1. Geological setting

3. Systematic palaeontology

Class Thelodonti Kiaer, Reference Kiaer and Heintz1932

Order Sandiviiformes Karatajūtė-Talimaa & Märss, Reference Karatajūtė-Talimaa, Märss, Novitskaya and Afanassieva2004

Family Angaralepididae Märss & Karatajūtė-Talimaa, Reference Märss and Karatajute-Talimaa2002

Type genus. Angaralepis Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1997.

Type species. Angaralepis moskalenkoae (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978).

Angaralepis moskalenkoae (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978)

(Figs 2, 8A)

Figure 2 Angaralepis moskalenkoae (Karatajūtė-Talimaa 1978). (A–D) Rostral scales: (A)10–301; (B) 10–303; (C) 10–302; (D)10–304, basal view. (E–H) Cephalo-pectoral scales: (E) 10–305; (F) 10–306; (G) 10–307; (H) 10–308. (I–P) Postpectoral and precaudal scales: (I) 10–309; (J) 10–310; (K) 10–311; (L) 10–312, basal view; (M) 10–313; (N) 10–314; (O) 10–315; (P) 10–316, basal view. (R–U) Pinnal scales: (R) 10–317; (S) 10–318; (T) 10–319; (U) 10–320. Lower Silurian, Lower and Upper Llandovery, Moyerocanian and Agidyan Regional Stages, Raasokha Formation, Ilim district, Irkutsk subregion, East Siberia, Russia.

1. 1967 Logania cf. cruciformis Gross, p. 36–37, pl. 4, figs 1–9, 12A–J.

2. 1978 Logania cf. cruciformis Gross, 1967; in Karatajūtė-Talimaa, p.86, pl. XX, 1, 13, 14; fig. 18, 4–6.

3. 1978 Logania moskalenkoae Karatajūtė-Talimaa, p.86, Pl. XX, 15–19; fig. 18, 7–9.

4. 1995 Loganellia? moskalenkoae; (Karatajūtė-Talimaa), in Karatajūtė-Talimaa & Predtechenskyj, p. 43, figs 4–5.

5. 1997 Angaralepis moskalenkoae (Karatajūtė-Talimaa); Karatajūtė-Talimaa, p. 9, 10; fig. 5, 6.

6. 2007 “Logania?” cf. cruciformis (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978) Märss et al., p. 61.

Holotype. LGI 10-148, body scale, tab. XX, fig. 17, Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978.

Type locality and horizon. Nizhniaya Tchunku river outcrop, Kochumdek district, Pritunguska subregion, East Siberia, Russia; Lower Silurian, Upper Llandovery, Razvilka Formation, outcrop Nr. 2 (Moskalenko Reference Moskalenko and Obruchev1968).

Material. Several thousand well-preserved scales; collection series number LGI 10; of which LGI 10-301 to LGI 10-320 have been pictured under the SEM; and LGI 10-174, studied and pictured as thin sections.

Geographical and stratigraphical range. Lower Silurian, Lower and Upper Llandovery, Moyerocanian and Agidyan Regional Stages, Raasokha Formation; Ilim district, Irkutsk subregion, East Siberia, Russia. Lower Silurian, Middle and Upper Llandovery, Khaastyrian and Agidyan Regional Stages, Utakan Formation; Niuya–Beresovo district, Niuya–Beresovo subregion, East Siberia, Russia. Lower Silurian, Upper Llandovery, Agidyan Regional Stage, Razvilka Formation; Kochumdek district, Pretunguska subregion, East Siberia, Russia.

Emended diagnosis (modified after Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1997). Scales are small (0.2–0.4 mm long), wide and high in comparison to their length. Crown is strongly serrated, with sharp central crest and at least two, most often three, pairs of uniformly sharp lateral ribs, all converging towards a sharp, pointed, arrow-like posterior end. Sharp notches of the ribs characterise the anterior rim of the crown, while the posterior part has one or three pointed end-notches. Neck is high, usually with vertical ridgelets on its posterolateral walls. Base is low, rhomboid and smaller than the crown, except in the older rostral scales, where pulp depression is wide and shallow. Any scales with overgrown pulp opening or very high or thick base have not been observed. Dentine is composed of thin tubules, which are narrow, do not branch and extend regularly; pulp cavity is not developed.

Remarks. The first collection of the scales from a locality on the Lower Tchunku river (Kochumdek district, Pritunguska subregion, W East Siberia, Russia) was made by T. A. Moskalenko in 1968, and this was the basis on which Logania moskalenkoae Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978 was described. However, that series contained only a few head and body scales (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978, table XX, figs 13–19). Later, more numerous material was found in Middle Llandovery rocks (Niuya–Beresovo district, Niuya–Beresovo subregion, East Siberia, Russia), yielding well-preserved transitional and body scales, and the species was determined as Loganellia? moskalenkoae by Karatajūtė-Talimaa & Predtechenskyj (Reference Karatajūtė-Talimaa, Predtechenskyj, Arsenault, Lelièvre and Janvier1995). This range allowed Karatajūtė-Talimaa to complement the morphological series, as well as histological study, and for the species to be ascribed to a new genus, Angaralepis Karatajūtė-Talimaa (Reference Karatajūtė-Talimaa1997), a new family, Angaralepididae Märss & Karatajūtė-Talimaa (Reference Märss and Karatajute-Talimaa2002), and a new order, Sandiviiformes Karatajūtė-Talimaa & Märss (Reference Karatajūtė-Talimaa, Märss, Novitskaya and Afanassieva2004) (Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007).

Further material has been revealed from the Upper Llandovery of the Ilim district, Ilim subregion, and the Niuya–Beresovo district, Niuya–Beresovo subregion (East Siberia, Russia), as well as from the Lower Llandovery (Ilim district, Ilim subregion, East Siberia, Russia).

In addition, I refer to A. moskalenkoae a set of cross-shaped scales, originally attributed to L. sp. cf. L. cruciformis by Karatajūtė-Talimaa (1978, p. 96, pl. XX: 1, 13, 14; fig. 18: 4–6). The interpretation of these scales as the head scale morphological type of L. cuneata was suggested at that time, and figured with their first description (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978), together with the possible attribution of these scales to L. moskalenkoae (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978, p. 98). Recently, Märss et al. (Reference Märss, Turner and Karatajūtė-Talimaa2007, p. 61) have interpreted “Logania?” cf. cruciformis (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978) as the head scales of some species of Loganellia. In this study, additional new material of A. moskalenkoae has been revealed, and scale histology has been examined, all indicating that L. sp. cf. L. cruciformis scales should be interpreted as the rostral (head) scales of A. moskalenkoae.

Any scales that might correspond to the leading edges of fins were not distinguished morphologically during the first description by Karatajūtė-Talimaa in 1978, although a histological thin section on one of the scales of this type was published (Karatajūtė-Talimma Reference Karatajūtė-Talimaa1978; fig. 18: 7).

Description. Morphology. Rostral scales are low, round, slightly oval or cross-shaped. The crown is low, with sharply and unevenly notched edges, forming characteristic cross-shaped wings of the crown (Fig. 2A–D). The number of the notches usually varies from four to six, leaving a corresponding number of more or less sharpened cross-shaped crown ridges. The surface of the crown is smooth, flat or slightly bulging. The neck is reduced, and the base is very low, thin and sometimes almost invisible in the earliest stages of scale development. In the last case, rostral scales possess a very fine general morphology. In older scales, the base may become wider than the crown, which is the only case of a wider base, considering the whole morphological set of the species. The low cross-shaped scales of L. sp. cf. L. cruciformis (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978, p. 96, pl. XX: 1, 13, 14; fig. 18: 4–6), are attributed to the rostral scales of A. moskalenkoae herein.

Cephalo-pectoral scales correspond to the transitional scales, as determined by Karatajūtė-Talimaa (Reference Karatajūtė-Talimaa1978). They are oval, sharply wedged and still slightly cross-shaped, like the rostral scales (Fig. 2E–H). This type of A. moskalenkoae scale is the least abundant in comparison to other morphological types.

