Cebrennus rungsi ( Jäger, 2000 ), Jager, 2000

Cebrennus rungsi ( Jäger, 2000) View in CoL

Figs 12–13 View FIGURES 12 – 17. 12 – 13 , 92–93 View FIGURES 88 – 100 , 173 View FIGURE 173

Cebrennus rungsi Jäger, 2000: 172 View in CoL , figs 34–41 (description of male and female).

Material examined. MOROCCO: Souss-Massa-Drâa: 1 male (PJ 3391), Agadir, Hering leg. 2 November 1986 ( ZMB); 1 male (PJ 3396, SD 645), Anti-Atlas Range, Ighil, ca. 110 air km ESE of Agadir, N 30°8'29.98", W 8°29'6.76", [1584 m elev.], point 54, desert, S. Henriques leg. 29 September 2011 ( SMF); 1 male (PJ 3397, SD 646), Anti-Atlas Range, between Sdass and Ouaoufenrha, ca. 98 air km E of Agadir, N 30°21'14.54", W 8°34'38.96" [1000 m elev.], point 51, desert, S. Henriques leg. 29 September 2011 ( SMF); 1 male (PJ 3398, SD 647), 1 male (PJ 3399, SD 648), Anti-Atlas Range, between Irherm and Armdaz, ca. 115 air km ESE of Agadir, N 30° 3'17.53", W 8°27'48.96" [1640 m elev.], point 48, desert, S. Henriques leg. 29 September 2011 ( SMF).

Description. See Jäger (2000).

Variation. Males (n=4): PL 5.4–6.5, PW 4.7–5.5, AW 3.0–3.9, OL 5.3–7.2, OW 3.5–5.0; chelicerae with 2 anterior, 5–8 adnate posterior teeth, and 2–3 bristles at the posterior distal margin close to fang base. Structures of the copulatory organ correspond in most cases fully with those of the holotype. In the two males from between Irherm and Armdaz ( Figs 12–13 View FIGURES 12 – 17. 12 – 13 ) the distal part of the embolus was distinctly shorter than that of the holotype.

Since all other characters (shape and size of RTA, shape of tegulum, reduced conductor and basal embolus, shape of cymbium) are congruent with the holotype, the shorter distal embolus is considered intraspecific variation.

Distribution. All known records (including the type locality Sous) lie in the West of the region Souss-Massa- Draâ in an altitudinal range from sea level to 1650 metres ( Fig. 173 View FIGURE 173 ).

The following four species ( castaneitarsis , wagae , aethiopicus , flagellatus spec. nov.) have very similar copulatory organs, differentiation of the species is in some cases difficult. Apparently, the male emboli have been elongated in the course of evolution as hypothesised by Jäger (2006). The same is true for the so-called “combined morphological changes” as the elongation of the RTA or the reduction of the palpal tibia length. In general, males are easier to identify than females. Easiest to distinguish is C. flagellatus spec. nov. (only known by the male sex) by its flagellum at the embolic kink and the distal RTA at right angles with the proximal part ( Figs 32–35 View FIGURES 30 – 35. 30 – 31 ). Males of C. castaneitarsis can be distinguished from those of the three other species by the shorter embolus, i.e. the arising point situated distinctly in prolateral position of the tegulum and the proximal part of the distal loop does not, or only barely so, extend beyond the tegulum proximally ( Figs 15–17 View FIGURES 12 – 17. 12 – 13 ); moreover the RTA is as short as in C. flagellatus spec. nov., but builds a larger angle with the distal tibia. Cebrennus wagae and C. aethiopicus were differentiated by Fage (1921) through the absence ( wagae ) or presence ( aethiopicus ) of a distal spine on metatarsus III. Although there were two of three specimens of C. aethiopicus examined with a spination formula 3034 at metatarsus III, one had the usual 2024. Therefore, the spination cannot act as single diagnostic character. Simon (1880: 331, key) used mainly the RTA as differentiating character and his distinctions are still valid: C. wagae has the longest RTA ( Figs 18–23 View FIGURES 18 – 23 ), C. castaneitarsis an almost straight RTA ( Figs 15–17 View FIGURES 12 – 17. 12 – 13 ), C. aethiopicus exhibits a bend at the base of the RTA (especially in comparison to C. castaneitarsis ) ( Figs 24–29 View FIGURES 24 – 29 ). Females of this sub-unit of the wagae species-group are either not known ( C. flagellatus spec. nov.) or not clearly distinguishable. However, in C. aethiopicus the epigyne tends to be relatively ( Figs 55–62 View FIGURES 55 – 62 ) wider than in C. wagae (Figs 44–54) and C. castaneitarsis ( Figs 36–38 View FIGURES 36 – 43. 36 – 38 ). A distinct difference between the two latter species could not be found yet. Diagnoses contain a combination of characters, but few specimens ( Figs 14 View FIGURES 12 – 17. 12 – 13 , 39–41 View FIGURES 36 – 43. 36 – 38 ) show that either transitions or even new species exist, which make a distinction in some cases difficult.