Type species: Mochtyella cristata Kielan-Jaworowska, 1961, erratic boulder, Poland; Ordovician.

Remarks.—Isolated jaws of similar shape to MI of the genus Mochtyella were, in older literature, often assigned to Staurocephallites Hinde, 1879. However, in the type species of the genus—S. niagarensis Hinde, 1879 only one ridge of denticles is visible, while both MI of Mochtyella have two or three denticulated ridges. The difference is of generic rank (see Kielan Jaworowska 1961, 1966).

Material.—Three isolated right MI and one left (MI ZPAL Sc.8/2.1-3), sample S.Kh.1 from lower part of the Borshchiv Horizon, section 48, Lower Lochkovian, Podolia.

Description.—Right MI about 1.3 mm long, slightly compressed laterally, of about the same width in dorsal as in lateral view. The main ridge has 13 to 15 denticles, gradually decreasing in size posteriorly. The basal ridge extends for about one third of the jaw length, bears about nine small denticles which decrease in size posteriorly. Second ridge lacking. In right lateral view the basal ridge is directed postero-basally, not parallel to the main ridge. In the posterior margin of the inner wall a small, half circular incision occurs. Left MI, known from one incomplete specimen, has very similar denticulation of the main ridge to that present in the right MI.

Remarks.—Right MI of Mochtyella sp. A is similar to the Mochtyella sp. C of Kielan-Jaworowska (1966) but differs from it by lack of the secondary ridge.

Material.—One specimen (ZPAL Sc.8/2.2), sample S.Kh.1 from lower part of the Borshchiv Horizon, section 48, Lower Lochkovian, Podolia.

Remarks.—One specimen representing single tooth of the anterior teeth chain has been found in the same sample as all specimens of Mochtyella sp. A and possibly is conspecific with it. In all other samples the anterior teeth of mochtyellids were not found. The specimen has similar shape to the anteriorteeth of the mochtyellids hitherto known (see Kielan-Jaworowska 1966: fig. 5), but differ from them in denticulation. Those illustrated in the cited paper are denticulated either on both margins, like Mochtyella cristata Kielan-Jaworowska, 1961 and Vistulella kozlowskii Kielan-Jaworowska, 1961 or lack the denticulation at all, like Pistoprion transitans Kielan-Jaworowska, 1966. The tooth found in Podolia is comparatively large and belonged probably to the posterior teeth of the left chain. It has a shape of wide, slightly curved spine with the upper margin outwardly arched and denticulated while the lower margin is inwardly arched and smooth. Somewhat similar detached teeth were assigned by Eller (1945) to the genus Eunicites Ehlers, 1868.

Material.—3 specimens (ZPAL Sc.8/6.1, 8.18, 11.5), sample S.I.Z.13, section 76, Lower Pragian, Podolia.

Remarks.—The illustrated specimens, representing right and left MI of mochtyellids, have been found in one sample S.IZ.13, from the upper part of the Ivanye Horizon, in section 76. They possibly belong to the same species. Both the jaws are laterally compressed and their denticulated ridge bear 14–15 denticles decreasing in size in the posterior part. Besides five other MI elements have been found in different levels of the Lochkovian sequence. They are differentiated morphologically and incompletely preserved.

Remarks.—Scolecodonts of the family are very common in the Ordovician and Silurian. They still occur in the Devonion and Carboniferous but are not so abundant. They are well known from joined and reconstructed jaw apparatuses of the genera: Polychaetaspis Kozłowski, 1956, Kozlowskiprion Kielan-Jaworowska, 1966, Dubichaetaspis Eriksson, 1998 and Incisiprion Hints, 1998, as well as from many detached jaws described under different generic names. Similar jaw apparatuses to those of polychaetaspids are possessed also by the genus Polychaetura Kozłowski, 1956 (according to Hints and Eriksson [2010] younger synonym of Pteropelta Eisenack, 1939) but because of their distinct bifurcating carriers Kielan-Jaworowska (1966) established separate family Polychaeturidae. The relationship problem of the two families has been recently discussed by Hints and Eriksson (2010).

