Troglomysis vjetrenicensis Stammer, 1933

Wittmann, Karl J., Ariani, Antonio P. & Daneliya, Mikhail, 2016, The Mysidae (Crustacea: Peracarida: Mysida) in fresh and oligohaline waters of the Mediterranean. Taxonomy, biogeography, and bioinvasion, Zootaxa 4142 (1), pp. 1-70 : 39-41

publication ID

https://doi.org/ 10.11646/zootaxa.4142.1.1

publication LSID

lsid:zoobank.org:pub:FA423164-276C-44B0-A417-8E97AC3DF0AA

DOI

https://doi.org/10.5281/zenodo.6088679

persistent identifier

https://treatment.plazi.org/id/03B9BA4E-182E-FFF4-CAF6-FC87FDD24693

treatment provided by

Plazi

scientific name

Troglomysis vjetrenicensis Stammer, 1933
status

 

Troglomysis vjetrenicensis Stammer, 1933 View in CoL

Figs 7 View FIGURE 7 C, 11B, 18

Troglomysis vjetrenicensis Stammer, 1933: 1935, 1936 View in CoL ; Caroli 1937; Jeannel, 1949; Thienemann 1950; Karaman 1954; Gordan 1957; Riedl 1966; Holmquist 1972; Mauchline 1972; Mauchline & Murano 1977; Ariani 1981b, 2004; Schram 1986; Ariani et al. 1993; Müller 1993; Pesce et al. 1994; Kobusch 1999; Sket 1999; Anderson 2008; Daneliya et al. 2012; ITIS 2014 ; Mees 2014; Wittmann et al. 2014; Meland et al. 2015.

Material examined. 6 F ad. 10.4–12.8 mm, mostly incubating nauplioid larvae, 1 F subad. 12.0 mm, 1 F imm. 9.7 mm, 1 M ad. 8.9 mm, plus fragments of 2 M ad. and 2 imm., subterranean freshwater lake in the karstic cave Donja Vjetrenica, 42.85N 017.98E, Herzegovina, Sept. 1960, leg. B. Sket, BUL GoogleMaps ; 5 F ad. 9.9–11.1 mm, mostly incubating nauplioid larvae, 1 F subad. 10.6 mm, 2 M ad. 9.4–9.9 mm, sampling data as above, 26 Sept. 1964, BUL; 1 M ad. 11.9 mm in 2 parts, sampling data as above, Oct. 1986, BUL; 1 M ad. 12.5 mm, completely dissected and mounted on slides, freshwater lake in same cave, Sept. 1981, leg. A. P. Ariani; 1 M ad. 10.6 mm, fresh-water in same cave, 4 Aug. 2000, leg. B. Trontelj, BUL.

Short diagnosis. Troglomysis without eye pigment in both sexes, also body without any pigment ( Fig. 7 View FIGURE 7 C). Apical segment is 6–9% total length of antennal scale ( Fig. 18 View FIGURE 18 D). Total length of thoracic endopods, and of their carpopropodus, in particular, decreases strongly in series of endopod 3 to 7, and following this increases strongly to endopod 8; carpopropodus 3–8 with 5–6, 5, 4, 3–4, 3–4, and 4–5 segments, respectively ( Fig. 18 View FIGURE 18 E–K). Telson with 10–13 spines all along each lateral margin, not counting the pair of apical spines; small sinusoid cleft between the apical spines, cleft lined by 5–8 laminae ( Fig. 18 View FIGURE 18 S, T).