Postpectoral and precaudal scales are rhomboidal and slightly laterally expanded, with a typical serrated sculpture of the crown. The crown is high, wider than the base, with a sharp central crest and most often three pairs (Fig. 2I–K), or at least two pairs (Fig. 2L–P), of uniformly sharp lateral ribs of similar height, all converging towards a sharp, pointed posterior end. The crown can be divided into its high anterior part, covered with longitudinal ribs, and a narrower posterior part, which is usually anchor-shaped and separated from the anterior part by lateral cavities. The anterior rim of the crown is sharply notched, and the posterior part is arrow-like, with one (Fig. 2O) or three (Fig. 2K) pointed end-notches. Sometimes the crown can be double-notched in its posterior part, so that the most lateral pair of ribs forms a lower plane with an anchor-shaped end, and the central rib forms a arrow-shaped pointed end above it (Fig. 2M). The inner surface of the crown is smooth, only traces of lateral cavities can be distinguished. The posterior end of the crown is uplifted, at an angle of about 25–30° in comparison to the base plane. The neck is high, often possessing vertical ridgelets on its posterolateral walls. The neck can also be divided into anterior and posterior parts, separated by very sharp ridges, descending from the last pair of the lateral ridges of the crown. The base is considerably narrower than the crown; it is low and has a shape of a wide rhomb, usually with a wide and shallow pulp depression. The pulp opening is never overgrown, even in mature scales. Scales with a high thick base have not been observed.

Pinnal scales are sharp and hook–shaped, very high, with distinct very sharp lateral ribs, continuously extending from the neck through to the crown, and converging to a pointed posterior end of the crown (Fig. 2R–U). Central and lateral ridges are rather uniform in width and shape, except that the central ridge is the longest one. The anterior and posterior parts can not be distinguished on the crown, unlike in the postpectoral and precaudal scales, but the pointed posterior end of the crown is considerably uplifted in comparison to its anterior rim, at about a 40° angle in comparison to the base plane. The inner surface of the crown is not smooth, with the same sharp ridges as the outer surface. The neck is serrated, with vertical ridges along all of its walls, indistinctly continuous with the crown. The base is extremely low and slightly rhomboid; the pulp depression is very wide.

Histology. The internal structure of the A. moskalenkoae scales represents a regular thin tubule dentine: the dentine tubules are narrow, comparatively long, do not branch and extend rather straight, especially in the posterior part of the crown. Only some tubules near the base are slightly wider and branching (Fig. 8A). The pulp canal is not developed. Dentine tubules open directly onto the pulp depression, or onto the surface of the base, sometimes even on the lower surface of the crown. Few Sharpey's fibres have been observed in the base (Fig. 8A). The base is very low and comparatively small, and therefore most of the scale is composed of the dentine tissue.

Comparison. A. moskalenkoae possesses quite a distinct morphology as compared to the other thelodont species of the region. The specific sharp wedge-shaped midline trough and high number of lateral ribs are not characteristic to the genera Loganellia and Talimaalepis. Angaralepis also has a very high neck, in contrast to the always low or strongly reduced neck of loganiid and talimaalepid scales. The internal structure of the Angaralepis scales shares some similarities with loganiid scales; for example, the absence of a pulp depression and thicker dentine tubules, and the thin tubule dentine has quite a regular tubule branching pattern, in contrast to the irregular one found in loganiids. However, due to the distinct morphology, A. moskalenkoae is attributed to the order Sandiviiformes, as opposed to Loganellia and Talimaalepis, which belong to the order Loganelliiformes.

Order Loganelliiformes Turner, Reference Turner, Chang, Liu and Zang1991

Family Loganelliidae Märss, Wilson & Thorsteinsson, 2002

Type genus. Loganellia Fredholm, Reference Fredholm1990 – Turner Reference Turner, Chang, Liu and Zang1991.

Type species. Loganellia scotica (Traquair, Reference Traquair1898).

Remarks: Recently, Märss et al. (Reference Märss, Turner and Karatajūtė-Talimaa2007, p. 49) attributed the family name Loganelliidae to Märss et al. (Reference Märss, Wilson and Thorsteinsson2002), see also Hairapetian et al. (Reference Hairapetian, Blom and Miller2008). However, Karatajūtė-Talimaa first introduced the family Loganiidae (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978, p. 66) and then later she created the subfamily name Loganelliinae (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1997, p. 14), following the emendation of the genus name (Logania=Loganellia, Fredholm, Reference Fredholm1990, p. 69). By creating the subfamily name, Karatajūtė-Talimaa is the author of the coordinate family name Loganelliidae (International Commission on Zoological Nomenclature 1999, article 36.1). As a result, the accurate family name citation would be “Loganelliidae Karatajūtė-Talimaa, 1978 emend Karatajūtė-Talimaa, 1997 (see also Märss et al. Reference Märss, Wilson and Thorsteinsson2006, p. 16). Eventually, the Loganelliidae Märss et al. Reference Märss, Wilson and Thorsteinsson2002 is choosen because earlier treatment of the taxon by Karatajute-Talimaa (Reference Karatajūtė-Talimaa1997) had mistakes. On page 2 she used Loganiidae (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978) with type genus as Loganellia (Turner Reference Turner, Chang, Liu and Zang1991) indicated. Loganiidae was not valid, as the family name must be based on the generic name valid at that time (i.e. Loganellia). On page 14 she established a new subfamily Loganelliinae, which was once thought to be correct, but it had two genera included and the subfamily had no diagnosis. Also, the type genus was not explicitly indicated.

The genus name Loganellia, in replacement of both “Logania” Gross, 1967 and “Loganella” Turner & Peel, Reference Turner, Peel and Peel1986, used to be attributed to Turner (Reference Turner, Chang, Liu and Zang1991), see e.g., Karatajūtė-Talimaa & Märss (Reference Karatajūtė-Talimaa, Märss, Novitskaya and Afanassieva2004, p. 18), Märss et al. (Reference Märss, Wilson and Thorsteinsson2006, p. 17). However, the name Loganellia was first published by Fredholm (Reference Fredholm1990, p. 69), who inadvertently cited the article of Turner, which was in press at that time (published as Turner Reference Turner, Chang, Liu and Zang1991). Therefore, the correct name should be “Loganellia Fredholm, 1990” (see Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007, p. 49; Hairapetian et al. Reference Hairapetian, Blom and Miller2008).

Loganellia asiatica (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978)

Figs 3, 8C, D

Figure 3 Loganellia asiatica (Karatajūtė-Talimaa 1978). (A–B) Rostral scales, type A: (A) T-550; (B) T-551. (C–D) Rostral scales, type B: (C) T-554; (D) T-555. (E–G) Cephalo-pectoral scales: (E) T-556; (F) T-557; (G) T-558. (H–S) Postpectoral and precaudal scales: (H) T-559; (I) T-560; (J) T-561; (K) T-562; (L) T-563; (M) T-564; (N) T-565; (O) T-566; (P) T-567; (R) T-568; (S) T-569. (T–U) Pinnal scales: (T) T-570; (U) T-571. Lower Silurian, Upper Llandovery, Kyzyl–Tchiraa Formation, and Angatchi Regional Stages, Kyzyl-Tchiraa Formation, and Angatchi formations, Kyzyl–Tchiraa locality, central Tuva, Russia.

1. 1978 Logania asiatica Karatajūtė-Talimaa, pp 73–76, Pl. XXI, 1–18; figs 6, 7a–b.

2. 1995 Loganellia cf. asiatica; Karatajūtė-Talimaa & Predtechenskyj, pp 45–49, figs 4, 5.

3. 1997 Loganellia asiatica (Karatajūtė-Talimaa); Karatajūtė-Talimaa, p. 2; p. 11, fig. 7B.

4. 2004 Talimaalepis rimae Žigaitė, p. 160, partim Pl. 1, fig, B, non Pl. 1, figs A, C–Z ; p. 162, partim Pl. 2, figs A, B, non Pl. 2, figs C–O.

Holotype. LGI T-381, body scale, Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978, Pl. XXI, fig. 8.

Type locality and horizon. Kyzyl–Tchiraa locality, central Tuva, Russia; Lower Silurian, Upper Llandovery, Kyzyl–Tchiraa Formation, Kyzyl–Tchiraa outcrop, sample Nr. 702 (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978).

Material. More than 800 scales of different preservation; collection series number LGI T; of which LGI T-550 to LGI T-571 have been pictured by SEM; and LGI T-592 as thin section.