Type species: Polychaetaspis wyszogrodensis Kozłowski, 1956, erratic boulder, Poland; Ordovician.

Remarks.—Genus Polychaetaspis is known from numerous species which are based on rich material of joined jaw apparatuses (Kozłowski 1956; Kielan-Jaworowska 1966; Szaniawskiand Wrona 1973; Hints 1998) as well as their reconstructions of isolated elements (Walliser 1960; Männil and Zaslavskaya 1985; Hints 1998). However, formal status of the genus has been questioned by Eriksson (1997). The author restudied the original collection of Hinde (1879) and came to the conclusion that Polychaetaspis should be treated as a junior synonym of Oenonites Hinde, 1879. In our opinion this proposition cannot be accepted because the singular specimen of its “lectotype”—Oenonites curvidens Hinde, 1879, designated by Jansonius and Craig only in 1971, is not determinable to the species level and should be treated as nomen dubium. The lectotype is “…based upon one right MI of inferior quality…” (Eriksson 1997: 217) which “… rests in a slide glued onto a piece of paper with the ramus facing the observer” (Eriksson 1997: 219). In result it can be seen well only in oblique dorsal view. Despite of its modern illustrations, presented by Eriksson (1997), the observable structural details are not sufficient for determination at the species level.

The genus Oenonites was originally established for nine species (Hinde 1879) but each of them is represented by a single specimen. The specimens are morphologically diverse and have been assigned to some different genera in later literature. It seems rather obvious that Hinde's concept of the genus Oenonites was completely different from that of Polychaetaspis because in his later publication (Hinde 1882) the very well preserved first maxillae of typical polychaetaspids were assigned not to Oenonites but to Lumbriconereites Ehlers, 1868 (e.g., Lumbriconereites obliquus Eichwald, 1854). The latter generic name has been later commonly used for detached MI of polychaetaspids. However, the type species of the genus—L. deperditius (Ehlers, 1868) has been based on a body imprint preserved in Jurassic litographic limestone from Solnhofen and cannot be well compared with scolecodonts (see also Jansonius and Craig 1971).

Etymology: In honour of the great paleontologist and teacher Roman Kozłowski (1889–1977), who first described polychaete jaw apparatuses of the genus.

Holotype: Right MI, ZPAL Sc.8/2.6 (Fig. 5A).

Type locality: Section 48, near Khudykivtsi village, Podolia, Ukraine.

Type horizon: Lower part of the Borshchiv Horizon, Lower Lochkovian, Lower Devonian.

Material.—3 right MI, 4 left MI, and 1 basal plate (ZPAL. Sc.8/2.4–2.6, 2.13–2.15, 2.17), sample S.Kh.1. All from the type locality and horizon, from lower part of the section 48 (Fig. 2). Diagnosis.—Right MI of the length more than two times bigger than width, with bight significantly longer than half of the jaw length and 14–15 denticles on the inner margin. First denticle curved posteriorly, in the direction of the outer margin. Inner slope steep, narrowing posteriorly. Opening of the pulp cavity much longer than half of the jaw length. Left MI widest above the middle length, with dentary line slightly sigmoid and inner wing much longer than half of the jaw length. Basal plate about three times longer than wide gradually narrowing in posterior part, with inner margin nearly straight, bearing about 15 denticles.

Description.—Right MI more than twice longer than wide. Bight longer than half of the jaw length. Shank well differentiated, triangular, directed postero-laterally. Dentary formed of 14–15 denticles. The first one large, in form of a hook curved posteriorly, toward the outer margin. Of the others the biggest are some at the middle part and the smallest those at the most posterior part. Inner slope wide, narrowing posteriorly. Left MI widest above the middle length. Dentary line slightly sigmoid,curved medially in the anterior part and outwardly inthe posterior part, bears 13–15 denticles of which those in themiddle part are the biggest. First denticle much bigger than allothers, directed posteriorly. Shank short, well differentiated, triangular in shape, pointed laterally. Outer margin over the shank slightly concave, beneath the shank straight, directed postero-medially. Inner wing wide, longer than half of the jaw length. Ligament scar in both MI not preserved. Basal plate of the length about three times the width. Its denticulated, inner margin nearly straight, bears 15 denticles of which the first is longest and hooked. Next four are much smaller, narrow and laterally directed. Others gradually increase in width, became triangular and posteriorly directed. The last two are smaller, short and again laterally directed. Outer margin convex in the anterior part and nearly straight, directed postero-medially in the posterior part. Its anterior part is separated from the posterior one by a small incision. Most posterior part of the plate is triangular and pointed.

