Geyericeras aragoniense, Moliner & Olóriz, 2010

Geyericeras aragoniense sp. nov. [M, m]

Figs. 2–5 View Fig View Fig View Fig View Fig , 7 View Fig , 8 View Fig .

Etymology: Refers to Aragón, the Spanish region which includes the province of Teruel, where the research was undertaken.

Type material: Holotype: UGR MLG.23.20; Fig. 7A View Fig ; microconch recovered from bed number 23 in the Reservoir of Calanda section UGR MLG (Teruel Province, Spain). Paratypes [m]: UGR MPC.28.15, UGR MPC.28.72, UGR MPC.28.73, UGR MPC.29.8, UGR MLG.23.20, UGR MLG.23.23, UGR MBV’.21.1, UGR MPR.36.1. Paratypes [M]: UGR MBV’.21.2, UGR MPC.29.1, UGR MPR.36.10, UGR MPR.36.20, UGR MPR.36.21, UGR MPR.36.22, UGR MPR.36.24.

Type locality: Reservoir of Calanda , Calanda (province of Teruel, Spain) .

Type horizon: Lower Kimmeridgian, Ataxioceras lothari Biozone , A. lothari Subzone , Geyericeras aragoniense biohorizon.

Included species: Only the type species.

Diagnosis.—Microconch: maximum adult diameter about 60 mm, moderate−to−low coiling degree (U/Dm = 33–42%), and subrectangular whorl−section. Constrictions common, indistinct, limited by an adoral, incipiently reinforced edge. Ribs fine, mainly bifurcate in low angle; some polygyrates, intercalatory and less commonly subpolyplocoid ribs close doi:10.4202/app.2008.0064

30

2 / UR 20

10

0 10 20 30 40 50 60 D 70 UGR MPC.28.15 UGR MPC.28.73 UGR MPC.29.8 UGR MLG.23.20 UGR MPR.36.4 UGR MLG.23.23 UGR MPC.28.72

UGR MPC.28.73 UGR MLG.23.20 UGR MLG.23.23

35

30

25

2

/

UR 20

15

10

20 40 60 80 100 120 140 D 160 UGR MPC.29.1 UGR MBV’.21.2 UGR MPR.36.20 UGR MPC.36.21 UGR MPR.36.22 UGR MPR.36.24

to the peristome. Body−chamber about three quarters to a complete whorl long. Generally, the rib curve per half−a−whorl decreases for shell sizes less than 50 mm, but cases in which it slightly increases are known. Peristomal structures unknown, but adoral convexity of ribs occurs close to the end of the body−chamber.

Macroconch: maximum adult size about 160 mm, evolute to very evolute (37–52%) with subrectangular whorl section. Constrictions common, narrow and shallow. Scarce subpolyplocoid ribs on the phragmocone and more frequent on the body−chamber. Rib curves per complete whorl and per half−a−whorl decrease in shells smaller than 40 mm. The body−chamber is about a whorl long; peristome simple.

Description.—The holotype UGR MLG.23.20 [m] ( Figs. 2 View Fig , 3 View Fig , 7A View Fig ) is 52.5 mm in size and shows a coiling degree of 41%. This specimen preserves slightly more than three−quarters of the spire pertaining to the body−chamber, which begins at ca. 34 mm. The whorl section is slightly subrectangular with flattened flanks. Seven narrow and oblique constrictions can be seen on the outer whorl. Ribs are crowded and bifurcate, and some polygyrate and subpolyplocoid ribs are present in the mature shell. The ribbing index slightly varies, generally around 2.5, and the rib curve per half−a−whorl decreases from 35 mm onwards ( Fig. 2 View Fig ).

Among microconch paratypes (measurements in Table 1), UGR MLG.23.23 ( Figs. 2 View Fig , 3 View Fig ) is morphologically very similar to the holotype but slightly greater in size— 58 mm in diameter. Three−quarters of the outer whorl belong to the body−chamber, which starts at 34.5 mm of the shell diameter. Six constrictions are observed on the outer whorl. Ribbing is similar to the holotype and slightly prorsiradiate, showing a single, incomplete subpolyplocoid rib towards the end of the preserved shell. The rib curve per half−a−whorl is horizontal from at least 40 mm in shell size ( Fig. 2 View Fig ).

