Manayunkia caspica Annenkova, 1929

Manayunkia caspica Annenkova, 1929 View in CoL

( Figures 13–14 View FIGURE 13 View FIGURE 14 )

Manayunkia caspica Annenkova, 1929a: 18–20 View in CoL , pl. 3, fig. 1–4, pl. 4, fig. 10–12. Zenkevitsch. – 1935: 198–201. – Hartman 1951: 389. – Bick et al. 2024: 449–455 View Cited Treatment , pl. 2–5.

Material examined. Russia, Caspian Sea : 43°57.733’N, 48°37.840’E, depth 28.7 m, coll. 12.10.2018, 23 specimens ( ZMMU WS 19181 View Materials (12 specimens) and ZSRO-P2695 (11 specimens )) GoogleMaps , 43°57.733’N, 48°840’E, depth 28.7 m, coll. 12.10.2018, 35 specimens ( ZMMU WS 19182 View Materials (17 specimens) and ZSRO-P2696 (18 specimens )) , 43°57.733’N, 48°18.100’E, depth 25.7 m, coll. 10.10.2018, 14 specimens ( ZMMU WS 19183 View Materials (9 specimens) and ZSRO-P262697 (5 specimens )) .

Description. Total length of specimens, including radiolar crown, between 1.8 and 4.2 mm; width between 0.15 mm and 0.22 mm; length of radiolar crown between 0.22 mm and 0.40 mm; ratio between length of radiolar crown and body length, without radiolar crown, between 0.1 and 0.2; body cylindrical, slender, slightly tapering posteriorly ( Fig. 13A, D View FIGURE 13 ).

Radiolar crown with three pairs of radioles and one pair of unbranched vascularized ventral filamentous appendages; surface of radioles and ventral filamentous appendages wrinkled ( Fig. 13A, B View FIGURE 13 ); first dorsal radioles branch off from the branchial lobe, median and ventral radioles arise from a common base ( Fig. 14B–E View FIGURE 14 ); ventral and median radioles asymmetrical branched or pectinated, dorsal radioles unbranched; ventral radioles with 5–6 branches, median radioles with 2–3 branches ( Fig. 14B–D View FIGURE 14 ); no morphological differences in the structure of the branches, except ventral filamentous appendages ( Fig. 14B, C View FIGURE 14 ); ventral filamentous appendages and branches of radioles end at about same height ( Fig. 13B View FIGURE 13 ); branches of radioles and vascularized ventral filamentous appendages rectangular to square in cross-section, extension about 20–28 x 24–40 µm and 32–40 x 38–56 µm, respectively ( Fig. 14B View FIGURE 14 ); vascularized ventral filamentous appendages with blood vessel ( Fig. 14B–E View FIGURE 14 ), connecting to corresponding dorsally located branchial heart ( Fig. 14F View FIGURE 14 ); epidermis of radioles and vascularized ventral filamentous appendages medially with ciliated and laterally with non-ciliated epithelial cells; ciliated cells constitute a shallow food groove ( Fig. 14B, C View FIGURE 14 ); center of branches of radioles occupied by a large cavity bordered by a narrow band of cells; radioles with cylindrical cells adorally ( Fig. 14B, C View FIGURE 14 ); dorsal lips as triangular lobes, rounded at upper margin, with ciliated epithelium all around ( Fig. 14D, E View FIGURE 14 ); about 30–40 µm long; dorsal lips connect dorsal radioles with vascularized ventral filamentous appendages.

Peristomium slightly longer than first chaetiger, about as long as chaetiger 2, with anterior and posterior rings; anterior peristomial ring distinctly shorter than posterior ring ( Fig. 13A, B View FIGURE 13 ); anterior margin developed as low membranous collar ventrally, narrowly separated mid-dorsally ( Figs 13B View FIGURE 13 , 14A, F View FIGURE 14 ); ciliated band ventrally on posterior margin of anterior peristomial ring ( Fig. 13B View FIGURE 13 ); border between anterior and posterior peristomial rings clearly visible all around ( Fig. 13A, B View FIGURE 13 ); one pair of rounded black peristomial eyes present.

Faecal groove dorsally deeply sunken in peristomial region ( Fig. 14F View FIGURE 14 ), becoming considerably lower on first and following chaetigers; faecal groove shifts from dorsal to ventral mid-line at border between thorax and abdomen ( Fig. 13D View FIGURE 13 ).

Metanephridia in peristomium and chaetigers 1 and 2. First thoracic chaetiger shorter than peristomium and second chaetiger; chaetigers 2–7 successively longer; chaetiger 8 shorter than chaetiger 7 ( Fig. 13A, B View FIGURE 13 ); first 3 thoracic chaetigers wider than long, chaetiger 4–8 distinctly longer than wide ( Fig. 13A View FIGURE 13 ); first abdominal chaetiger long, about twice as long as second one; abdominal chaetiger 3 slightly shorter, about as long as pygidium; pygidium tapered ( Fig. 13A, D View FIGURE 13 ); pygidial eyes absent; borders between anterior thoracic and abdominal chaetigers clearly visible, but difficult or impossible to identify on chaetigers in females with brood chamber, i.e., particularly between chaetigers 6 and 7 ( Fig. 13A, C View FIGURE 13 ).