Geological and geographical range. Lower Silurian, Lower Llandovery, Moyerocanian Regional Stage, Melichan Formation; Niuya–Beresovo district, Niuya–Beresovo subregion, East Siberia, Russia. Lower Silurian, Lower, Middle and Upper Llandovery, Moyerocanian, Khaastyrian and Agidyan Regional Stages, Raasokha Formation; Ilim district, Irkutsk subregion, East Siberia, Russia. Lower Silurian, Lower, Middle and Upper Llandovery, Moyerocanian, Khaastyrian and Agidyan Regional Stages, Balturino Formation; Balturino district, Irkutsk subregion, East Siberia, Russia. Lower Silurian, Upper Llandovery, Kyzyl–Tchiraa Formation and Angatchi Regional Stages, Kyzyl–Tchiraa Formation and Angatchi formations; Kyzyl–Tchiraa locality, central Tuva, Russia. Lower Silurian, Wenlock, Salhit Regional Stage, Chargat Formation; Lake Basin outcrop Nr. 20, Chargat locality, Lake Khar-Us, north-west Mongolia (sample: P 16/3). Lower Silurian, Wenlock, Salhit Regional Stage, Chargat Formation; Lake Basin outcrop Nr. 21, Chargat locality, Lake Khar–Us, north-west Mongolia, (samples: 1009/1, 1009/2, 1009/3, and 1009/4). Lower Silurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; Elegest and Kadvoi localities, central Tuva, Russia.

Emended diagnosis (complementary to Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007). Scales are small, broad, short and thick, rounded–rhomboidal in shape, and quite uniform in size (length 0.3–0.6 mm and width 0.24–0.37 mm). The crown is characterised by a distinct rhomboid middle segment, depressing sharply towards a median line. Lateral segments of the crown are wide, lower than the median one, and joined posteriorly in the same level. There is only one pair of lateral segments, rarely two pairs (Fig. 3R). The groove between the crown and the base is low. The base is high, with a distinct anterior vertical thickening. The pulp depression is situated in the posterior part of the scale, behind the vertical thickening of the base, overgrown in older scales. Dentine tubules are thin and branch irregularly, getting slightly wider towards the base, pulp canal is absent.

Remarks. Some scales initially ascribed to L. asiatica by Karatajūtė-Talimaa (Reference Karatajūtė-Talimaa1978, p. 297, Pl. XXI, fig. 17a, b) as body scales, are now assigned to Talimaalepis rimae Žigaitė, 2004, as postpectoral scales, on the basis of crown morphology, considering the sharp rhomboid uplifted trough in the centre of the scale. L. cf. asiatica described by Karatajūtė-Talimaa & Predtechenskyj (Reference Karatajūtė-Talimaa, Predtechenskyj, Arsenault, Lelièvre and Janvier1995, pp 45–49, figs 4, 5) is now also attributed to L. asiatica, which, after these records, appears to be the most common as well as the most abundant Lower Silurian thelodont species in the region.

Description. Morphology. Rostral scales present two main types of scales: the first consists of round or oval scales, with a low and flat crown, and a rather low base (Fig. 3A, B); the second is represented by round scales with a pointed proximal part of the crown and a very high base (Fig. 3C, D). The surface of the crown in both types is flat and smooth, sometimes slightly curved. The crown is always notch-edged; the notches vary in length, from short to quite deep. The base is generally wider than the crown. The pulp cavity is rhomboid or wedge-shaped in the low rostral scales, and occupies the very central part of the base. In the rostral scales with a very high base, the pulp cavity is usually overgrown.

Cephalo-pectoral scales are elongated, oak-leaf-like, with a sharp and pointed posterior end of the crown. The crown morphology varies greatly, from broad and rhomboid with a significantly wider posterior part (Fig. 3E), to elongated and narrow (Fig. 3F, G). Ribs are wide and rounded, joining to form a wide, rounded and not very prominent central crest, which usually does not stretch along the whole length of the crown. It may start from the middle of the scale, or terminate before the posterior part of the crown. The half-scale length of the central crest is particularly characteristic of the narrow and very elongated type of cephalo-pectoral scales, where the next pair of lateral ribs usually fuses to continue the crest. The base of the cephalo-pectoral scales is usually not very high, wider than the crown, and thicker in its anterior part. The pulp depression is elongated and can be partially overgrown in older scales, or presented as a set of small openings.

Postpectoral and precaudal scales have a prominent rounded-rhomboid overall shape; they are broad, short and thick. The crown is usually well-embedded in a rather massive and high base, and can be characterised by a distinct rhomboid middle segment sharply sagged towards a median line. The median segment can be divided into two parts lengthways: a short and rounded anterior part and a much longer and pointed posterior part (Fig. 3H–S). On the sides of the median segment, there is usually one pair (rarely two pairs) of lateral ones. They stretch along the median part, lie at an angle to the median segment, and fuse at the posterior end of the crown. Where a second pair of lateral segments is present, it is usually very short and indistinct, hiding beneath the always well expressed first pair of segments. The anterior part of the crown is always lower than the base, in contrast to its always rising posterior part (Fig. 3H–S). The crown is never much longer than the base posteriorwards, usually one third or lees of the total crown lengh. The inner side of the crown is smooth. The base is wider than the crown, and rather high, and has distinct anterior vertical thickening. The pulp depression is oval and elongated, situated behind the vertical thickening in the posterior part of the scale, and is often overgrown in older scales. It may also be overgrown, or partialy overgrown and presented as a linear set of small openings.

Pinnal scales have a characteristic steep-edged anterior part of the crown, and an extremely high base with an amplified anterior part. The crown still has a significantly uplifted and pointed posterior end, but the characteristic median segment is much less distinguished than that of the postpectoral and precaudal scales. Two pairs of lateral segments are always present and lie at a steeper angle to the median segment, thus can be described as lateral ridges. The base is still slightly wider than the crown, and extremely high, usually 2–3 times the crown height, with a vertically elongated anterior part.

Histology. Irregularly branching thin dentine tubules represent the internal structure of the scales (Fig. 8C, D). The net of thin tubules is denser in the posterior part of the scale, along its median line. The pulp canal is not developed, and dentine tubules open directly into a pulp depression on the posterior surface of the base, slightly widening at their terminal ends. Dentine tubules tend to remain parallel in the anterior part of the scale, and start branching irregularly in the uplifted posterior part. Sharpey's fibres are numerous in the vertical thickening of the base, usually extending from the base surface, and eventually narrowing and bending at the end of the base.

Comparison. Scale morphology of L. asiatica is comparable to L. sibirica, and particularly to L. scotica, the type species of the genus, with which it shares the characteristic rhomboid median segment. However, histologically, L. asiatica is closer to L. sibirica and L. tuvaensis, sharing a similar pattern of irregularly branching thin dentine tubules, and the absence of a pulp canal. This common internal structure was previously noted by Turner (Reference Turner, Chang, Liu and Zang1991), as an “achanolepid” type thelodont histology, and most recently the three species were attributed to Sandivia-type histology by Märss & Karatajūtė-Talimaa (Reference Märss and Karatajute-Talimaa2002), outside of Loganellia-type histology (see also Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007). Regarding the uplifted median segment of the crown, L. asiatica is also slightly morphologically similar to Talimaalepis kadvoiensis (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978) Žigaitė 2004 comb. nov., although histological differences are considered fundamental: scales of Talimaalepis are composed of much thicker dentine tubules (Figs 8G, H, 9D, E), while all the loganelliids have very thin dentine tubules (Fig. 8B–F).

Loganellia sibirica (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978)

(Figs 4, 8B)

Figure 4 Loganellia sibirica (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978). (A–D) Rostral scales: (A) 10–260; (B) 10–261; (C) 10–262; (D) 10–263, basal view. (E–H) Cephalo-pectoral scales: (E) 10–264; (F) 10–265; (G) 10–266; (H) 10–267. (I–U) Postpectoral and precaudal scales: (I) 10–268; (J) 10–269; (K) 10–270; (L) 10–271; (M) 10–272; (N) 10–273; (O) 10–274; (P) 10–275, basal view; (R) 10–276; (S) 10–277; (T) 10–278; (U) 10–279. (W–Z) Pinnal scales: (W) 10–280; (X) 10–283; (Y) 10–284; (Z) 10–282. Lower Silurian, Lower Llandovery, Moyerocanian Regional Stage, Melichan Formation, Niuya–Beresovo district, Niuya–Beresovo subregion, East Siberia, Russia; and Lower Silurian, Lower Llandovery, Moyerocanian Regional Stage, lower Balturino Formation, Balturino district, Balturino subregion, East Siberia, Russia.