UGR MPC.28.15 ( Figs. 2 View Fig , 7C View Fig ) is 56 mm in size and slightly more involute (U/Dm ratio 38%). The outer three−quarters of the outer whorl belong to the body−chamber, showing at least five more−or−less distinct constrictions and fine, dense, rather rigid and prorsiradiate ribs that bifurcate through low angles close to the shell periphery. Close to the end of the preserved inner mould there are some intercalatory and subpolyplocoid ribs.

UGR MPC.29.8 ( Figs. 2 View Fig , 7B View Fig ) is 57 mm in size and shows a wide, slightly arched venter. The body−chamber starts at 34 mm and occupies slightly more than three−quarters of the outer whorl, showing at least four rather indistinct constrictions, which are shallow, narrow and oblique to the fine, prorsiradiate and dense ribbing. Furcations through small angles are close to shell periphery, and there are indistinct rib divisions allowing for individualization of a single rib from its adjacent intercalatory rib in rare cases. The ribbing index is low—2.6. Towards the end of the ontogeny, the rib curve per half−a−whorl increases gradually ( Fig. 2 View Fig ).

UGR MPC.28.73 ( Figs. 2 View Fig , 3 View Fig , 7D View Fig ) reaches 59 mm in size and is very similar to the holotype. Constrictions occur from the inner whorls onwards, and at last five oblique and rather

FAD of Crussoliceras ( Hantzpergue et al. 1997) FAD of Ataxioceras lothari (Oppel) FAD of Ataxioceras sensu stricto FAD of Crussoliceras ( Geyer 1961; Atrops 1982) FAD of Geyericeras gen. nov.

indistinct constrictions can be observed in the outer whorl, as identified in UGR MPC.28.15. The body−chamber extends across ca. 320 °. Rib crowding diminishes toward the end of the shell, some polygyrate ribs exist, and the rib index increases abruptly from 2.6 to 4.0. The rib curve per half−a−whorl decreases from 45 mm in shell size onwards ( Fig. 2 View Fig ).

The small−sized macroconchs show decreasing coiling degree throughout ontogeny (37–52%, see Table 2). The whorl section is subrectangular with flattened flanks, rounded periumbilical edge, abrupt umbilical wall, and wide, slightly convex venter. The body−chamber occupies an entire whorl. The peristome is simple. Constrictions are rather nar−

doi:10.4202/app.2008.0064

row, shallow, indistinct, oblique to ribbing, and adorally limited by a reinforced edge which is slightly stronger than the primary ribs. No parabolic structures were observed. Ribbing is dense, coarse and subtly prorsiradiate on the inner whorls. Whorl overlap prevents the analysis of secondary ribs on the inner whorls. On the outer whorls, ribs bifurcate through small angles and irregular polygyrate ribs show furcation points high on the flanks. Relative widening of the primary ribs is evident from the end of the phragmocone onwards. Secondary ribs are subtle and the rib index is relatively low, fluctuating around 3. Body−chamber sculpture consists of common subpolyplocoid ribs showing the lower primary/secondary rib connection on the inner half of the flank. Examples of quasi−subpolyplocoid ribs can be observed in both the phragmocone and the body−chamber, as resulting from defective connections between primary and secondary ribs. Relative sculpture smoothing and weakening of connection points among primary and secondary ribs increase along with shell size. Rib curves per complete whorl and per half−a−whorl decrease from shell size even less than 30 mm, and cases of rib curves showing variable (“undulated”) trajectory are known ( Figs. 4 View Fig , 5 View Fig ).

