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First record of Leucoraja circularis (Chondrichthyes: Rajidae) in the Syrian marine waters (Eastern Mediterranean)

  • Hasan Alkusairy
  • Adib Saad
Open Access
Marine Record
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Abstract

Sandy Skate, Leucoraja circularis (Couch, 1838), is recorded for first time from the Syrian marine waters. Two specimens of L. circularis were caught by bottom trawl at depth about 120 m on 20 February 2017, the first specimen was an immature female and the second an immature male; they measured 580 mm and 628 mm total length, and weighed 880 g and 1240 g, respectively. This capture represents the first documented record of the species in the Syrian marine waters (Eastern Mediterranean) so further investigations should be made to detect new species along the Syrian coast.

Keywords

Sandy skate First record Morphometric Syrian coast 

Abbreviations

DW

Disc width

E

East

N

North

TL

Total length

Background

Sandy Skate, Leucoraja circularis, is a relatively large species found in the north-east Atlantic and Mediterranean Sea (McCully et al. 2015). This species is only reported in the western Mediterranean Basin (Stehmann and Burkel 1984; Quignard and Tomasini 2000; Psomadakis et al. 2012). The occurrence of L. circularis have been reported from southern coast of France in the Gulf of Lion (Quignard 1965), the Ionian Sea (Sion et al. 2003), Strait of Sicily (Ragonese et al. 2003), Italian Seas (Consalvo et al. 2009), the northern coast of Tunisia (Mnasri et al. 2009), Sardinian Sea (Follesa et al. 2003), south-western Adriatic Sea (Ungaro et al. 1996), the Tyrrhenian Sea (Serena et al. 2003) and the Aegean sea (Damalas and Vassilopoulou 2009; Bilecenoğlu et al. 2014).

Off the Syrian coasts, five species of rajidae family were recorded; Dipturus oxyrinchus, Raja clavata, Raja miraletus and Raja radula (Saad et al. 2006; Ali and Saad 2010). The species being not reported before in the Levant Basin (Golani 2005; Saad et al. 2006; Ali and Saad 2010). This paper is reporting first occurrence of Leucoraja circularis from Syrian marine waters also from Levant Basin, and providing the principal biometric and meristic characters of this species.

Methods

On 20 February 2017, two specimen of Leucoraja circularis were captured by a bottom trawler about 10 km south-west off the Lattakia coast (Levant Basin of Mediterranean), 35°34′ N 35°37′ E (Fig. 1), at a depth of 100 m. Identification was made from Fischer et al. (1987). Morphomertic data was recorded according Clark (1926), Stehmann and Burkel (1984), McEachran and Fechhelm (1982), Consalvo et al. (2009) and Mnasri et al. (2009), and meristic data was recorded following Stehmann and Burkel (1984) and Consalvo et al. (2009). Additionally, Aloncle (1966) suggested the use of the external distribution of the mucous pores (ampullae of Lorenzini) in ventral surface, for taxonomy of rajid species. Sexual maturity was defined in accordance with maturity scale for oviparous species given by (Anonymous 2010).
Fig. 1

Map of the Mediterranean and Syrian coast (Eastern Mediterranean) pointing out the specimens collecting locality of Leucoraja circularis (black square) and Lattakia city (black circle)

Results

The female and male of Licuraja circularis (Fig. 2) measuring 580 mm and 628 mm total length (TL) and weighing 880 g and 1240 g total weight (TW), respectively. Morphometric and meristic data of the two specimens are summarized in Table 1. The identification of the specimens as Lecoraja genus: Snout short, anterior disc margins somewhat convex, slightly concave; a theoretical line from snout tip to pectoral wing tip cutting front margin of disc; thorns present on disc. The characters of the two specimens Leucoraja circularis were as following: disc subrhombic with broadly rounded outer corners, undulated anterior margins, short, bluntly angled snout (> 110°), tip of which a pronounced. Tail solid, a little longer than body, gradually tapering to its tip, with two small, close-set dorsal fins at rear. Typically, a complete row of seven distinct thorns on each orbital rim and a large triangle of many thorns over nape shoulder region; a median row of thorns from behind shoulder girdle to first dorsal fin. Upper surface of both female and male entirely spinoluse with seven thorns in a complete row around inner margin of eye. Prickles along anterior margin of disc thorns on nape. Four parallel rows of prominent thorns along of tail (in front first dorsal fin). Colour of upper side, red-brown with four white spots on the dorsal disc, more clearly on the male. Ventral surface entirely smooth. Colour of underside, white.
Fig. 2

The two specimens of Leucoraja circularis caught off the coast of the Syrian marine waters, a: female; b: male, scale bar = 100 mm

Table 1

Morphometric and meristic characteristics of two specimens of Leucoraja circularis (female and male) from the coast of Syria, and compared with similar data previously recorded in specimen caught off the central Tyrrhenian Sea. Measurements are given as (mm) and as percentage value of TL (%)

Authors

This study

Consalvo et al. (2009)