1. 1968 “Phlebolepis” sp., Moskalenko, fig. 2: 12, 13, 14.

2. 1978 Logania sibirica Karatajūtė-Talimaa, pp 70–73, Pl. XX, 2–12; fig. 18, 10–13.

3. 1991 Loganellia sibirica; Turner, p. 87.

4. 1995 Loganellia ex. gr. scotica; Karatajūtė-Talimaa & Predtechenskyj, pp 45–49, figs 4, 5.

5. 1997 Loganellia sibirica (Karatajūtė-Talimaa); Karatajūtė-Talimaa, p. 2; p. 11, fig. 7a.

6. 1997 Loganellia ex. gr. scotica Karatajūtė-Talimaa, p. 12, fig. 8a, b, f.

Holotype. LGI 10-147, body scale, Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978, Pl. XX, fig. 12.

Type locality and horizon. Nizhniaya Tchunku river outcrop, Kochumdek district, Pritunguska subregion, W Siberia, Russia; Lower Silurian, Middle Llandovery, Kulinna Formation, outcrop Nr. 3 (Moskalenko Reference Moskalenko and Obruchev1968).

Material. More than 600 scales, some of poor preservation, sculpture elements being obscure; collection series number LGI 10; of which LGI 10-260 to LGI 10-284 have been pictured by SEM, and LGI-488 as thin sections.

Geological and geographical range. Lower Silurian, Lower Llandovery, Moyerocanian Regional Stage, Kochumdek Formation; Lower Tchunku River, Kochumdek district, Pretunguska subregion, East Siberia, Russia. Lower Silurian, Lower Llandovery, Moyerocanian Regional Stage, Melichan Formation; Niuya–Beresovo district, Niuya–Beresovo subregion, East Siberia, Russia. Lower Silurian, Lower Llandovery, Moyerocanian Regional Stage, lower Balturino Formation; Balturino district, Balturino subregion, East Siberia, Russia. Lower Siliurian, Middle Llandovery, Alash Regional Stage, Alash Formation; outcrop Kadvoi, central Tuva, Russia (sample Kadvoi 694). Lower Silurian, Middle Llandovery, Khaastyrian Regional Stage, Kulinna Formation; Lower Tchunku River, Kochumdek district, Pretunguska subregion, East Siberia, Russia. Lower Silurian, Middle and Upper Llandovery, Khaastyrian and Agidyan Regional Stages, Utakan Formation; Niuya–Beresovo district, Niuya–Beresovo subregion, East Siberia, Russia. Lower Silurian, Lower, Middle and Upper Llandovery, Moyerocanian, Khaastyrian and Agidyan Regional Stages, Raasokha Formation; Ilim district, Irkutsk subregion, East Siberia, Russia. Lower Silurian, Wenlock, Salhit Regional Stage, Chargat Formation; Lake Basin outcrop Nr. 20, Chargat locality, Lake Khar-Us, north-west Mongolia (sample P 16/3). Lower Siliurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; outcrop Kadvoi, central Tuva, Russia (Kadvoi 662-663). Lower Siliurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; outcrop Kadvoi, central Tuva, Russia (sample Kadvoi 664).

Emended diagnosis (complementary to Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007). Scales are small and elongated (0.2–0.6 mm long; 0.1–0.2 mm wide). The crown is narrow, comparatively high, has a deep median trough and a pointed posterior end. Two pairs of lateral ribs are present; the first pair, and often the second pair, are longer than the median trough. The base is vertical and cone-shaped, with a thicker anterior part and no anterior spur-like process. Dentine tubules are thin and branch irregularly; pulp canal is absent.

Remarks. Three scales of L. sibirica were sketched by T. A. Moskalenko (Reference Moskalenko and Obruchev1968) as scales similar to the ones of genus Phlebolepis (Moskalenko Reference Moskalenko and Obruchev1968, figs 2, 12a, b, 13, 14). They were later described as Logania sibirica by Karatajūtė-Talimaa (Reference Karatajūtė-Talimaa1978), and then determined as Loganellia sibirica (Karatajūtė-Talimaa, 1978) by Turner (Reference Turner, Chang, Liu and Zang1991). Loganellia ex. gr. scotica (Karatajūtė-Talimaa & Predtechenskyj, Reference Karatajūtė-Talimaa, Predtechenskyj, Arsenault, Lelièvre and Janvier1995, pp. 45–49, figs 4, 5) scales first described in the Lower Silurian of the Siberian platform, is now attributed to L. sibirica as well. Very few scales of L. sibirica have been recorded in the Wenlock of NW Mongolia, yet additional material has been revealed from the Lower Llandovery and Upper Wenlock samples of central Tuva, which refutes the previously stated species palaeobiogeographical restriction to the Lower Silurian of Mongolia and Siberian platform (see Žigaitė & Blieck Reference Žigaitė and Blieck2006).

Description. Morphology. Rostral scales are small, round or oval, with a comparatively high base and a low notch-edged crown. The crown has a flat and smooth surface, steep edges, but not very deep notches (Fig. 4A–C). The base is slightly wider than the crown, its height depending on the stage of ontogenetic development of a scale (Fig. 4D). The pulp cavity is in the centre of the base; it is rather wide and shallow.

Cephalo-pectoral scales are elongated and relatively narrow. The crown is high, oak-leaf-like (Fig. 4E) or slightly cylindrical, with several pairs of descending lateral ribs (Fig. 4F–H). The central crest is well expressed, elevated, rises up posteriorly and often begins from the median pair of ribs, joining into a central rising in the posterior part of the scale (Fig. 4F–H). All the ribs are more or less inclined, topping towards the posterior end of the crown, giving a shape of pointed triangle (Fig. 4F, G). The distal junctions of the lateral rib pairs often form a central crest on the posterior top of the crown. The base is usually smaller than the crown, higher or lower depending on the individual age of each scale. The crown slightly overhangs the base.

Postpectoral and precaudal scales range from very narrow and elongated to oval and finally gently rhomboid ones (Fig. 4I–U). The crown is less high and overhangs at least half of the base, in contrast to the cephalo-pectoral scales. The anterior part of the crown is usually wider (Fig. 4I–R) than it is in the case of the narrow and tiny precaudal scales (Fig. 4S–U). A shallow median trough between the central ribs extends along the crown top surface, narrowing and finally closing up at the posterior end of the crown. Lateral troughs and lateral ribs are situated below the median ones. A shallow groove separates the crown from the base; the inner side of the crown is smooth. The base height varies greatly, and depends on the separate position in the exoskeleton, as well as on the ontogenetic development stage of the scale. The pulp depression is comparatively long and narrow; deep in most of the scales, shallow and less expressed in older ones.

Pinnal scales are narrow, sharp and pointed, with a prominent base, growing in the same axis as the posterior end of the crown. The crown is rounded, pointed, and bobbin-shaped. The ribs of the crown are sharp, as in the cephalo-pectoral scales. Usually there is only one central rib on the top surface of the crown, and two pairs of lateral ribs on both sides below (Fig. 4W–Z). In cases where the crown and the base retain the same longitudinal axis, the crown is always wider than the base, with lateral ribs inclining towards the ventral side of the crown, and fusing on the pointed posterior end. The base is bobbin-shaped (Fig. 4W–Z). Both the crown and the base are slightly convex.

Histology. The dentine tubules are thin, tightly packed and branch irregularly. The pulp canal is not developed. Significantly thicker dentine tubules or enlarged lacunae are not present, but some indistinct terminate lacunae can be developed near the depression of the base (Fig. 8B). However, in most cases, thin dentine tubules slightly widen and open straight onto the ventral side of the scale, particularly arround the depression of the base. The base, particularly if well developed, often has distinct Sharpey's fibres (Fig. 8B).

Comparison. Morphological and histological evidence suggest a close relationship between L. sibirica and L. asiatica scales. Both of the species represent the same histological type of irregular thin tubule dentine, with the absence of a pulp canal. The external constitution of their postpectoral and precaudal scales are particularly similar, as is the average size of the scales, which is also similar in the case of the type species L. scotica. Nevertheless, the scales of L. sibirica are significantly more elongated as compared to most of the other loganiid thelodont scales, with the exception of the strongly elongated scales of L. exilis Märss et al. (Reference Märss, Wilson and Thorsteinsson2002) and L. prolata Märss et al. (Reference Märss, Wilson and Thorsteinsson2002).