Comparisons.—Basal plate of the new species is some what similar to that described by Eller (1938) from the Devonian of Michigan, as Oenonites orthodentes Eller, 1938, but is comparatively wider, has more and differently arranged denticlesand shorter undenticulated posterior part of the plate.Right MI is similar to the jaw described by Eller (1961) fromthe well samples of the Devonian of Michigan as Lumbriconereitescooperi? Eller, 1938 but differs from it by longerbight and bigger number of denticles. From the Polychaetaspissp. found in the Upper Devonian of Poland (Szaniawskiand Wrona 1973) the new species differs significantly by the shape of the basal plate. From the joined jaws described by Jansonius and Craig (1974) as Polychaetaspis cooperi?(Eller, 1938) comb. nov. The right MI of the new species differs with slightly longer bight, while the left MI differs by concave anterior part of the outer margin. The new species is very similar to the species described by Männil and Zaslavskaja (1985) as Polychaetaspis cf. aequilateralis Kielan-Jaworowska, 1966. However, the right MI of the new species differs from the corresponding element of it by concavity in the anterior part of the outer margin and by longer innerwing of the left MI. The right MI of the new species is very similar to corresponding element of Polychaetaspis cf. wyszogrodensis Kozłowki, 1956 described by Hints (1998).It differs from it only by somewhat narrower posterior part and longer bight. Both MIs of the new species are very close to the corresponding jaws illustrated as Oenonites sp. From Silurian of Canadian Arctic (Hints at al. 2000: figs. 7–9) but the left MI of the new species is somewhat wider while the right MI has a longer bight. The right MI of the new species is very close to the corresponding jaw from boring cores of the Wenlockian deposits in Estonia, assigned to Oenonitessp. by Hints et al. (2006: pl. 2: 8), but is slightly narrower.

Remarks.—Possessed collection is not rich but contain three most characteristic and well preserved elements of a polychaetaspid apparatus. The elements fit to each other very well and have been found in the same sample. There is no doubt that they belonged to apparatuses of the same species, the more that all other samples did not contain any elements of polychaetaspids. The new species belongs to the group of species similar to Polychaetaspis wyszogrodensis Kozłowski, 1956 (sensu Kielan-Jaworowska 1966).

Stratigraphic and geographic range.—Type locality and horizon only.

Material.— One left MIII? (= unpaired element?) (ZPAL.Sc.8/2.20), sample S.Kh.1., section 48, Lower Lochkovian, Podolia.

Description.—An arch-shaped jaw, narrow in dorsal view but wide in lateral, bearing ten denticles, represents probably the unpaired left MIII of Polychaetaspis kozlowskii sp. nov.It has been found in the same sample as all other elements of the species.

Material.—Anterior plates: one left (ZPAL.Sc.8/2.24), sample Sc.8/2.11, and 4 right MIV (ZPAL.Sc.8/2.1, 2.11, 2.12, 2.24),sample S.Kh.1; section 48, Lower Lochkovian , Podolia.

Description.—Five right and one left similar plate-like anterior jaws with five or six teeth of which the first is much bigger than the rest, and with wide opening of the pulp cavity.The jaws have been found in the same sample as all the elements of P. kozlowskii sp. nov. and probably represent MIV of the species. Somewhat similar elements occur also in apparatuses of other eunicids, e.g., in paulinitids (see Fig. 7I–L) or Kielanoprion Szaniawski and Wrona, 1973. Jansonius and Craig (1971) based on somewhat similar elements proposed to establish genus Cheiridogenys but it can be a junior synonym of Polychaetaspis. Certain determination of most of the isolated anterior elements of eunicids is presently not possible. However, the co-occurrence of all illustrated here elements with the jaws of P. kozlowskii, as well as total lack of similar elements in all other samples, strongly suggest that they also belong to the same species.

