGURE 174 View FIGURES 175 View FIGURE 176 View FIGURE 177 View FIGURE 178 View FIGURE 179 View FIGURE 180 View FIGURE 181 View FIGURE 182 View FIGURE 183 View FIGURE 184 View FIGURE 185 View FIGURE 186 View FIGURE 187 View FIGURE 188 View FIGURE 189 View FIGURE 190 View FIGURE 191 View FIGURE 192 View FIGURE 193 View FIGURE 194 View FIGURE 195 View FIGURE 196 View FIGURE 197 View FIGURE 198 View FIGURE 199 View FIGURE 200 View FIGURE 201 View FIGURE 202 View FIGURE 203 View FIGURE 204 View FIGURE 205 View FIGURE 206 View FIGURE 207 View FIGURE 208 View FIGURE 209 View FIGURE 210 View FIGURE 211 View FIGURE 212 View FIGURE 213 View FIGURE 214 View FIGURE 215 View FIGURE 216 View FIGURE 217 View FIGURE 218 View FIGURE 219 View FIGURE 220 View FIGURE 221 View FIGURE 222 View FIGURE 223 View FIGURE 224 View FIGURE 225 , Maps 1–19 View MAP 1 View MAP 2 View MAP 3 View MAP 4 View MAP 5 View MAP 6 View MAP 7 View MAP 8 View MAP 9 View MAP 11 View MAP 12 View MAP 13 View MAP 14 View MAP 15 View MAP 16 View MAP 17 View MAP 18 View MAP 19
Actinopus Perty, 1833: 198 View in CoL (type species by monotypy, Actinopus tarsalis Perty, 1833 View in CoL ); C. L. Koch, 1842: 98 [revalidation]; Ausserer, 1871: 138; Simon, 1892: 80; Mello-Leit„o, 1923: 17; Raven, 1985: 145, 147; World Spider Catalog, 2020.
Closterochilus Ausserer, 1871: 141 (type species: Pachyloscelis nigripes Lucas, 1834 , by original designation).
Theragretes Ausserer, 1871: 142 (type species: Actinopus walckenaerii Lucas, 1837 , by original designation).
Diagnosis. Within Actinopodidae , species of Actinopus are recognized by the procurved anterior row of eyes, with the lateral eyes aligned antero-posteriorly ( Fig. 4 A, F View FIGURE 4 ); labium elongated antero-posteriorly, without cuspules on males and with an average of 15–30 cuspules on females ( Fig. 4 View FIGURE 4 B–C); sternal sigilla close together, positioned in a deep median common depression ( Fig. 4 D View FIGURE 4 ). Additionally, males and females of Actinopus differ from those of Missulena by the pronounced rastellum ( Fig. 4 E View FIGURE 4 ), sternum not rebordered ( Fig. 10 C View FIGURE 10 ) and superior tarsal claws with a tooth and one or two denticles ( Fig. 4 View FIGURE 4 G– H). They differ from those of Plesiolena by the flattened cheliceral apex ( Fig. 10 View FIGURE 10 E–F) and by the crown of robust spines on the dorsal, apical surface of the patella and tibia III ( Fig. 11 A, C View FIGURE 11 ). Males of Actinopus differ from those of Plesiolena by the ventral pseudoscopula in metatarsi and tarsi ( Fig. 5 A View FIGURE 5 ) and from those of Missulena by the cymbium without ventral incision. They differ from males of both genera by the copulatory bulb with paraembolic apophysis ( Fig. 5 B View FIGURE 5 ) and with twisted keels in prolateral view of embolus ( Fig. 5 C View FIGURE 5 ). Females of Actinopus differ from those of Missulena by tarsi I and II with strong and sharp spines and spermathecae with robust receptacles; differ from those of both genera by the short spermathecal receptacles ( Fig. 5 D View FIGURE 5 ).
Description. Total length (males and females) from 7.0 to 35.9 mm.