Loganellia tuvaensis (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978)

(Figs 5, 8E, F)

Figure 5 Loganellia tuvaensis (Karatajūtė-Talimaa, 1978). (A–D) Rostral scales: (A) T-609; (B) T-610; (C) T-611; (D) T-612. (E–G) Cephalo-pectoral scales: (E) T- 613; (F) T-614; (G) T-615. (H–U) Postpectoral and precaudal scales: (H) T-616, basal view; (I) T-617; (J) T-618; (K) T-619; (L) T-620; (M) T-621; (N) T-622; (O) T-623; (P) T-624, basal view; (R) T-625; (S) T-626; (T) T-627; (U) T-628. (W–Z) Pinnal scales: (W) T-629; (X) T-630; (Y) T-631; (Z) T-632. Lower Silurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation, Elegest and Kadvoi localities, central Tuva, Russia.

Complemented synonymy list after Blom 1999:

1. 1978 Logania tuvaensis Karatajūtė-Talimaa, pp 76–79, Pl. XVIII, 1–6; Pl. XIX, 1–13; fig. 18: 1–3; fig. 19: 7.

2. 1986 Loganellia cf. L. tuvaensis; Turner & Peel, pp 82–84, fig. 3, D, E.

3. 1997 Loganellia tuvaensis (Karatajūtė-Talimaa); Karatajūtė-Talimaa, p. 2; p. 11, fig. 7d; p. 12, fig. 8g.

4. 1999 Loganellia cf. L. tuvaensis; Blom, pp 15–17, partim, fig. 5, A–K, N, O; non fig. 5, L, M.

Holotype. LGI T-395, body scale, Karatajūtė-Talimaa 1978, Pl. XVIII, fig. 1.

Type locality and horizon. Elegest locality, central Tuva, Russia; Upper Silurian, Pridoli, Pitchi-Shui Formation, Elegest outcrop, sample Nr. 236 (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978).

Material. More than 600 well-preserved scales; collection series number LGI T; of which LGI T-609 to LGI T-632 are pictured by SEM; and LGI T-183 as thin sections.

Geological and geographical range. Lower Silurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; Elegest and Kadvoi localities, central Tuva, Russia. It is also known from the Upper Silurian (Ludlow and Pridoli) of central Tuva.

Emended diagnosis (complemented after Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007). Medium-sized scales (0.4–1.0 mm. long, and 0.2–0.5 mm. wide), regularly rhomboid, sagittate in shape, with characteristic flat and saggy surface of the very low crown. The crown edges are even and smooth, with an exception of the anterior rim, which is often marked by one or few shallow notches. The lateral segments are narrow and indistinct, flanging the flat median part of the crown. Usually scales have only one pair of lateral segments. The base is convex and comparatively regular in its height, anterior part sometimes being slightly higher. The pulp depression is situated in the middle of the base, often overgrown in the older scales. Dentine tubules are thin, branching irregularly, and concentrated posteriorly in the crown; some odd wider tubules are present. Sharpey‘s fibres are well expressed.

Description. Morphology. Rostral scales are round, rarely more oval or rhomboid (Fig. 5A–D), which is unusual considering the rostral scales of the other loganiid species. Sometimes two or three rostral scales grow-up together and have a joint base, or even a joined crown, if scales fuse together at an early enough stage of their development. This may occure due to their special function in the rostral part of the animal. The crown is usually low, with equaly notched edges; the notches are not very deep. The base is rather shallow in young scales, and becomes higher in the older scales; a wide pulp depression is located in the middle of the ventral side of the scales.

Cephalo-pectoral scales are elongated, oval, sometimes slightly rhomboid and oak-leaf-like, with a slightly pointed posterior end of the crown (Fig. 5E–G). The base is usually low. The pulp depression is large and oval.

Postpectoral and precaudal scales are distinctly rhomboid and sagittate in shape; they may be regular rhomboid or strongly elongated (Fig. 5H–U). The crown has a characteristic flat surface and a very plane low crown. The edges of the crown are smooth and even, except in the anterior part of the crown, where it usually has one discriminate wedge-shaped notch or a few shallow notches. The single distinct wedge-shaped notch on the side of the anterior rim of the crown is very common (Fig. 5R, U). The lateral segments are indistinct and very narrow (usually one pair, rarely two) lining the median part of the flat rhomboid crown. Some scales are extremely elongated and narrow (Fig. 5N, O). The base is medium to high in older scales, comparatively regular in its thickness, convex and slightly bulging in the anterior part. The pulp depression is much less distinct than in the rostral and cephalo-pectoral scales, and often overgrown in the older scales.

Pinnal scales are irregularly rhomboid, with a wider anterior and an elongated and pointed posterior part of the crown. The base is usually high, most likely corresponding to a deep implanting in soft tissues, according to the special functions of the scales. The base is wide and obtrudes the crown in the anterior part of the scale (Fig. 5W–Z).

Histology. Dentine of the scales is composed of thin and irregularly branching dentine tubules, opening directly to the base, or on the surface of the pulp depression, as the central pulp canal is not developed. Thin dentine tubules are numerous, branching in the central and posterior parts of the scale (Fig. 8E, F). The neck area is reduced, and therefore dentine tubules align more regularly towards the base and become perpendicular to the crown surface; some of them may get slightly wider and form small lacunae (Fig. 8F). Sharpey‘s fibres stretch perpendicular to the base surface and are distinct, particularly in the older scales.

Comparison. The lateral ribs on the sides of the crown, rounded rostral scales with typical sculpture, oak-leaf shaped cephalo-pectoral scales, and low neck of the body scales – all are very characteristic features of the genus Loganellia (see e.g., Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007). However, L. tuvaensis is highly distinct from the other species of the genus, because of the low crown with a flat surface and even rims, and a highly reduced neck. L. tuvaensis is the only species with a flat and smooth rhomboidal crown, and a single pair of thin lateral ribs. Most of the other species of Loganellia possess much narrower crowns, with a characteristic wedge-shaped trough along the midline, and often two or three pairs of lateral ribs.

Talimaalepis Žigaitė, Reference Žigaitė2004

Emended diagnosis (modified after Žigaitė Reference Žigaitė2004). Scales are medium size, flattened and elongated, rectangular to oval in shape. The crown possesses several pairs of sharp longitudinal ridges, of which a median pair is much longer, and divides the crown into a long central part, and paired shorter lateral wings. The neck is reduced. The wedge-shape base has a horizontal thalamus-shaped anterior part, often with a spur-like outgrowth, and a long narrow anchoring posterior process, descending at an angle. The pulp opening is located just behind the vertical projection of the base. The internal structure of the scales is composed of thick tubule dentine. The dentine comprise thin and thick tubules, which extend regularly, getting narrower towards the surface of the crown, but widen and anastomose pulpwards. No scales with sensory line openings (i.e., pores; see Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978) have been found.

Type species. Talimaalepis rimae Žigaitė, 2004. Species: Talimaalepis kadvoiensis (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978) Žigaitė 2004 comb. nov.

Talimaalepis rimae Žigaitė 2004 comb. nov

(Figs 6, 9D)

Figure 6 Talimaalepis rimae Žigaitė 2004. (A–D) Rostral scales: (A) T-901; (B) T-902; (C) T-903; (D) T-904. (E–H) Cephalo-pectoral scales: (E) T-914; (F) T-912; (G) T-915; (H) T-916. (I–R) Postpectoral scales: (I) M-1 232; (J) T-920; (K) T-921; (L) T-917; (M) M-1 233, paratype; (N) T-922; (O) M-1 248; (P) M-1 231; (R) M-1 224, holotype. (S–W) Precaudal scales: (S) T-294; (T) M-1 214; (U) M-1 221; (W) T-923. (X–Z) Pinnal scales: (X) T-925; (Y) T-926; (Z) T-918. Lake Basin outcrop Nr. 21, Chargat locality, Lake Khar-Us, north-west Mongolia (samples 1009/1 and 1009/3).

1. 1978 ?Logania kadvoiensis, Karatajūtė-Talimaa; pp 82–86; p. 295, Pl. XIX, fig. 14; p. 298, Pl. XXII, figs 1–6; p. 230, partim fig. 15: 5–6; non fig. 15: 7–9.