Type species: Kettnerites kosoviensis Žebera, 1935, Bohemia; Silurian.

Remarks.—Status of the genus is uncertain. The holotype of its type species Kettnerites kosoviensis Žebera, 1935 has been“inaccessible” for Šnajdr (1951: 243, English translation), who gave “a new diagnosis of the genus” (1951: 259) and“was not found” by Tonarova (2008: 188), who published revision of the genus. The only illustration of the holotype published by Žebera (1935: fig. 7) shows a singular, most probably deformed right MI or MII, which based on the illustrationis not determinable. Another species assigned by the author to the same genus—K. depressus Žebera, 1935 (pl.2: 8) probably represents a left MII and is somewhat similar to those elements in paulinitids but different from all hither to known. Moreover the typical MI and MII of Kettnerites, sensu Šnajdr (1951), were assigned by Žebera (1935: fig. 2, pl. I: 1–5) not to Kettnerites, but to Arabellites Hinde, 1879, what means that his concept of the genus Kettnerites was different from that of Šnajdr (1951). Also the differences between the genera Kettnerites and Paulinites Lange, 1947 are not well defined.Kielan-Jaworowska (1966: 125) was in the opinion that they are insignificant and regarded Kettnerites as “… a junior subjective synonym of Paulinites Lange”. Another opinion was expressed by Bergman (1989: 49), who widely used the name Kettnerites in his monograph of the Silurian paulinitids from Gotland and stated that “… none of the European species belong to Paulinites”. However, he did not substantiate this conclusion. In our opinion formal status of the genus Kettnerites Žebera, 1935 is uncertain and should be clarified but it is out of the scope of the present paper. Therefore we use the name with quotation marks.

In older literature elements similar to MI of paulinitids were usually assigned to Nereidavus Grinnel, 1877, but the genus is not valid because the holotype of its type species N. varians Grinnel, 1877 was incompletely preserved and became damaged (Jansonius and Craig 1971). The above cited authors proposed to establish new genus Nereigenys Jansonius and Craig, 1971 “to accommodate all forms traditionally assigned to Nereidavus” (Jansonius and Craig 1971: 274). However, the type species proposed by them—the Nereigenys disjunctus (Eller, 1963) belongs in our opinion to Paulinites or Kettnerites. For discussion of the problem see also Eriksson (1999).

In the Lower Devonian deposits of Podolia the jaws of“Kettnerites” are most abundant and diversified. Over 250 comparatively well preserved elements were found, but because of their wide intraspecific variability and infrequency of individual elements in samples, not all of them can be determined to the species level. The more that in many sample selements of different species occur. All the three recognized here species were hither to known from the Silurian of the Baltic region only.

1970 Paulinites polonensis Kielan-Jaworowska, 1966; Szaniawski 1970: 465–466, pl. 1: 5A–D.

1987 Kettnerites (K.) huberti nov. sp.; Bergman 1987: 59–62, figs. 13R–U, 18, 34–36.

1989 Kettnerites (K.) huberti Bergman, 1987; Bergman 1989: 65–70, figs. 18D, 34–36.

Material.—20 right MI, one of them with preserved basal plate, 22 left MI, 24 right MII, 25 left MII (ZPAL.Sc.8/4.13, 5.8, 7.3, 7.7, 7.10, 9.2, 12.1), samples S.Ust.1, S.Sy.3, S.Vy.3, S.Za.4, S.I.Z.13, 16, 17. Elements of the species occur in the almost whole Lower Devonian sequence of Podolia, except the lower part of the Borshchiv Horizon (Fig. 2).

