Synurella ambulans (F. Müller, 1846 )

Synurella ambulans (F. Müller, 1846) View in CoL (sensu stricto)

Figs 2-9 View Fig View Fig View Fig View Fig View Fig View Fig View Fig View Fig

Gammarus ambulans F. Müller, 1846: 296 , Taf. 10, figs A-C (original description).

Synurella ambulans Stebbing, 1906: 369 View in CoL .

Synurella polonica Wrześniowski, 1877: 403 View in CoL .

Synurella ambulans meschtscherica Borutzky, 1929: 30 View in CoL , figs 1-17, syn. nov.

Synurella meschtscherica Birstein, 1948: 70 View in CoL .

Stygobromus ambulans Barnard, 1983: 438 View in CoL .

Stygobromus meschtschericus Barnard, 1983: 440 View in CoL .

Synurella ambulans View in CoL – Schäferna 1922: 57, tab. 1 (10), tab. 2 (1-4), text-figs 26-29. — Borutzky 1927: 63. — Schellenberg 1942: 85, Fig. 66.

Synurella polonica View in CoL – Stebbing 1906: 369. — Jarocki & Krzysik 1924: 555.

Synurella ambulans meschtscherica View in CoL – Straškraba 1962: 132.

Synurella meschtscherica View in CoL – Barnard 1958: 75. — Straškraba 1967: 208. — Karaman 1974a: 124. Stygobromus meschtschericus View in CoL – Starobogatov 1995: 192. — Chertoprud 2006a: 19; 2006b: 382.

Diagnosis

Medium-sized species with marked secondary sexual dimorphism. Body pigmented. Gnathopod 2 larger than gnathopod 1. Pereopod 6 longer than pereopod 7. Pereopod 7 basis without distinct posterior lobe. Coxal gills on pereopods 2–7, gill 7 very small. Sternal gills arrangement as following: pereonite 2 (-2-), pereonite 3 (-2-), pereonite 6 (1-1), pereonite 7 (1-1), pleonite 1 (1-1). Brood plates 2–5 (oöstegites) rather broad, with long marginal setae. Body length 3.5 – 6.0 mm (♀), 3.0 – 4.5 mm (Ƌ).

A distinctive feature of this species is a well-marked broad yellowish spot ( Fig. 2A View Fig ) located on the dorsal surface of the head between eyes. The spot is discernible only in living animals.

Material examined

GERMANY.All specimens (3 ♀♀, 1 Ƌ) completely dissected and mounted on a single slide per number: [ MSU Mb-1146] ♀ (oöstegites developed, setose) 5.7 mm and Ƌ 4.2 mm, [ FENU X34906 View Materials /Cr-1406] ♀ (oöstegites developed, setose) 5.5 mm and ♀ (oöstegites developed, setose) 5.2 mm. Mecklenburg- Vorpommern, Kassow (53°87’76.3”N 12°07’67.2”E), 21 May 1997, collected by M. Zettler.

RUSSIA. All specimens completely dissected and mounted on a single slide [ FENU X34906 View Materials /Cr-1406], 8 ♀♀, 2 ƋƋ: ♀ (oöstegites developed, setose) 6.0 mm, Pskov area, Pustoshkinsky, near Yezerische Lake, Kholodny brook (56°24’10”N 29°08’33”E), 20 Aug. 2010, collected by D. Palatov; 2 ♀♀ (oöstegites developed, setose) 3.5 mm and 5.5 mm, Bryansk area, Navlinsky, Desna River basin, near Partizanskoye, pond (52°45’77’’N 34°22’72’’E), 17 Sep. 2009, collected by D. Palatov; ♀ (oöstegites developed, non-setose) 5.5 mm and ♀ (oöstegites developed, setose) 4.0 mm, Kaluga area, Ferzikovsky, Oka River basin, spring (54°29’47’’N 36°21’41’’E), 02 Jul. 2007, collected by D. Palatov; ♀ (oöstegites developed, non-setose) 5.2 mm and Ƌ 4.5 mm, Moscow area, Orekhovo-Zuevo, ~ 3.5 km E of Voinovo, Chernaya River (55°50’42’’N 39°04’82’’E), 02 May 2009, collected by D. Palatov; ♀ (oöstegites developed, setose) 5.0 mm. Nerskaya River basin, near Podosinky, brook (55°34’18’’N 38°49’12’’E), 27 Aug. 2005, collected by D. Palatov; 2 ♀♀ (oöstegites developed, non-setose) 4.0 mm and 3.8 mm, ~ 2.5 km NE of Anciferovo, “Anciferovsky Spring” (55°33’85’’N 38°48’17’’E), 8 Jan. 2010, collected by D. Palatov; Ƌ 4.0 mm. Vladimir area, Petushinsky, Markovo, brook (55°52’11’’N 39°17’15’’E), 22 Apr. 2007, collected by D. Palatov.