2. 1978 Loganellia asiatica, Karatajūtė–Talimaa ; pp 73–76 ; Pl. XXI, fig. 17a, b.

3. 1991 ?Loganellia kadvoiensis; Turner; p. 111.

4. 1991 Helenolepis sp. “supposed”, Turner; p. 111.

5. 1999 Helenolepis? kadvoiensis, Turner; p. 63, fig. 8.9.

6. 2004 Talimaalepis rimae gen. et sp. nov., Žigaitė; pp 158–165; p. 160, partim Pl. I, figs E–J, L, Q; non Pl. I, figs A–D, K, M–R, S–Z; p. 162, partim Pl. II, figs D, E, G, N, O; non Pl. II, figs A–C, F, H–M.

7. 2007 Talimaalepis kadvoiensis (Karatajūtė-Talimaa, 1978) Žigaitė comb. nov.; Märss et al., pp 60–61, partim, fig. 57, D–G; non fig. 57, A–C, H–M.

Holotype. LGI M-1/224, cephalo-pectoral scale, NW Mongolia, sample 1009/3, Žigaitė 2004, p. 160, pl. 1, fig. E. (Fig. 5R).

Paratype. LGI T-599, postpectoral scale, Tuva, Kadvoi 662 (Fig. 6M).

Type locality and horizon. South-east slope of mount Chargat, 80 km north from lake Khara-Ubs-Nuur, northwest Mongolia; Lake Basin outcrop Nr. 20, sample P-16/3; Chargat Formation, Salhit Regional Stage, upper Llandovery–Wenlock, Lower Silurian.

Paratype locality and horizon. Kadvoi locality, central Tuva, Russia; Kadvoi locality, sample Nr. 662; Angatchi Formation, Angatchi Regional Stage, uppermost Llandovery, Lower Silurian.

Material. Over 400 scales of good preservation; collection series numbers LGI M-1 and LGI T; of which LGI M-1 214, 221–224, 231–233, 248, as well as LGI T 901–904, 912, 914–918, and T 920–926 are photographed by SEM; and LGI M-1 28 as thin sections.

Geological and geographical range. Lower Silurian, Upper Llandovery, Agidyan Regional Stage, Omnutakh Formation; Turukhansk district, North Prienissey subregion, East Siberia, Russia. Lower Silurian, Wenlock, Salhit Regional Stage, Chargat Formation; Lake Basin outcrop Nr. 20, Chargat locality, Lake Khar-Us, north-west Mongolia (sample P 16/3). Lower Silurian, Wenlock, Salhit Regional Stage, Chargat Formation; Lake Basin outcrop Nr. 21, Chargat locality, Lake Khar-Us, north-west Mongolia (samples 1009/1 and 1009/3). Lower Silurian, Upper Wenlock, Angatci Regional Stage, Angatchi Formation; outcrop Kadvoi, central Tuva, Russia (Kadvoi 660-1). Lower Silurian, Wenlock, Khakomian Regional Stage, Usas Formation; Kochumdek district, Pritunguska subregion, East Siberia, Russia. Lower Silurian, Wenlock, Khakomian regional stage; Balturino Formation; Balturino district, Irkutsk subregion, East Siberia, Russia (sample Balturino 135-63). Lower Silurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; outcrop Kadvoi, central Tuva, Russia (Kadvoi 662-663). Lower Silurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; outcrop Elegest, central Tuva, Russia (Elegest 226).

Emended diagnosis (modified after Karatajūtė-Talimaa 1978 and Žigaitė 2004). Scales are of medium size (0.3–1.4 mm. long, and 0.1–0.5 mm. wide), flattened, elongated and rectangular to oval in shape, with pronounced parallel longitudinal ridges (often six or more), and a narrow indistinct median trough. Rostral and cephalopectoral scales are bobbin-shaped, the longitudinal ridges are oblique, converging towards the pointed end of the crown. The median pair of longitudinal ribs is usually significantly longer than the lateral pairs of longitudinal ribs, dividing the crown into a longer central part and shorter lateral parts. The troughs separating the central and the lateral parts of the crown are sharper and deeper than the central trough. The neck is not well expressed. The base is wedge-shaped, with a thalamus-like horizontal crown-rimming part, a distinct spur-like outgrowth on its anterior part, and a long narrow anchoring process descending downwards at an obtuse or right angle. The pulp opening is wide, located just behind the vertical projection of the base. Thick dentine tubules and one single pulp canal characterise the internal structure of the scales. The dentine tubules extend regularly, getting thinner towards the surface of the crown, thickening and anastomosing pulpwards. Any openings which may correspond to the pores of a sensory line canal system, have not been observed.

Description. Morphology. Rostral scales are round and bunchy; their crown is high, with eight, 10 or 12 sharp ridges, converging towards the uplifted central point, creating a notched stack-shape (Fig. 6A–D). The ridges are similar in size and sharpness, and spread uniformly around the crown, as do the troughs between them. The base is very low, repeating the shape and slightly obtruding the crown, with a very wide pulp depression.

Cephalo-pectoral scales are bobbin-shaped, elongated and roundish, with at least six to 12 or more oblique and sharp crown ridges, converging towards the high pointed posterior end of the crown. The ridges form a sharp crest, and converge towards the median–posterior part of the crown, which extends towards the pointed posterior end (Fig. 6E–H). The base is small, slightly wider and obtruding the crown, but not yet fully thalamus-shaped, as it is in the postpectoral scales (see below). In younger scales, the posterior long narrow anchoring process of the base may not be completely developed, but in the older ones it is rather well expressed, descending downwards at an obtuse or right angle. A distinct spur-like outgrowth on the anterior part of the base is also visible (Fig. 6A–G).

Postpectoral scales are comparatively large, flattened, elongated and rectangular to oval in shape. Longitudinal ridges are discriminately parallel, sharp, bunchy, having a rounded crest shape. The median trough is narrow, straight and indistinct. At least three pairs of lateral ridges are present, and the troughs separating them from the central part of the crown are sharper and deeper than the central trough itself (Fig. 6I–R). The median pair of longitudinal ribs is usually significantly longer than the lateral pairs of longitudinal ribs, dividing the crown into a longer central, and shorter lateral parts on the sides of the crown. The crown is implanted in a smooth, thalamus-like base (Fig. 6K, M, N, T), the neck is reduced. The posterior edge of the crown is fine, sculptured, and overhangs the base. The base is wedge-shaped, composed of thalamus-like horizontal crown-rimming part, with a distinct spur-like outgrowth on its anterior part, and of a long narrow anchoring process, descending downwards at an obtuse, or right angle (Fig. 6I, K, R, P). The pulp opening is wide, located just behind the vertical projection of the base.

Precaudal scales are narrower and less flat in comparison to the postpectoral ones. The crown sculpture is still similar to that of postpectoral ones, possessing sharp and parallel longitudinal ridges and narrow uniform troughs. Although the number of lateral ridges is smaller than in the postpectoral scales, usually only four (or two pairs) of ridges are present (Fig. 6S–W). Despite this, and even with a single pair of lateral longitudinal ribs, the crown is still clearly divided into a longer median part and shorter side part of paired lateral wings, as in the postpectoral scales. The median section is often elevated in comparison to the lateral ridges. The posterior narrow process of the base is still long, but much more horizontal, sometimes stretching within the same plain, and not forming an angle with an anterior thalamus-like part of the base (Fig. 6T, W).

Pinnal scales are quite robust, elongated, slightly bobbin-shaped and not flattened. Sharp longitudinal ridges are still present, forming parallel narrow troughs. The base is comparatively uniform, the flat anterior part is reduced, and the posterior process is comparatively massive, descending at almost a right angle in respect to the surface of the crown (Fig. 6X–Z).

Histology. Thick dentine tubules are present, getting thinner towards the surface of the crown, though gradually wider and anastomosing towards the single pulp canal. In the central part of the scale, usually several thick dentine canals enter the pulp canal (Fig. 9D). No openings (i.e. pores) belonging to the sensory line canal system have been observed.