Remarks.—The Early Devonian specimens do not differ significantly from the hither to known Silurian forms. Mosts pecimens of both MIs have an inner margin characteristic for the species, which is usually concave in the anterior part and slightly convex in the posteri or part. Their denticles are usually much bigger in the posterior part. The fang is comparatively large and has well developed cutting edge. Basal plate is about 8 times shorter than the jaw, is nearly square shaped and only its inner basal portion is extended poste-riorly. Basal plate of the species was hither to known only from one joined jaw apparatus (Szaniawski 1970). Right MII has two precuspidal denticles, narrow ramus directed postero-laterally, posteri or part of the jaw long and bluntly ended. Left MII have one precuspidal denticle. Denticles of the anterior part of inner margin much smaller than those of the posterior part.

Jaws of “K.” huberti, similarly as elements of other paulinitids, are morphologically variable and only the well preserved specimens can be identified to the species level. The upper most hither to known stratigraphic range of the species was Upper Ludlow.

1960 Paulinites sp.; Martinsson 1960: 5–6, fig. 1: 6.

1987 Kettnerites (K.) martinssonii n. sp.; Bergman 1987: 62–66, figs. 12A–G, 18, 37–40.

Material.—3 right MI, 2 left MI, 3 right MII, and 4 left MII (ZPAL Sc.8/1.1, 1.5, 4.16, 8.23, 10.9), samples S.Sy.3,S.I.Z.16, S.Za.1, 4, 12 from the Chortkiv and Ivanye horizons; Middle Lochkovian, Lower Pragian, Podolia.

Remarks.—Shape of both MI and MII correspond to the description of Bergman (1987, 1989). Denticles of both MI slightly spaced in the anterior part. Shank of right MI sharply pointed. Right MII with one large precuspidal denticleand wide ramus. Left MII with wide shank and a series of characteristic, comparatively short and nearly equal in size, anterior denticles.

1966 Paulinites polonensis n. sp.; Kielan-Jaworowska 1966: 126–129, figs. 5L, 11, pl. 29, pl. 30: 7, 8.

1980 Paulinites polonensis Kielan-Jaworowska, 1966; Wolf 1980: 86–87, pl. 12: 102–104.

1989 Kettnerites (K.) polonensis (Kielan-Jaworowska, 1966); Bergman 1989: 66–69, pls. 42–44.

Material.—4 right MI, 6 left MI, 7 right MII, 5 left MII (ZPAL Sc.8/1.4, 1.10, 3.7, 3.8, 6.4, 6.19, 7.20), samples S.Usty.2, S.Do.1, S.I.Z.18, S.Za.1, 5. Elements of this species occur in almost whole Lower Devonian sequence in Podolia except of the lower part of the Borshchiv Horizon.

Remarks.—The Lochkovian specimens from Early Devoniando not differ much from those described from the Silurian erratic boulders from Poland (Kielan-Jaworowska 1966) and Silurian of Gotland Island (Bergman 1989). Both MI are very long and have inner and outer margins nearly parallel but the inner one is slightly concave in the anterior part while the outer one in the posterior part. Denticulation of the margins differentiated but in most specimens the denticles are longe rin the anterior part. The short spine protruding from the posterior part of outer margins of both MI, characteristic for type material of the species, is not well developed in any of the MIs from Podolia. Right MII has two precuspidal denticles and narrow ramus. Denticles of their inner margin are biggest in the middle part. Left MII have one precuspidal denticle. Denticles of the inner margin are biggest below its middle.

Material.—2 right MI (ZPAL Sc.8/10.10, 10.15), sample S.Za.11, section 58, from upper part of Ivanye Horizon, Pragian, Podolia.

Remarks.—Jaws wide and comparatively short. Inner marginnearly straight with denticles short and rounded. Fang thick, directed medially. Inner wing narrow, tapering posteriorly. Shank short. They differ from all other right MI of the collection by bigger width, nearly straight inner margin and rounded denticles.

Material.—42 specimens of left MIII (= unpaired element) (ZPAL Sc.8/6.6, 6.7, 11.5, 11.13), samples S.Do.6, S.I.Z.1218 from different levels of the whole Lower Devonian sequence of Podolia.