Carapace. Anterior prolateral angle of carapace tapered ( Fig. 172 B View FIGURE 172 ) or subquadrate ( Fig. 5 F View FIGURE 5 ). Carapace subquadrate in dorsal view, smooth with strongly demarcated radial grooves and wider at coxae III, anterior median ocular tubercle absent, with delimited cephalic area and strong inclination at fovea level, anterior margin rounded; fovea U-shaped, strongly procurved, deep, sharply demarcated ( Figs 5 E View FIGURE 5 ); in lateral view, thoracic area with abrupt anterior slope and gradual posterior slope. Clypeus, anteriorly less sclerotized than posteriorly, height from 1.0–1.5 times diameter of ALE. Anterior eyes row slightly procurved; posterior eyes row recurved d in dorsal view ( Fig. 5 F View FIGURE 5 ). No or few bristles between AME-clypeus; no or few bristles between PME–PME and PLE–PLE. Ocular quadrangle wider than long; ALE diameter bigger than that of other eyes. Interdistances: Males: PME–PME separated by more than four diameters of PME, ALE–AME separated by ca. twice diameter of AME, ALE–PLE separated by less than twice diameter of ALE,AME–PME separated by ca. twice diameter of AME ( Fig. 4 A View FIGURE 4 ). Females: PME–PME separated by ca. three times interdistance of PME–PLE, PLE–PME separated by half diameter of PME, AME–AME separated by half the diameter of ALE, ALE–AME separated by four times diameter of AME, ALE–PLE separated by twice diameter of PLE, AME–PME separated by four times diameter of AME ( Fig. 5 F View FIGURE 5 ). Chelicerae not geniculate, longer than half carapace length, with apical rastellum. Rastellum smooth, with bristles ( Fig. 13 C View FIGURE 13 ) or spines ( Fig. 108 F View FIGURE 108 ). Females with very conspicuous crown of thorns bordering rastellum ( Fig. 210 F View FIGURE 210 ). Cheliceral teeth, in ventral view, arranged in two rows, prolateral and retrolateral. Prolateral teeth row bordered by denticles ( Fig. 5 G View FIGURE 5 ). Labium fused to sternum. Labium and maxillae longer than wide. Males without labial and maxillary cuspules ( Figs 4 B View FIGURE 4 , 6 A View FIGURE 6 ); females with numerous cuspules and bristles ( Fig. 5 H View FIGURE 5 ). Sternum longer than wide. Sternum with 6–10 hardly distinguishable sigilla, strongly fused at center of sternum. Pre-coxal triangles absent ( Fig. 24 C View FIGURE 24 ).
Legs. Males: Long, smooth ( Fig. 6 B View FIGURE 6 ) or covered with few simple and sparse hairs ( Figs 14 D View FIGURE 14 , 31 View FIGURE 31 A–D); Many prolateral spines on the sides of the patellae III and IV, forming crown spines on dorsal surface of Patella and tibia III ( Fig. 14 A, C View FIGURE 14 ); tibiae, metatarsi and tarsi with filiform dorsal trichobothria, with high bases ( Fig. 6 C, D View FIGURE 6 ); clavate tarsal trichobothria absent. Tarsi and metatarsi III and IV with compact pseudoscopula ( Fig. 6 View FIGURE 6 E–F), subapical chemosensitive fissures present ( Fig. 6 View FIGURE 6 E–H) or absent. Inferior tarsal claws without teeth; superior tarsal claws with one tooth, one tooth and one denticle or one tooth and two denticles ( Fig. 4 View FIGURE 4 G–H). Subinguinal tufts absent; all trochanters with a fissure. Females: Legs short, robust and covered by several short and strong spines, with many long bristles ( Fig. 7 A View FIGURE 7 ), rows of strong spines on prolateral and retrolateral surfaces of distal articles (tibiae, metatarsi and tarsi) in all legs ( Fig. 7 B View FIGURE 7 ), except leg IV, with rows only on prolateral surface; many spines on prolateral patellae III and IV, forming a crown of spines on dorsal surface of patella and tibia III; ventrally, spines replacing pseudoscopula on tarsi III and IV; tibiae, metatarsi and tarsi with filiform dorsal trichobothria with a high bases ( Fig. 7 C View FIGURE 7 ), tricoma with large fixation base ( Fig. 7 D View FIGURE 7 ); Clavate tarsal trichobothria absent. Inferior and superior tarsal claws without teeth. Subinguinal tufs absent. All trochanters with fissure.
Abdomen. Long, oval, homogeneously covered with simple setae and dorsally with long simple setae ( Fig. 10 A View FIGURE 10 ); male and female dorsal scutum, when present, restricted to anterior half of abdomen, whole or divided; scutal bristles with more sclerotized bases that those of ordinary tegument bristles ( Fig. 13 A View FIGURE 13 ). Four spinnerets ( Fig. 7 E View FIGURE 7 ). Posterior median spinnerets ( PMS) small or medium-sized, with one segment; posterior lateral spinnerets ( PLE) with three bigger segments; spigot types: principal ampullary fusule and secondary ampullary fusule ( Fig. 7 View FIGURE 7 D–E), tartipores ( Fig. 7 D View FIGURE 7 ) as remnants of small ampular in some segments; apical digitiform article of PLS .