Comparison. Scales are more rectangular, and wider in comparison to those of the other species of Talimaalepis, i.e. T. kadvoiensis (see below). The longitudinal ribs are parallel, forming sharp, narrow and parallel troughs instead of a distinct wide rhomboid central trough as that of T. kadvoiensis. Also, the number of longitudinal ridges is much higher than that of T. kadvoiensis, especially in the case of postpectoral scales. The longitudinal ridges themselves are bunchy, having the shape of a rounded crest, in contrast to simply sharp brims, as in the T. kadvoiensis scales. The base of T. rimae has a more or less well expressed outgrowth on its anterior part, which is not the case for the base of T. kadvoiensis.

Talimaalepis kadvoiensis (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978) Žigaitė comb. nov.

(Figs 7, 8G, H, 9E)

Figure 7 Talimaalepis kadvoiensis (Karatajūtė-Talimaa, Reference Karatajūtė-Talimaa1978) Žigaitė 2004 comb. nov. (A–D) Rostral scales: (A) M-1 280; (B) M-1 281; (C) M-1 288; (D) M-1 289. (E–H) Cephalo-pectoral scales: (E) M-1 242; (F) T-944; (G) T-945; (H) T-946. (I–P) Postpectoral scales: (I) M-1 282; (J) M-1 206, paratype; (K) M-1 283; (L) T-947; (M) M-1 207; (N) T-948; (O) T-950; (P) M-1 226. (R–U) Precaudal scales: (R) T-949; (S) T-951; (T) M-1 200; (U) T-952. (W–Z) Pinnal scales: (W) M-1 285; (X) M-1 284; (Y) M-1 287; (Z) M-1 286. Lower Silurian, Upper Llandovery, Kyzyl–Tchiraa Regional Stage, Kyzyl–Tchiraa Formation, outcrop Kyzyl–Tchiraa, central Tuva, Russia (samples 702, 271R, 253R); and Lower Silurian, Wenlock, Salhit Regional Stage, Chargat Formation; Lake Basin outcrop Nr. 21, Chargat locality, lake Khara-Ubs-Nuur, north-west Mongolia (samples 1009/2 and 1009/4).

Figure 8 Cross-sections of scales: (A) Angaralepis moskalenkoae, LGI-10-TSnr-174; (B) Loganellia sibirica LGI-10-TSnr-488; (C, D) Loganellia asiatica, LGI-T-TSnr-592; (E, F) Loganellia tuvaensis, LGI-T-TSnr-183; (G, H) Talimaalepis kadvoiensis LGI-M-1-TSnr-27.

Figure 9 Cross-sections of scales: (A, B, C) Helenolepis obruchevi Karatajūtė-Talimaa, 1978, LGI-T-TSnr-102; (D) Talimaalepis rimae, LGI-M-1-TSnr-28; (E) Talimaalepis kadvoiensis, LGI-M-1-TSnr-29.

1. 1978 ?Logania kadvoiensis, Karatajūtė -Talimaa; pp 82–86; p. 288, partim Pl. XII, figs 1a, 3, 6, 7, 8, 9 a, b; non Pl. XII, figs 1b, 2, 5; p. 289, partim Pl. XIII, fig. 4 a, b; non Pl. XIII, figs 3a, b, c, 5, 6; p. 230, partim fig. 15: 7–9; non fig. 15: 5–6.

2. 1991 ?Loganellia kadvoiensis, Turner; p. 11.

3. 1991 Helenolepis sp. “supposed”, Turner; p. 111.

4. 1999 Helenolepis? kadvoiensis, Turner; p. 63, fig. 8.9.

5. 2004 Talimaalepis rimae gen. et sp. nov., Žigaitė; pp 158–165; p. 160, partim, Pl. I, figs A, C, D, K, M–R, S–Z; non Pl. I, figs B, E–J, L, Q; p. 162, partim, Pl. II, figs C, I, J–M; non, Pl. II, figs A, B, D–H, N, O.

6. 2007 Talimaalepis kadvoiensis (Karatajūtė-Talimaa, 1978) Žigaitė comb. nov. ; Märss et al., pp 60–61, partim, fig. 57: A–C, H–M; non fig. 57, D–G.

Holotype. LGI T-059, described as a body scale by Karatajūtė-Talima (Reference Karatajūtė-Talimaa1978), p. 288, Pl. XII, fig. 9a, b; re-attributed here to a postpectoral scale (Märss Reference Märss1986).

Paratype. LGI M-1/206, postpectoral scale, NW Mongolia, sample Nr. 1009/4 (Fig. 7J).

Type locality and horizon. Kadvoi locality, central Tuva, Russia; Kadvoi outcrop, sample Nr. 664; Dashtygoi Formation, Dashtygoi Regional Stage, Lower Ludlow, Upper Silurian.

Paratype locality and horizon. South-east slope of mount Chargat, 80 km north from lake Khara-Ubs-Nuur, northwest Mongolia; Lake Basin outcrop Nr. 21, sample S-1009/4; Chargat Formation, Salhit Regional Stage, Upper Llandovery–Wenlock, Lower Silurian.

Material. Over 200 scales of good preservation; collection series numbers LGI M-1 and LGI T; of which LGI M-1 200, 2007, 226, 242 and 280–289, as well as LGI T 944–952, are photographed by SEM; and LGI M-1 27 and M-1 29 as thin sections.

Geological and geographical range. Lower Silurian, Middle Llandovery, Khaastyrian Regional Stage, Talikit Formation; Ilim district, Irkutsk subregion, East Siberia, Russia (sample 141-26). Lower Silurian, Upper Llandovery, Agidyan Regional Stage, Balturino Formation; Balturino district, Irkutsk subregion, East Siberia, Russia (samples Balturino 135-47/46). Lower Silurian, Upper Llandovery, Kyzyl–Tchiraa Regional Stage, Kyzyl–Tchiraa Formation; outcrop Kyzyl–Tchiraa, central Tuva, Russia (samples 702, 271R, 253R). Lower Silurian, Wenlock, Salhit Regional Stage, Chargat Formation; Lake Basin outcrop Nr. 21, Chargat locality, lake Khara-Ubs-Nuur, northwest Mongolia (samples 1009/2 and 1009/4). Lower Silurian, Upper Wenlock, Angatci Regional Stage, Angatchi Formation; outcrop Kadvoi, central Tuva, Russia (sample Kadvoi 660-4). Lower Silurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; outcrop Elegest, central Tuva, Russia (sample Elegest 226). Lower Silurian, Upper Wenlock, Dashtygoi Regional Stage, Dashtygoi Formation; outcrop Kadvoi, central Tuva, Russia (sample Kadvoi 664). It is also known from the Silurian–Devonian boundary (Pridoli–Lochkovian), the uppermost Tauganteli and lowermost Khondergei Regional Stages, the uppermost Khondergei Formation; river Tchadan outcrop, Bazhyn-Alaak locality, central Tuva, Russia (sample 119).

Emended diagnosis (modified after Žigaitė Reference Žigaitė2004; Märss et al. Reference Märss, Turner and Karatajūtė-Talimaa2007). Scales are of medium size (0.3–1.2 mm. long, and 0.2–0.3 mm. wide), flattened and elongated, oval or rhomboid in shape, with a discriminate central elongated rhomb-shaped trough. The longitudinal ridges are sharp, median pair is much higher than the lateral ones. The median pair of longitudinal ribs is significantly longer than the lateral pair, dividing the crown into longer central and shorter lowered lateral parts on the both sides of the crown. The rostral and cephalopectoral scales are rhomboid, with densely notched sides, and the crown surface is flat. Usually there is only one pair of underlying lateral longitudinal ribs, sometimes two pairs. The neck is reduced. The base is wedge-shaped, with a thalamus-like horizontal crown-rimming part, and a long narrow anchoring process, descending downwards at an obtuse angle. The pulp opening is narrow, located just behind the vertical projection of the base. Thick tubules are characteristic of the dentine of the scales. They extend regularly, being thin near the surface of the crown, and getting wider and anastomosing pulpwards. A single pulp canal is present. No pores of a sensory line canal system are present in any of the scales.

Remarks. This study, together with the revision of formerly described vertebrate microremains from the region, has revealed that the first descriptions of the taxon Logania? kadvoiensis by Karatajūtė-Talimaa (Reference Karatajūtė-Talimaa1978) include some scales which belong to the genus Helenolepis (Karatajūtė-Talimaa 1978; p. 288, Pl. XII, figs 1b, 2, 5 and p. 289, Pl. XIII, figs 3a, b, c, 5, 6).