Remarks.—Determination of the detached left MIII to the species level, based on their morphology only, is presently not possible because our knowledge of the elements isstill comparatively poor. The unpaired MIII of the genus are known from two joined jaw apparatuses of the “Kettnerites”polonensis, described by Kielan-Jaworowska as Paulinites polonensis (1966: pl. 29: 2, 3) and “K.” huberti described by Szaniawski (1970: pl. 1: 5) also as Paulinites polonensis. Besides they are known as detached elements of K. bankvaetensisBergman, 1987, K. sisyphi klasaardensis Bergman, 1987,and K. siaelsoeensis Bergman, 1987. However the specimens from Lochkovian of Podolia differ from those of the earlier described species in outline and denticulation. Possessed elements cannot be determined also based on numerical data because of small number of well preserved specimens inindividual samples.

All left MIII in our collection have 8 or 9 denticles and inall but one the third denticle is the biggest. The longitudinal branch in lateral view is triangular and tapers posteriorly. The ramus is narrow, sharply pointed, directed nearly perpendicularly to the longitudinal branch. In some specimens the outer margin of the ramus in lateral view is concave. The jaws are somewhat similar to corresponding elements of Paulinites paranaensis Lange, 1947 named “unpaired piece” in Englishtranslation of the paper (Lange 1949: pl. 11: 1–12).

Material.—Mandibles, 6 specimens (ZPAL Sc.8/8.7, 8.19, 10.6, 11.14), samples S.I.Z.2, 13, 16, S.Za.2, 12, all from the Ivanye Horizon, Pragian, Podolia.

Remarks.—Co-occurence of the mandibles with numerous jaws of “Kettnerites” strongly suggests that they belonged to apparatuses of the same genus. Their paulinitid originis suggested also by their morphological similarity to the mandibles of Paulinites paranaensis Lange. In some of them similar denticulation of the anterior margin is preserved also(see Lange 1949: pl. 7: 1, 4, 10).

Material.—18 specimens of left and right MIV (named also paragnaths) (ZPAL Sc.8/6.15, 7.13, 8.8, 8.22), samples S.Do.2, S.Z.6, 13, 18, from different stratigraphic levels of Upper Lochkovian and Lower Pragian, Podolia.

Remarks.—The anterior elements of fossil jaw apparatuses are rarely described. They are seldom well preserved becauseof small size and fragility. Of the paulinitids the elementsare known only in P. paranaensis (Lange, 1947), “K.” polonensis(Kielan-Jaworowska, 1966) and “K.” sisyphi klasaardensis(Bergman, 1987). The elements found in Podolia are rather poorly preserved. In lateral view they are platelike, partly rounded, with inner margin denticulated. Most of them have 6 to 8 denticles which gradually decrease in size posteriorly. They differ from the corresponding elements of polychaetespids (see Fig. 5I–L) mainly by the larger number of denticles and narrower opening of the pulp cavity. Their specific determination is in present state of knowledge not possible.

Type species: Atraktoprion cornutus Kielan-Jaworowska, 1962, erraticboulder; Ordovician, Poland.

Remarks.—Isolated MI of this genus were in older literatureusually assigned to Arabellites Hinde, 1879. Sylvester (1959) designated A. hamatus Hinde, 1879 as the lectotype. However, the status of the genus has been discussed later inseveral publications (for the summary see Eriksson 2008).The latter author reviewed all preserved specimens assigned by Hinde (1879) to Arabellites and presented their modern illustrations. However, he reserved his judgment concerning the important problem of the relationship of Arabellites to Atraktoprion, Kielan-Jaworowska, 1962 explaining that it “will be discussed in detail elsewhere” (Eriksson 2008:629). The relationship problem is not easy to solve becausethe lecto type of Arabellites represents the left MI, whichis very similar to the corresponding elements of three later established genera Atraktoprion Kielan Jaworowska, 1962, Skalenoprion Kielan-Jaworowska, 1962, and LeptoprionKielan-Jaworowska, 1966, while some other elements of the three genera are significantly different. Because of this Kielan-Jaworowska (1966) assigned the genera to three different families. This means, that after morphology only, it is difficult to determine their isolated left MI even to the family level. Because of that, in our opinion, all the “species” of Arabellites based on singular specimens of the left MI have to remain undetermined in the sense of biological systematics, as long as we do not know other elements of apparatuses to which they belonged. In the case of their co-occurrence with other elements the numerical data can help to solve the problem.