Additional material examined

All specimens measured, partially dissected and stored in different vials [ IBSS 17/2 SD], ca. 82 ♀♀, 33 ƋƋ: 3 ♀♀, 4 ƋƋ, Vladimir area, Petushinsky, ~ 3 km SE of Usad, small floodplain lake (55°51’27’’N 39°08’76’’E), 02 May 2009, collected by D. Palatov; 4 ♀♀, Gus-Khrustalny, near Shestimirovo, Buzha River basin, brook (55°27’09’’N 40°13’68’’E), 14 May 1994, collected by M. Chertoprud and D. Palatov;

4 ♀♀, Ryazan area, Klepiki, ~ 1.5 km NW Shmeli, Yalma River basin, spring (55°12’93’’N 39°55’63’’E), 02 Oct. 2006, collected by M. Chertoprud and D. Palatov; 38 ♀♀: near Velikodvorye, Yalma River basin, springs (55°12’46’’N 39°59’12’’E), 20 Oct. 2006, collected by D. Palatov; ca. 50 ♀ Ƌ, Kaluga area, Ferzikovsky, ~ 2 km E of Majakovsky, Oka River basin, spring (54°29’47’’N 36°21’41’’E), 30 Apr. 2011, collected by D. Palatov; 5 ♀♀, 4 ƋƋ, Bryansk area, Navlinsky, near Dumcha, Dumcha River basin, springs (52°49’35’’N 34°10’48’’E), 19 Sep. 2009, collected by D. Palatov; 2 ♀♀, Pskov area, Pustoshkinsky, Velikaya River basin, ~ 2 km W of Vysotskoe, brook (56°26’68’’N 29°22’06’’E), 16 Aug. 2010, collected by D. Palatov.

Type locality

Germany, Mecklenburg-Vorpommern, Greifswald (approx. 54°5’N, 13°23’E), ditches (F. Müller, 1846). Type material stored in the zoological collection of the Greifswald University ( Zettler 1998: 57).

Redescription

Male

LENGTH. 4.5 mm, FENU X34906 View Materials /Cr-1406.

HABITUS. ( Fig. 2B View Fig ) Not stygomorphic.

BODY. Slender with elongate appendages, color yellowish.

HEAD. Eyes ( Figs 2B View Fig ; 9) vestigial, black; yellow spot ( Fig. 2A View Fig ) located on the dorsal surface of the head between eyes characteristic for living specimens. Antenna 1 ( Fig. 4A View Fig ) 55% length of body, 30% longer than antenna 2; peduncular segments 1–3 in length ratio 1:0.8:0.6; primary flagellum with 13 segments; aesthetascs present. Antenna 2 ( Fig. 4B View Fig ), peduncular segments 4 and 5 in lengths ratio 1:1; flagellum with 5 segments; calceoli present. Left mandible ( Fig. 4F View Fig ) incisor 5-dentate; lacinia mobilis 5-dentate; setal row with 3 serrate setae. Right mandible ( Fig. 4G View Fig ) incisor 5-dentate; lacinia mobilis trifurcate. Molar process ( Fig. 4F, G View Fig ) triturative, with accessory seta. Palp mandible ( Fig. 4G View Fig ) segment 2 slightly longer than segment 3; segment 3 with 1 A-seta, 2 C-setae, 6 D-setae and 4 E-setae. Lower lip ( Fig. 4E View Fig ), inner lobes present; mandibular process indistinct (broad). Maxilla 1 ( Fig. 4C View Fig ), inner plate with 7 plumose setae; outer plate with 7 serrate setae; palp segment 2 about 2x longer than segment 1. Maxilla 2 ( Fig. 4D View Fig ), inner plate with 6 plumose setae. Maxilliped ( Fig. 4 View Fig I-K) inner plate with 3 strong apical setae; outer plate broad. Foregut lateralia with 8 strong pectinate setae.