Supplements and corrections to the description by Stammer (1936). Rostrum forms a wide convex angle with broadly rounded tip ( Fig. 18 View FIGURE 18 A). Eyestalks distally with external rudiments of cornea ( Fig. 18 View FIGURE 18 B, C) visible in all specimens with eyes well preserved (n = 19; including the smallest one: immature female with 7.3 mm body length). Rudiments of cornea not drawn and not reported by Stammer. Antennal scale with small apical segment bearing five plumose setae ( Fig. 18 View FIGURE 18 D). In contrast, Stammer drew and explicitely stated an unsegmented antennal scale. Flagellum 8-segmented in thoracic exopod 1, and 9-segmented in each of exopods 2–8 ( Fig. 18 View FIGURE 18 L). Stammer figured the exopods 1, 2 correctly, but counted a surplus of one segment for each of exopods 1–8, obviously by considering the large intersegmental joint between basis and flagellum as a distinct segment. Outer distal corner of basis always well rounded ( Fig. 18 View FIGURE 18 L). Thoracic endopods 3–8 ( Fig. 18 View FIGURE 18 E–L): tarsus (carpopropodus plus dactylus) with 6–7, 6, 5, 4–5, 4–5, and 5–6 segments, respectively (Stammer reported only 5, 5, 4, 3, 3, and 5 "tarsal" segments, respectively, presumably by not counting the minute dactylus not mentioned by him); dactylus of endopods 3–7 with long, slender claw ( Fig. 18 View FIGURE 18 E–J); dactylus 8 with very slender, seta-like claw ( Fig. 18 View FIGURE 18 K) in both sexes; paradactylar setae with weak, one-sided armature of small barbs. The previously unknown paradactylar lobes ( Fig. 18 View FIGURE 18 K) on endopod 8 represent an uncommon feature in Mysidae ; endopods 1–7 without such lobes ( Fig. 18 View FIGURE 18 E–J). Scutellum paracaudale triangular with rounded tip, upper and lower margins inconspicuously undulate ( Fig. 18 View FIGURE 18 P–R). Telson cleft is lined by laminae ( Fig. 18 View FIGURE 18 S, T) rather than by spines as otherwise counted and drawn by Stammer (1936: Fig. 17 View FIGURE 17 ).

Statoliths ( Fig. 11 View FIGURE 11 B) composed of fluorite, diameter 96–157 µm; statolith formula 2 + (2–3) + (0–2) + (8–13) + (7–12) = 19–30. General form discoid, maximum height only about 50-70% maximum width. Flattened ellipsoidal in lateral view, subcircular in ventral view. Fundus and ambitus ventrally forming together a weakly vaulted structure.

Occurrence ( Fig. 12 View FIGURE 12 ). Only known from subterranean freshwater lakes and canals in the karstic cave Vjetrenica, one of the world's highest biodiversity cave systems ( Culver & Sket 2000), 42.85N 017.98E, near the village Zavala in the karstic plain Popovo polje, Herzegovina, 12 km from the coast of the Adriatic Sea. Type locality is the Donje jezero ( Lower Lake ) within the Donja Vjetrenica ( Lower Vjetrenica ) in this system. According to Stammer (1936) this lake is 234 m above sea level. GoogleMaps

Comparison. Already Stammer (1936) postulated some similarity but not a close relationship to the genus Diamysis Czerniavsky, 1882 . Ariani (1979) noted that certain Diamysis from the Adriatic basin share with Troglomysis (referring to Stammer’s description) the highest numbers of carpopropodal segments (three or five, respectively) in thoracic endopods 3, 4, and 8, in contrast to fewer in endopods 5–7. Most of our new data make this morphological similarity appear closer: antennal scale with apical segment bearing five setae, and sinus of telson without spines but with laminae. However, the lobes flanking the dactylus of the eighth thoracic endopods represent a newly discovered feature (besides the already known ones), supporting the status of Troglomysis Stammer, 1933 , as a separate genus.

BUL

Natural History Museum of Zimbabwe

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Mysida

Family

Mysidae

SubFamily

Mysinae

Tribe

Mysini

Genus

Troglomysis

Loc

Troglomysis vjetrenicensis Stammer, 1933

Wittmann, Karl J., Ariani, Antonio P. & Daneliya, Mikhail 2016
2016
Loc

Troglomysis vjetrenicensis

Stammer 1935: 1935
1935
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