Loureedia annulipes (Lucas) Miller, Jeremy A., Griswold, Charles E., Scharff, Nikolaj, Řezac, Milan, Szűts, Tamas & Marhabaie, Mohammad, 2012
publication ID |
https://dx.doi.org/10.3897/zookeys.195.2342 |
persistent identifier |
https://treatment.plazi.org/id/5392BF2C-7080-9CB3-82BB-99F883BBAA81 |
treatment provided by |
|
scientific name |
Loureedia annulipes (Lucas) |
status |
comb. n. |
Loureedia annulipes (Lucas) comb. n. Figs 1G, H4I9 I–L13G–I 18A, D62-67
Eresus annulipes Lucas, 1857: 21.
Eresus semicanus Simon 1908: 83; 1910: 294, fig. 5; El-Hennawy 2004: 28, figs 2 A–B, 3 A–C, 4 A–B. Syn. n.
Stegodyphus annulipes (Lucas, 1857). Kraus and Kraus 1992: 15, 19.
Eresus jerbae El-Hennawy, 2005: 88, figs 1-4. Syn. n.
Description.
Male (Nitzanna village, Israel, MR018, HUJ): Carapace with scattered white setae; cephalic region subrectangular with broadly rounded posterior margin, wider than long, strongly raised; AME distinctly smaller than PME (AME/PME 0.52), median eyes slightly overlapping on horizontal and vertical axes; ALE tubercles absent; PER as wide as AER (PER/AER 1.01), PLE position on carapace 0.42; clypeal hood forms a nearly 90° angle; fovea moderately deep. Chelicerae slightly excavated mesally, with lateral boss. Legs relatively long with bands of white setae; legs with row of distal ventral macrosetae on metatarsus I–IV, and scattered ventral macrosetae on tibia III–IV and metatarsus and tarsus II–IV, strongest and most numerous on metatarsus and tarsus III–IV. Abdomen dark with pattern of white spots surrounding sigilla and two longitudinal yellow stripes running through sigilla (Figs 1G, H, 9I, J, 62 A–D).
Male palp with proximal-distal axis; tegulum subtrapezoidal; conductor and embolus together form apical complex making one helical turn; conductor membranous at prolateral origin, abruptly transitioning dorsally-retrolaterally to heavily sclerotized bifid structure; tegular division longer than embolic division; cymbium with several long prolateral mesosetae (only slightly thicker than normal setae; Figs 13 G–I, 62I, J, 63 A–F).
Female (Haluquim, Israel, PET03, MR): Carapace with many white setae; cephalic region subrectangular, wider than long, moderately raised; AME distinctly smaller than PME (AME/PME 0.47), median eyes slightly overlapping on horizontal and vertical axes; ALE tubercles absent; PER nearly as wide as AER (PER/AER 0.96), PLE position on carapace 0.38; clypeal hood forms acute angle; fovea moderately deep. Chelicerae contiguous mesally, with lateral boss. Legs with scattered white setae; legs with row of distal ventral macrosetae on metatarsus I–IV plus one subdistal ventral macroseta on metatarsus III and scattered ventral macrosetae on tarsus IV. Abdomen without conspicuous white setae (Figs 9K, L, 62 E–H, 64 A–C).
Epigynum with slightly bowed slit-like atria occupying ca. the posterior half, anterior part with transverse oblong anterior lobe (Figs 18A, 65A). Vulva with compact, anteriorly converging reproductive duct system with anterior spermathecal head, sinuous duct leading to multilobed spermathecae; with transverse lobe anteriorly (Figs 18D, 65 B–E).
Spinneret spigot morphology.
Our female preparation is in poor condition but intact; the male preparation is in very poor condition making it impossible to prov ide accurate counts, especially on the PMS. Female ALS with at least 5 MAP within and on inner edge of spinning field of more than 23 PI (Figs 66B, 67A); male with MAP and PI, but number can’t be determined. Female PMS with 4 anterior mAP spigots and posterior field of 22 spigots of varying size and shape (Figs 66C, 67B, C); male seems to have fewer spigots than female, suggesting the female may have AC and CY spigots. Female PLS with anterobasal MS with two accompanying AC spigots and distal field of at least 19 AC (Figs 66D, 67D); male appears to have MS and flanking AC, with field of more than 8 AC. Male cribellar plate with no sign of spigots; numerous epiandrous gland spigots present (Fig. 65F).
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.