PEREON. Gnathopod 1 ( Fig. 3A View Fig ), propodus palm beveled, defining angle distinct, palmar modified setae at defining angle present, palm with cutting margin smooth, palm with 19 simple strong setae in two rows; dactylus, inner margin smooth. Gnathopod 2 ( Fig. 3B View Fig ), propodus larger than gnathopod 1 propodus; palm distinctly beveled, defining angle distinct, palmar modified setae at defining angle present, palm with cutting margin smooth, palm with 24 simple strong setae in two rows; dactylus, inner margin smooth. Pereopod 6 longer than pereopod 7. Pereopods 5–7 ( Fig. 5 View Fig C-E) bases expanded, posterior margins with serration. Pereopods 3–7 ( Fig. 5 View Fig A-E) dactyli elongated, about 40–50% length of corresponding propodi. Coxal gill 7 present. Paired median sternal gills on pereonite 2 and pereonite 3. Single lateral sternal gills on pereonite 6, pereonite 7 and pleonite 1.

PLEON. Epimeron 1 ( Fig. 6D View Fig ), posteroventral corner acute or sub-acute, ventral margin unarmed. Epimera 2–3 ( Fig. 6D View Fig ), posteroventral corner acute or sub-acute, ventral margins armed. Pleopods 1–3 ( Fig. 6 View Fig A- C), peduncular segments with 2 coupling setae (retinaculae). Uropod 1 ( Fig. 6E View Fig ), inner ramus 80% as long as peduncle, distal peduncular process absent. Uropod 2 ( Fig. 6F View Fig ) about 65% as long as uropod 1, peduncle shorter than inner ramus; inner ramus longer than outer ramus. Uropod 3 ( Fig. 6G View Fig ) uniramous, peduncle or/and lateral margin of ramus armed. Telson ( Fig. 6H View Fig ) not tapered distally, rather elongate, 1.8x longer than broad, about 10% longer than uropod 3, apical margin cleft on 1/3 of total length, with 6 strong notched setae on each lobe.

Dimorphism

Female

LENGTH. 5.5 mm, FENU X34906 View Materials /Cr-1406), sexually dimorphic characters.

BODY. ( Fig. 2C View Fig ) Stout, appendages shortened.Antenna 1 45% longer than antenna 2. Antenna 2 ( Fig. 8B View Fig ) flagellum with 6 segments; calceoli absent. Gnathopod 1 ( Fig. 7A View Fig ), propodus palm transverse or scarcely sub-transverse with cutting margin acanthaceous, palm with 8 simple strong setae in two rows; dactylus, inner margin with setae. Gnathopod 2 ( Fig. 7B View Fig ), propodus palm with cutting margin acanthaceous, palm with 7 simple strong setae in two rows; dactylus, inner margin with setae. Pereopods 3–7 ( FIG. 8 View Fig C-E), dactyli about 45–50% length of corresponding propodi. Uropod 1 ( Fig. 8G View Fig ), inner ramus as long as peduncle. Uropod 2 ( Fig. 8H View Fig ) about 60 % as long as uropod 1. Telson ( Fig. 8J View Fig ) somewhat tapered distally, slightly elongate, 1.1x longer than broad, as long as uropod 3. Oöstegites 2–5 large, ovoid with long marginal setae.

Variability

Karaman (1974a) pointed out a significant variability in several morphological features for S. ambulans . However, in our analysis of individuals from the different parts of its range in Russia and Germany, we could not discover any significant variance in the shape of the lateral cephalic lobes, epimera, uropods, telson or bases of pereopod 7 ( Fig. 9 View Fig ). In adults we observed elongation of the pereopod 7 bases and the presence of many robust setae on the lower edge of the epimera 2–3. Ommatidia were larger in young animals but their number was smaller than the one in adults. We also noted a slight variation in the length of the antenna 1 50–55% length of body and 40–45% longer than antenna 2, and a considerable variation in the length of pereopods 3–7 dactyli (35–50% length to corresponding propodi). The number of segments in the flagellum of antenna 1 equals 12–16. The specimens from Kholodny brook, near Yezerische Lake ( Russia, Pskov area, Pustokshinsky) have a slightly different setation pattern of maxilliped palp segments 3 and 4 ( Fig. 4L View Fig ), but are otherwise indistinguishable.

Remarks

Borutzky (1929: 32) adduced several distinctive characters which, in his opinion, were sufficient to distinguish S. a. meschtscherica from S. a. ambulans : relative length of the both antennae, the stronger armament of mouthparts (viz., presence of scopiform bundles of setules on palpi of mandibles and maxilliped, presence of molar setae), armament of uropod 3 peduncle, the shape and armament of telson. After analyzing Borutzky’s description, we are convinced that he has mixed details (p. 33) of males and females without explanation: the cited characters of the antenna 2 and the gnathopods belong to the female, while the telson characters are typical of the male. Moreover, Borutzky (loc. cit.) compared his own “mixed” description to the incomplete description by Schäferna (1922), who also depicted the female’s telson without indication of gender. Borutzky (loc. cit.) evidently did not have Müller’s (1846) original description at hand, in which the latter explains why he attributed subspecies status to his specimens.