Male Palp. Femur, patella and tibia without or with few spines. Tibia without retrolateral tibial apophysis, more thickened at base than apically ( Fig. 7 H View FIGURE 7 ); cymbium rounded, without spines and scopula; subtegulum subrectangular, sclerotized, turned laterally ( Fig. 8 A View FIGURE 8 ); tegulum large, sclerotized, reservoir with two or three loops in prolateral view; distal region of tegulum with prolateral paraembolic apophysis; apical tegulum with prolateral keels; embolus inserted in angle relative to tegulum, sclerotized, with visible duct ( Figs 9 View FIGURE 9 A–C and 12 A–C). Generally, keels represented by three paraembolic apophyses in prolateral view of embolus ( Actinopus paranensis , A. pinhao , A. ducke , A. hirsutus , A. jaboticatubas , A. confusus , A. pampulha , A. candango , A. paraitinga , A. cornelli , A. nattereri , A. rufipes , A. vilhena , A. harveyi , A. itapitocai , A. ipioca , A. itaqui , A. xingu , A. mesa , A. caxiuana , A. utinga , A. crassipes , A. dubiomaculatus , A. pusillus , A. emas , A. bocaina , A. laventana , A. osbournei , A. dioi , A. longipalpis , A. tutu , A. azaghal , A. itacolomi , A. tarsalis , A. castelo , A. parafundulus , A. urucui and A. panguana ). In A. panguana ( Fig. 206 View FIGURE 206 A–C), a dorsal tegular process (DTP); in A. cucutaensis ( Fig. 176 View FIGURE 176 A–C), A. robustus , A. lomalinda , A. palmar and A. guajara , an apical tegular process (ATP); basal tegular apophysis (BTA) absent in A. tarsalis and A. castelo ( Fig. 12 View FIGURE 12 A–C).
Spermathecae. Spermatic ducts robust, short ( Fig. 217 View FIGURE 217 B–D), well separated from base by a membranous region or strongly fused to it ( Figs 26 D View FIGURE 26 , 181 D View FIGURE 181 ); each receptacle without or with one or three lobes ( Fig. 220 A View FIGURE 220 ), lobes quite sclerotized, apically covered by pores ( Fig. 8 B View FIGURE 8 ).
Composition. Eighty species, 42 of which are newly described. Ten old species names are herein considered species inquirendae: A. rojasi ( Simon, 1889) and A. valencianus ( Simon, 1889) were described from juveniles. The type of A. pertyi Lucas, 1843 , originally deposited at Muséum National d´Histoire Naturelle (MNHN), Paris, France, is lost. The holotype female of A. rufibarbis Mello-Leit „o, 1930, deposited at Museu Nacional do Rio de Janeiro, Rio de Janeiro, Brazil, is without spermathecae and in poor condition. The types of A. nigripes ( Lucas, 1834) , A. piceus ( Ausserer, 1871) and A. liodon ( Ausserer, 1875) , all originally deposited at Naturhistorisches Museum, Wien, Austria, and A. harti Pocock, 1895 originally deposited at The Natural History Museum, London, England, were not found and are considered lost. Specimens identified as A. caraiba ( Simon, 1889) and A. scalops ( Simon, 1889) were examined and photographed by J. P. Guadanucci at Muséum National d´Histoire Naturelle (MNHN), Paris, France, but the localities on the labels are slightly different from the respective published type localities reported in the original descriptions and the specimens were not labelled as types. These specimens were not considered as types in the present paper by all prior knowledge about Simon’s specimens deposited at MNHN and the totally absence of any other type evidence on labels of other specimens deposited in the Paris Museum.
Key to species groups
The following key is based on males only and, besides the 12 groups here defined, includes also the three species (known from males) which were not included in any group.