Hinde (1879: 377) establishing the genus Arabellites stated: “I propose to include in this genus jaws of widely different forms which have a general resemblance to those of the existing genus Arabella Grube”. The idea was generally correct because the author did not treat each element of jaw apparatus as a separate taxon, as many later authors did. However, in that time he did not know that many fossil polycheates possessed a very different structure of jaw apparatuses from modern forms. Right MI of Paleozoic apparatuses similar in shape to Recent Arabella Grube, 1850 possess usually either bight or basal plate, what means they are significantly different from the MI of Recent Arabella.Therefore it is understandable that most of the species ofArabellites based by Hinde (1879, 1880, 1882) on the MI are left jaws. Two of the three species based by the author on the right MI, the Arabellites extensus Hinde, 1880 and Arabellites spicatus Hinde, 1880 possess bight characteristic for MI of Atraktoprionidae, while the third species Arabellites fastigatus Hinde, 1882 possess basal ridge and shape characteristic for the right MI of Skalenoprionidae.

Etymology: In reference to its type region Podolia, Ukraine.

Holotype: Right MI, ZPAL Sc8./14.1 (Fig. 8F).

Type locality: Ivanye Zolote, Podolia, Ukraine.

Type horizon: Upper part of the Ivanye Horizon, middle part of the section 76, Pragian.

Material.—4 right MI (two of them incomplete) and 6 left MI (ZPAL Sc.8/4.18, 4.19, 4.20, 7.15, 8.4, 8.24, 11.1, 14.1, 14.3,14.4), samples S.Zo.4, S.Vy.3, S.I.Z.4, 10, 16, 18, S.Uste.2, from Chortkiv and Ivanye horizons, Middle Lochkovian-Pragian, Podolia.

Diagnosis.—Right MI wide, with wide bight extending for about 0.4 of the jaw length. Hook stout with apical part bent posteriorly. Inner margin beneath the hook slightly convex, denticulated. Outer margin nearly straight, directed posterolaterally. Left MI with outer margin slightly oval, inner margin beneath the hook nearly straight, denticulated, posteriormargin directed postero-medially. Inner wing in the anteriorpart wide, narrowing posteriorly.

Description.—Right MI about two times longer than wide. Length of both complete specimens below 0.5 mm. Hook stout with apical part bent posteriorly. Denticulated innermargin bears 8–10 posteriorly inclined denticles. First 3 to 4 of them slightly increase in size posteriorly and the restdecrease. Outer margin beneath the hook nearly straight, direct edpostero-laterally. Bight very wide with anterior marginoval shaped. Shank short, nearly triangular. Left MI with hookslightly longer than 1/3 of the jaw length. Inner, denticulated, margin slightly convex, bears 8–9 denticles differentiated insize, similarly as in right MI. Outer margin slightly convex. Posterior margin directed postero-medially, slightly concavein the middle part. Inner wing begins at the level of the second denticle, wide in the anterior part, gradually narrows posteriorly. The posteriormost portion of the jaw sub-triangular, with vertical concavity in the middle. Opening of the pulp cavity long, extends to the basal part of the hook.

Comparisons.—Right MI is most similar to Leptoprion? sp. described by Tonarova et al. (2012) from Ludlow of Prague Basin but is narrower from it and has slightly less curved hook. It is also similar to the Middle Devonian jaws described by Stauffer (1939) as Arabellites anatinus but differs from them with smaller hook and narrower shank. Left MI is somewhat similar to Arabellites elegans Hinde, 1879 (illustratedalso by Eriksson 2008: fig 1.11) but differs from it by less curved hook, larger number of denticles and triangular posterior end. Both MI of the new species are somewhat similar to those of Atraktoprion eudoxus Szaniawski, 1968 from the Permian of Poland, but right MI of the new species has smaller hook and left MI differ in shape of posterior portion.

Material.—One left MI (ZPAL Sc.8/5.4), sample S.Vy.3, from the upper part of Chortkiv Horizon, section 71, Middle Lochkovian, Podolia.