Description. Morphology. Rostral scales are rhomboid to oval in shape, with a massive base, which is usually larger than the crown (Fig. 7A–D). The edges of the crown are densely notched; the notches are slightly oblique, short and wide. The surface of the crown is smooth and lacks any kind of sculpture. The base is high and as wide as the crown, sometimes slightly obtruding the crown near its anterior rim.

Cephalo-pectoral scales are oval and elongated, with a comparatively high oak-leaf-like crown. The edges of the crown are densely notched, oblique, short and comparatively narrow. The base is wedge-shaped, comparatively large, with a distinct horizontal anterior part, and a long narrow anchoring posterior process, descending downwards at an obtuse angle (Fig. 7E–H). The thalamus-like anterior part of the base is not developed, due to the comparatively high crown.

Postpectoral scales are flattened and elongated, oval and slightly rhomboid, the crown is usually wider and longer than the base, with a shallow and wide rhomboidal central trough. The longitudinal ridges are sharp, the median pair being uplifted in comparison to the lateral ones. The median pair of longitudinal ribs is significantly longer than the lateral pairs, dividing the crown into a longer central and shorter lowered lateral parts on the both sides of the crown (Fig. 7I–P). The base is wedge-shaped, composed of two distinct parts – a thalamus-like horizontal one, rimming the anterior edges of the crown, and a long narrow anchoring posterior process, descending downwards at an obtuse angle (Fig. 7J, M, O). The pulp opening is small and narrow, located just behind the vertical projection of the base.

Precaudal scales are flattened, elongated and comparatively narrow. The crown usually does not have more than two pairs of longitudinal ridges, the median pair being longer and uplifted in comparison to the lateral ones, which form downstepping wings on both sides of the crown (Fig. 7R–U). The base is narrow, wedge-shaped, and is composed of two distinct parts: a thalamus-like horizontal part, rimming the anterior part of the crown, and a very long narrow anchoring posterior process, descending downwards at a very obtuse angle, or sometimes stretching nearly in the same plane as the crown (Fig. 7S, T).

Pinnal scales are elongated and slightly rhomboid, with a notched anterior rim of the crown, though longitudinal ridges are not distinct. Instead, some short ridgelets, following the notched crests of the anterior rim of the crown, are present. The posterior part of the crown itself is slightly uplifted and has a pointed end (Fig. 7W–Z). The base is very high, wedge-shaped, with a smooth flat horizontal part, obtruding the anterior edges of the crown, and a long massive anchoring posterior process, descending downwards at an obtuse or right angle.

Histology. Thick dentine tubules are present. Near the surface of the crown, dentine tubules are narrow and branch regularly, but get gradually thicker and anastomosing towards the single pulp canal (Figs 8G, H, 9E). In the central part of the scale, several thick dentine canals enter a wide single pulp canal. The pulp canal occupies approximately two thirds of the crown length. No pores of a sensory line canal system have been observed in any of the scales.

Comparison. Scales are more rhomboid and oval than those of T. rimae. Only a few longitudinal ribs are present, sharply rimming the wide rhomboid median trough in between the central pair of longitudinal ridges. The median part of the crown is longer and uplifted in comparison to the short and low lateral wings, which is different from the uniform flattened scale pattern of T. rimae. The outgrowth on the anterior part of the base is not as distinct as it is in the case of T. rimae.

5. Palaeobiogeographic context

A separate palaeobiogeographical province for the Silurian vertebrates from central Asia and southern Siberia has already been assumed in earlier studies (Karatajūtė-Talimaa Reference Karatajūtė-Talimaa1978; Blieck & Janvier Reference Blieck, Janvier and Long1993; Žigaitė & Karatajūtė-Talimaa Reference Žigaitė, Karatajūtė-Talimaa and Ginter2008; Žigaitė et al. Reference Žigaitė, Karatajūtė-Talimaa and Blieck2011; Žigaitė & Blieck Reference Žigaitė, Blieck, Servais and Harper2013). Following our work, the palaeobiogeographical distribution of thelodonts in the region confirms this. The distribution of endemic genera Angaralepis and Talimaalepis is restricted to the Lower Silurian localities discussed here. Loganellia is, however, cosmopolitan, although endemism is sustained at the species level of Loganellia: all three species, L. asiatica, L. sibirica, and L. tuvaensis are restricted to the region. In addition, L. tuvaensis is the only thelodont species that is limited to the Silurian of central Tuva. This could imply some degree of isolation of the Tuvan palaeobasin relative to the other epicontinental palaeoseas of the Siberian terrane. The reports of Loganellia sp. cf. L. tuvaensis from the Upper Silurian–Lower Devonian (Pridoli–Lochkovian) of North Greenland, the Halls Grav locality and Monument, Hall Land, Chester Bjerg Formation deserve special attention, as significant evidence of ocean connections (Turner & Peel Reference Turner, Peel and Peel1986; Blom Reference Blom1999; Žigaitė & Blieck Reference Žigaitė and Blieck2006). Morphology and histology of the microremains suggest that L. cf. L. tuvaensis from North Greenland could be the same species as L. tuvaensis from central Tuva (excluding a few scales, described by Blom (Reference Blom1999), see synonymy above). This provides evidence for a possible close relationship between the Siberian and Laurentian palaebiogeographical provinces during the Late Silurian (Žigaitė & Blieck Reference Žigaitė and Blieck2006; Žigaitė et al. Reference Žigaitė, Karatajūtė-Talimaa and Blieck2011).

The discovery of Loganellia sibirica scales in the Lower Silurian of Tuva reported here supplements the previous finds in northwestern Mongolia and East Siberia, and indicates some connection between these palaeobasins. It is worth noting that the scales of A. moskalenkoae are often found together with those of L. sibirica, and they are both fairly abundant in the Lower Silurian of East Siberia, although A. moskalenkoae has been not found in any of the Silurian sections of Tuva or northwestern Mongolia. Turner & Nowlan (Reference Turner and Nowlan1995) mention L. sibirica scales from the Llandovery of Quebec, and Loganellia cf. L. sibirica from the Llandovery of Nova Scotia. Unfortunately, in both cases pictures have not been provided; yet if confimed, this would significantly extend the geographical range of the species.

The territory of northwestern Mongolia, Tuva, and southern Siberia has been claimed to have occupied relatively high northern latitudes during the Early Silurian, suggesting an arid temperate climate and “cold-water” palaeoenvironment, according to palaeomagnetic data, and the presence of high-latitude faunal assemblages, e.g. the low-diversity (and by inference cold-water) Tuvaella fauna (Cocks & Torsvik Reference Cocks and Torsvik2002, Reference Cocks and Torsvik2007; Tesakov et al. Reference Tesakov, Predtetchensky, Khromych, Berger, Kovalevskaya, Landing and Johnson2003). Such a northern palaeobasin does not, however, accord with the abundant and diverse record of Silurian vertebrates (Žigaitė et al. Reference Žigaitė, Karatajūtė-Talimaa and Blieck2011), which would rather indicate warm and productive low-latitude shelf environments (Blieck & Janvier Reference Blieck, Janvier and Long1993; Žigaitė et al. Reference Žigaitė, Karatajūtė-Talimaa and Blieck2011). The stratigraphical levels of appearance of the thelodont taxa are comparatively early as well, considering the corresponding data from other palaeobiogeographical provinces, such as the Baltic Basin or the Canadian Arctic in the Early Silurian (Karatajūtė-Talimaa & Brazauskas Reference Karatajūtė-Talimaa and Brazauskas1994; Märss et al. Reference Märss, Wilson and Thorsteinsson2002, Reference Märss, Wilson and Thorsteinsson2006). Most of the thelodont species and genera of the region have their first known occurrences in the Llandovery. In addition, they are accompanied by a variety of other early vertebrate taxa, such as acanthodians (Karatajūtė-Talimaa & Smith Reference Karatajūtė-Talimaa and Smith2003), mongolepids (Karatajūtė-Talimaa et al. Reference Karatajūtė-Talimaa, Novitskaya, Rozman and Sodov1990) and putative galeaspids (Karatajūtė-Talimaa & Žigaitė Reference Karatajute-Talimaa, Žigaitė, Hairapetian and Ginter2005, Reference Karatajūtė-Talimaa and Žigaitė2006; Žigaitė et al. Reference Žigaitė, Karatajūtė-Talimaa and Blieck2011).