1. Discontinuous thoracic fovea that is interrupted in middle ( Ríos-Tamayo & Goloboff, 2018, fig. 42 A) and sternum with a deep central depression ( Ríos-Tamayo & Goloboff, 2018, fig. 42 B)................................................gr. goloboffi View in CoL
Continuous thoracic fovea ( Figs 5 A, H View FIGURE 5 ) and sternum without a deep central depression ( Fig. 4 D View FIGURE 4 ).................... 2
2(1). Tibia III with three basal, dorsal spines ( Fig. 208 B View FIGURE 208 ) ......... ............................................................................ A. clavero View in CoL
Tibia III with a single basal, dorsal spine ( Fig. 158 B View FIGURE 158 ) .... 3
3(2). ATP present ( Fig. 176 A View FIGURE 176 ).................................................. 4
ATP absent ( Fig. 18 A View FIGURE 18 ) ..................................................... 5
4(3). ATP oblique in relation to embolus ( Fig. 195 View FIGURE 195 A–B)........... ........................................................................ A. concinnus View in CoL
ATP parallel in relation to embolus ( Fig. 176 View FIGURE 176 A–B)........... .....................................................................gr. cucutaensis View in CoL
5(3). Embolus strongly curved prolaterally (distal third not visible in dorsal view); DTP present ( Fig. 206 View FIGURE 206 A–C) ......... ........................................................................ A. panguana View in CoL
Embolus, at most, gently curved prolaterally, DTP absent ( Fig. 18 View FIGURE 18 A–C).................................................................... 6
6(5). Base of embolus with extremely developed serrated area, composed of three rows of large cusps ( Figs 198 View FIGURE 198 A–C)..... ........................................................................... A. apiacas View in CoL
Serrated area not so developed, or absent ( Figs 18 View FIGURE 18 A–C, 67 A–C) ................................................................................. 7
7(6). PA inserted apically on bulb, flattened and apically folded, oblique in relation to embolus ( Fig. 201 View FIGURE 201 A–C).... A. jamari View in CoL
PA inserted on the prolateral bulb, or absent ( Fig. 75 View FIGURE 75 A–C) .......................................................................................... 8
8(7). Keels short, restricted to median sector of embolus, represented by short prominent lamellae in prolateral view ( Figs 162 A View FIGURE 162 , 165 A View FIGURE 165 ) ..................................gr. parafundulus View in CoL
Keels otherwise ( Fig. 62 A View FIGURE 62 ).............................................. 9
9(8). Two embolar keels, PAc absent ( Fig. 168 View FIGURE 168 A–C)............. 10
Three embolar keels, PAc present ( Fig. 35 View FIGURE 35 A–C) ........... 12
10(9). Tegulum and embolus thin and elongated along longitudinal line; embolar insertion ample ( Fig. 168 View FIGURE 168 A–C)....gr. reznori View in CoL
Tegulum notably wider than embolar insertion ( Fig. 75 View FIGURE 75 A–C) ............................................................................... 11
11(10). Serrated area on embolar prolateral surface absent or represented by at most two small cusps ( Fig. 15 View FIGURE 15 A–C) ...... .............................................................................gr. apalai View in CoL
Serrated area represented by three or more cusps ( Fig. 32 View FIGURE 32 A–C) ................................................................... gr. pinhao View in CoL
12(9). Embolus, as seen from dorsal view, inserted on tegulum at a 90 o angle ( Fig. 9 B View FIGURE 9 )......................................... gr. tarsalis View in CoL
Embolar insertion, as seen from dorsal view, otherwise ( Fig. 153 View FIGURE 153 A–C)................................................................ 13
13(12). Sternal sigilla fused medially of sternum ( Fig. 133 C View FIGURE 133 ) ...... ....................................................................... gr. osbournei View in CoL
Sternal sigilla converging to the middle but separated ( Fig. 196 C View FIGURE 196 ) ............................................................................. 15
14(13). Small spiders, total length less than 13 mm ................... 15
Large spiders, total length more than 17 mm and less than 36 mm ............................................................................. 16
15(14). Serrated area on prolateral embolus small ( Fig. 143 View FIGURE 143 A–C) or, when large, represented by sparse small denticles ( Fig. 153 View FIGURE 153 A–D) .................................................................gr. tutu View in CoL
Serrated area on prolateral embolus large, densely covered by relatively large denticles ( Fig. 124 View FIGURE 124 A–C)... gr. crassipes View in CoL
16(14). Serrated area on prolateral embolus reduced or absent ( Fig. 67 A View FIGURE 67 ) ................................................................ gr. nattereri View in CoL
Serrated area on prolateral embolus well developed ( Fig. 32 A View FIGURE 32 )........................................................................ gr. pinhao View in CoL
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Peabody Essex Museum |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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Actinopus Perty, 1833
| Miglio, Laura Tavares, Pérez-Miles, Fernando & Bonaldo, Alexandre B. 2020 |
Closterochilus
| Ausserer, A. 1871: 141 |
Theragretes
| Ausserer, A. 1871: 142 |
Actinopus
| Raven, R. J. 1985: 145 |
| Simon, E. 1892: 80 |
| Ausserer, A. 1871: 138 |
| Koch, C. L. 1842: 98 |
| Perty, M. 1833: 198 |