First chaetiger with about 2–4 short and 3–5 elongate, narrowly hooded notochaetae, neuropodial uncini absent; notopodia of chaetigers 2–5 superiorly with 3–5 (rarely 6) elongate, narrowly hooded and inferiorly with 2–4 pseudo-spatulate chaetae ( Fig. 13E, F View FIGURE 13 ); notopodia of chaetigers 6–8 superiorly with 3–5 elongate, narrowly hooded and 2–4 short, narrowly hooded chaetae; neuropodia of chaetigers 2–5 (female) or 2–8 (male) with 2–4 (rarely 5) uncini with main fang, apical with about 4–6 rows of progressively smaller teeth ( Fig. 13G View FIGURE 13 ); females with 3–8 transitional uncini on chaetigers 6–8, different from thoracic uncini on chaetigers 2–5; transitional uncini longer than regular thoracic uncini, without main fang, with a multitude of rows of small, equal-sized teeth ( Fig. 13I View FIGURE 13 ); abdominal neuropodia with 2–3 elongate, and 1–2 short, narrowly hooded chaetae ( Fig. 13J View FIGURE 13 ); abdominal notopodia with 12–17 uncini on chaetiger 9, 8–15 on chaetiger 10, and 7–12 on chaetiger 11, respectively; uncini with about 6 rows of equal-sized teeth, about 4–6 teeth per row ( Fig. 13K View FIGURE 13 ); manubrium about 2–4 times as long as dentate region.

Females with brood chamber on chaetigers 6 and 7, formed by wing-like protrusions of the integument of these chaetigers ( Fig. 13A, C View FIGURE 13 ); boundaries of these chaetigers barely visible here ( Fig. 13A View FIGURE 13 ).

Fixed specimens usually without colour and translucent, only anterior peristomial ring sometimes slightly pigmented.

Tubes, significantly longer than worms they inhabit it, consist of mucus and fine sediment particles ( Fig. 13H View FIGURE 13 ).

Remarks. The brackish water species M. caspica most closely resembles the freshwater species M. danubialis Băcescu, 1948 but there are also small differences. In M. caspica , thoracic chaetigers become continuously longer from chaetiger 2 to chaetiger 7, whereas in M. danubialis chaetiger 5 is shorter than chaetigers 4 and 6. Manayunkia caspica has 2–5 (rarely 6) thoracic uncini, whereas M. danubialis has 6–8 (rarely 4) uncini. In M. danubialis , the thoracic uncini are sometimes arranged in a slightly offset double row. The thoracic and abdominal uncini differ also slightly. In M. caspica there are about 4–6 rows of increasingly smaller teeth above the main fang in the thoracic uncini, whereas in M. danubialis there are a maximum of 4 rows. The number of teeth per row is also somewhat lower in the freshwater species. The abdominal uncini in M. caspica have a maximum of 6 rows of teeth, in M. danubialis there are 6–8 rows. Furthermore, the transitional uncini of M. caspica have considerably more apical teeth than those of M. danubialis .

The distribution area and habitat are also useful for distinguishing both Manayunkia species. Manayunkia caspica has been described on silty bottoms in the Caspian Sea at depths between 17 m and 64 m and salinities between 1.3 and 13.2 psu ( Annenkova 1929a, b). Manayunkia danubialis inhabit freshwater habitats, does not tolerate large fluctuations in salinity, prefer oxygen-rich and rocky habitats at shallow depths ( Popescu-Marinescu 2008).

The genetic distance between M. caspica and M. danubialis , based on the 18S rDNA sequences, including gaps is 0.110 and without gaps 0.058. For comparison, the intraspecific genetic distance in M. aestuarina , including gaps, is 0.035. This leads to the conclusion that M. danubialis and M. caspica are two closely related but different species (see Fig. 24 View FIGURE 24 ).

There is a slight difference in the number of thoracic and abdominal uncini between smaller and larger individuals. Smaller individuals have fewer uncini in general.

The presence of transitional uncini in mature females was also found in several other Manayunkia species (see Remarks for other species). The presence of a brood chamber in females has already been described previously ( Bick et al. 2024).

Geographic distribution. So far only known from the Caspian Sea. Records outside the Caspian Sea in southeast European rivers are questionable.

Biology. In the material we received from October 2018, there were females with eggs in chaetiger 4, deposited eggs in tubes ( Fig. 13H View FIGURE 13 ) and juvenile specimens with a length of slightly more than 1 mm. The eggs had a size of about 200–300 µm x 70–96 µm. It is therefore not possible to make a reliable statement about the reproduction period of this species.

Ecology. This species was first found on silty bottoms from depths between 17 and 64 m and salinities between about 1.3 to 13.2 psu ( Annenkova 1929a, b).