The comparison of the material of S. ambulans from Russia, previously identified as Synurella meschtscherica , with that from Germany revealed no morphological differences between them. Comparison of the variability of the original samples with species descriptions by Müller (1846), Schäferna (1922) and Borutzky (1929) showed that both species are identical. We therefore consider

Synurella ambulans meschtscherica Borutzky, 1929 a junior synonym of nominative S. ambulans (F. Müller, 1846) .

The taxonomic status and geographic distribution of previously described forms of S. ambulans are in need of a substantial revision. In our opinion the complex classification of S. ambulans is caused by: 1) a poor first description of the species by F. Müller and 2) a relatively wide distribution of the genus in Europe. It is possible that S. ambulans , ranging widely in Europe and Asia with significant variability reported by some authors (see above), is actually a series of several cryptic species.

A few discrepancies were found in the comparison with the original description. Borutzky (loc. cit.) reported the body length of individuals within the range of 6–12 mm for mature specimens without an indication of the method of measurement. Our largest individual has a body length of 6.0 mm. We have also studied the samples from Velikodvorskye springs of Ryazan area, previously also explored by Borutzky, where females up to 5.0 mm body length were found. Borutzky (1929: 32) also found a somewhat larger number of segments of the flagellum of the antenna 1, 18–24 (males) and 16–22 (females), and reported on eyeless individuals which are absent in our collections. However, the observed variability was not documented by this author, eyeless individuals were not described and had not been given a special status. The inaccuracy of Borutzky’s description confirmed our doubts about the validity of S. meschtscherica and convinced us that only one form of Synurella is present in the Meschtschera Lowland.

Distribution

RUSSIA. Pskov area: Pustoshkinsky region. Vladimir area: Petushinsky and Gus-Khrustalny regions. Moscow area: Orekhovo-Zuevo, Egoryevsk and Shatura regions ( Chertoprud 2006a, 2006b). Ryazan area, Klepiki ( Borutzky 1927, 1929). Kaluga area: Ferzikovsky region. Bryansk area: Navlinsky region.

Although S. ambulans was found in extensive territories in West Russia, it was absent in a number of different springs (see map) with a rich crenophilous fauna. This mosaic distribution is apparently caused by environmental factors.

Synurella ambulans has been reported from many countries situated on the Great European Plain including Belgium ( Boets et al. 2010), Germany ( Heckes et al. 1996; Zettler 1998; Eggers & Martens 2001), Poland ( Konopacka & Sobocinska 1992), Lithuania ( Arbačiauskas 2008) and Belarus ( Giginyak & Moroz 2000).

Ecology

Stygophile, predominantly occupying semi-subterranean habitats. Biotopes mostly including wetlands, bogs, wetland areas of streams with swampy shores nearly everywhere overgrown with Alnus (see Borutzky 1929).

Synurella ambulans dwells in various springs, stagnant parts of the rivers and brooks connected with the ground outlets of subterranean waters, frequently associated with the asellid isopod Asellus aquaticus (Linnaeus, 1758) . A characteristic features of all microhabitats are their stagnant or very slowly flowing waters, not exceeding 0.1 m /sec; a water temperature generally ranging between 2.0 and 16.0 °C, a low oxygen concentration of 3.0– 9.0 О 2 mg /l, a рН between 5.0–8.0 and low mineralization not higher than 197.5–353.1 mg /l (once 510.0 mg/l) ( Nesemann et al. 1995; Giginyak & Moroz 2000; Chertoprud 2006a). Springs are often covered with Lemna and Hydrocharis , or densely grown with Elodea and Fontinalis ; bottoms are composed of detritus, sand, mud, snags and leaf litter. Dendrocometes paradoxus Stein, 1852 (Protozoa, Infusoria, Suctoria) is a common ectoparasite on the coxal gills of S. ambulans (see Taylor & Sanders 2001).

The rare findings of S. ambulans in a number of a small floodplain lakes in the spring could be explained by the flood drift. However, most interesting is the accidental discovery (by DP) of a mass congestion of S. ambulans on the shallows of a large lake in the Velikaya River basin (Pskov area) in winter. It is possible that these crustaceans can survive adverse winter conditions by “warming up” near oozing from the bottom fontanels.