Description.—Jaw strongly elongated. Hook extending for about half of the jaw length. Inner margin provided with 10 denticles. Outer margin oval. Posterior margin short, directed postero-medially, slightly concave in the middle part.

Remarks.—The jaw differs from corresponding element of Atraktoprion podolicus nov. sp. mainly by being more elongated and having much longer hook. It is not certain if the jaw belong to the genus Atraktoprion or to Skalenoprion.

Material.—One right and one left MII? (ZPAL Sc.8/4.17, 2.3), samples S.Zo.2, S.Kh.1, from sections 70 and 71, Lochkovian, Podolia.

Remarks.—Longitudinal branch of the both, right and left forms arch shaped, long and narrow, bear about 14 comparatively big denticles decreasing in size posteriorly. Transversal branch short, narrow and pointed.

It is not certain if the jaws belong to the same species. It is possible that they are conspecific with the above describedAtraktoprion podolicus sp. nov. or Atraktoprion? sp. A. The right jaw (Fig. 8J) has been found in the same sample as the specimens of Atraktoprion podolicus sp. nov. while the left jaw in the same sample as Atraktoprion? sp. A.

Type species: Skalenoprion alatus Kielan-Jaworowska, 1962, erraticboulder; Ordovician, Poland.

Material.—Two right MI and one left MI (ZPAL Sc.8/13.1,13.2), partly broken during preparation. Besides, two left MI became completely damaged during preparation. All were found in the same sample S.Dn.1 from the Silurian—Devoniantransition beds, section 64, Dnistrove, Podolia.

Description.—Right MI has hook about twice as long as basal part of the jaw. Inner margin of the basal part denticulated only in its upper part, bears 4–5 denticles of nearly equal size. Lower part of the margin in form of the ridge. Fused basal plate short, undenticulated, well separated from the inner margin by a furrow. Inner wing narrow and short, visible only beneath the denticles. Outer margin convex, except of the most posterior part where forms deep incision. Posterior margin nearly straight, directed postero-medially. Left MI close to the mirror image of the right MI but without the basal plate.

Comparisons.—The species is most similar to Skalenoprionalatus Kielan-Jaworowska, 1962 but differ from it by longer hook and undenticulated posterior part of the inner margin.

Material.—One incomplete right MI (ZPAL Sc.8/10.1), sample S.Za.11, section 58, Pragian, Podolia.

Remarks.—Length of the hook unknown. Inner margin provided with seven denticles in the anterior part, undulated in the posterior part. Outer margin oval with an incision in the posterior most part. Posterior margin directed postero-medially. Fused basal plate, undenticulated, transversally elongated for half of the jaw width, separated from the jaw by a furrow along the whole inner and anterior side. The jaw issimilar to the right MI of the described above Skalenoprion sp. a but has longer denticulated part of the inner margin and more transversally elongated basal plate.

Material.—One specimen (ZPAL Sc.8/7.9), sample S.I.Z.16 from the upper part of Ivanye Horizon, section 76, Lower Pragian, Podolia.

Remarks.—Arch shaped spine with numerous thin, spinelike, anteriorly directed denticles along the middle part of inner margin. Similar scolecodonts were hither to unknown and it is not quite certain if the spine belong to polychaetes but its manner of preservation, as well as the co-occurrence with scole codonts suggest the affinity.

Material.—One specimen (ZPAL Sc.8/4.22), sample S.Zo.4 from the middle part of the Chortkiv Horizon, section 70, Middle Lochkovian, Podolia.

Remarks.—Thick spine with very wide basal part and narrow anterior part. The basal part irregularly denticulated alongthe inner margin. Another ridge of spine-like denticles occur along the anterior part of the left lateral side of the basal part. The denticles increase in size in anterior direction. Similarlyas in the case of the specimen described above it is not quite certain if the specimen belong to polychaetes.

Material.—One specimen (ZPAL Sc.8/7.18), sample S.I.Z.18 from the Ivanye Horizon, section 76, Lower Pragian, Podolia.

Remarks.—Plate-like right MIV? with seven long, comparatively slim teeth, regularly decreasing in size in posterior direction