Specimens

Female

Male

Male

Year of capture

2017

2017

2005

Total mass in gram

880

1240

1329

Morphometric measurements

mm

%TL

mm

%TL

mm

%TL

Total length

580

100.0

628

100.0

663

100.0

Disc length

288

49.7

332

52.9

325

49.0

Disc width

364

62.8

403

64.2

400

60.0

Disc depth

24

4.1

27

4.3

Eye ball length

15

2.6

18

2.9

20

3.0

Pre-orbital length

61

10.5

65

10.4

70

10.5

Inter-orbital width

23

4.0

24

3.8

25

3.8

Spiracle length

14

2.4

16

2.5

12

1.8

Inter-nasal width

39

6.7

42

6.7

Inter-spiracular width

37

6.4

40

6.4

42

6.3

Pre-oral length

67

11.6

70

11.1

75

11.3

Mouth width

45

7.8

50

8.0

50

7.5

Width between first gill slit

87

15.0

92

14.6

Width between fifth gill slit

55

9.5

63

10.0

Snout tip to first gill slit

111

19.1

120

19.1

Pectoral fin anterior margin

235

40.5

275

43.8

Pectoral fin posterior margin

162

27.9

170

27.1

Pectoral fin inner margin

59

10.2

62

9.9

Pelvic fin anterior margin

65

17.9

69

17.1

Pelvic fin posterior margin

84

14.5

87

13.9

Pelvic fin inner margin

47

8.1

55

8.8

Tail base fin

40

6.9

46

7.3

Snout tip to nasal curtain

55

9.7

57

9.2

57

8.6

Snout tip to first dorsal fin

507

87.4

537

85.5

576

86.9

Snout tip to second dorsal fin

546

94.1

577

91.9

Distance-snout tip to cloaca

260

44.8

283

45.1

290

43.7

Distance-cloaca to end of tail

320

55.2

345

54.9

Clasper length

37

5.9

102

15.4

Teeth in rows upper jaw

39

39

39

Teeth in rows lower jaw

34

34

33

Nictitating lamellae

15

15

7

Median row thorns

26

28

26

Alar thorns

11

11

11

Orbital ring (thorns)

7

7

5

Truncal vertebrae

32

32

Pectoral fin rays

90

90

Pseudo-branchial

16

16

Nictitating lamellae

15

15

Aloncle’s line showed that the wing is rather narrow and sharped in its distal end, the curve is strongly rounded and the point is a bit larger than the wing (Fig. 3).
Fig. 3

Line of Aloncle drawn from external distribution of mucous pores (ampullae of Lorenzini) on ventral surface of Leucoraja circularis showing wing (wg), curve (cv) and point (pt), scale bar = 100 mm

The two specimens were classified as an immature; in male, claspers flexible and shorter than pelvic fins, testes small, and sperm ducts straight and thin; in female, ovaries small, ovarian follicles absent, and oviducal gland barely visible.

Discussion

Leucoraja circularis has no occurrence off the eastern Basin (Mnasri et al. 2009). This is the first documented record of L. circularis in Eastern Mediterranean. Consalvo et al. (2009) reported the first record of a male of L. circularis was captured from Tyrrhenian Sea in 2005 (Table 1), The morphometric and meristic (teeth in rows upper jaw, teeth in rows lower jaw, nictitating lamellae, median row thorns, alar thorns and orbital ring) characters have been shown to be pretty close to those results of Consalvo et al. (2009). Mnasri et al. (2009) suggested that females and males of L. circularis from the northern coast of Tunisia became adult at above 420 mm and 400 mm DW, respectively. In this paper, the male (TL = 628 mm, DW = 403 mm) and the female (TL = 880 mm, DW = 364 mm) were immature, this is compatible with result of Mnasri et al. (2009). All patterns of Aloncle’s line in agreement with Mnasri et al. (2009).

The occurrence of Leucoraja circularis in the Mediterranean Sea has decreased significantly over the last 60 years (McCully et al. 2015). Moreover, it disappeared from some areas. The distribution of L. circularis records in the Mediterranean are presented in Fig. 4, To date the species is rather known in the Italian Seas (Consalvo et al. 2009; Psomadakis et al. 2012), although it seems to be more abundant in the Ionian Sea (Bertrand 2000). Additionally, in the Aegean Sea; Damalas and Vassilopoulou (2009) recorded 65 specimens of L. circularis in the bottom trawl fishery of the central Aegean Sea during 1995–2006, and Yıĝın et al. (2015) listed L. circularis in the diversity table of sharks and batoids in the Aegean Sea. This record is giving Leucoraja circularis distribution an extended range in the Mediterranean toward Levant Basin.
Fig. 4

The distribution of L. circularis records in the Mediterranean, previous records: black circles, current record: black square

Conclusions

The number of the recorded cartilaginous species in the Syrian coast is still limited comparing to other regions of the Eastern Mediterranean Basin; this indicates that the cartilaginous species which could be present in the Syrian marine waters have not been reported yet. The occurrence of the two immature specimens of L. circularis off the Syrian coast could suggest that a probable L. circularis population is established in the area. However, such a hypothesis needs further confirmation.

Notes

Acknowledgements

Not applicable.

Funding

Not applicable.

Availability of data and materials

The specimens are available at Marine Science Laboratory- Tishreen university- Lattakia- Syria.

Authors’ contributions

HA and AS examined specimens, and drafted the manuscript. Both authors gave the final approval for publication.

Ethics approval and consent to participate

No ethical approval or consent to participate was required.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

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Authors and Affiliations

  1. 1.Marine Sciences Laboratory, Faculty of AgricultureTishreen UniversityLattakiaSyria

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