Among macroconch paratypes (measurements in Table 2), UGR MPR.36.20 ( Figs. 4 View Fig , 5 View Fig , 8 View Fig ) has a shell 152 mm in size and 48% to 51 % in U/Dm ratio, common subpolyplocoid ribs and five indistinct constrictions on the outer whorl. Rib interspaces increase toward the end of ontogeny, and weakening of the sculpture occurs across the flank, affecting the clear definition of ribs connections. The occurrence of a simple, rigid and slightly reinforced rib close to the end of the preserved inner mould suggests that the peristome is simple and subtly oblique to the prorsiradiate ribbing. The ribbing index is 4.0 at 100 mm in shell size. Rib curves per complete and half−a−whorl decrease and show a slightly variable course (“undulated”) from 32 mm in shell size ( Figs. 4 View Fig , 5 View Fig ). The body−chamber extends across almost the entire outer whorl.

UGR MPR.36.21 ( Figs. 4 View Fig , 5 View Fig ) reaches 105 mm in shell size and shows a U/Dm ratio of 45–46% toward the end of the shell. Constrictions are common (four on the body−chamber), very narrow, shallow, oblique to ribbing and limited by an adoral edge of relief similar to that shown by primary ribs. Primary ribs are subtly prorsiradiate, crowded and relatively coarse, increasing in both wideness and inter−rib spacing throughout the ontogeny. From the adoral quarter of the phragmocone onwards, ribs are low−angle bifurcates showing some intercalatories, or they are irregular polygyrate ribs without intercalatories. Rib subdivisions are located close to the external quarter of the flank and peripheral or secondary ribs are weaker than primary ones. Subpolyplocoid ribs occur on the camerate shell and are common on the body−chamber, which starts at 68 mm and extends slightly more than 225°. The ribbing index increases up to 4. Rib curves per complete and half−a−whorl decrease from 79 mm and 62 mm in shell size, respectively—which are the smallest shell sizes for which measurements were available ( Figs. 4 View Fig , 5 View Fig ).

UGR MPR.36.22 shows inner whorls very similar to those of UGR MPR.36.20 but sculptured with a more dense ribbing, which no doubt relates to the occurrence of some subpolyplocoid ribs (UR = 56 at 58 mm in shell diameter). The unfavourable preservation of the outer whorl impedes precise description other than identification of a single, indistinct constriction and slightly prorsiradiate and rigid ribs with very external and low−angle furcations.

UGR MPR.36.24 ( Fig. 4 View Fig ) is 127 mm in size and preserves the end of the phragmocone and three−fourths of the body−chamber, which starts at 87 mm. The shell coiling fluctuates between 44% and 47% in the outer whorls. Towards the end of the phragmocone and the beginning of the body−chamber ribs are slightly prosiradiate, rigid and coarse, showing low−angle bifurcations placed very high on the flanks. One or two intercalatory ribs occur in inter−ribs spaces, which determine a ribbing index of 3.4. Four subpolyplocoid ribs have their second connection points on the inner one−third of the flank. On the outer half−a−whorl ribs are more distant, weaker, with indis−

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tinct connection points between primaries and secondaries. Four narrow, shallow and indistinct constrictions showing an adoral, reinforced ridge are observed on the body−chamber.

UGR MPR.36.10 is an incomplete specimen (73 mm) showing the end of the phragmocone at 70 mm. The U/Dm ratio increases throughout the ontogeny from 37% to 47%. Ribs are dense, fine and slightly prorsiradiate (UR = 45; UR/2 = 27 at 45 mm), showing indistinct connection points between primary and secondary ribs. The occurrence of two or three subpolyplocoid ribs is related to dense ribbing. In the last preserved whorl ribs bifurcate very high on the flanks, there is one intercalatory rib per inter−rib space, and two subpolyplocoid ribs are evidence of the occurrence of the innermost connection points close to the periumbilical edge. The ribbing index is 3.4 at the end of the preserved shell. Constrictions exist on the inner whorls. Two of these constrictions, narrow and shallow, can be identified on the outer whorl preserved.

UGR MPC.29.1 ( Figs. 4 View Fig , 5 View Fig ) shows both fewer constrictions and a similar but weaker sculpture. UGR MBV’.21.2 ( Fig. 4 View Fig ) corresponds to a camerate shell at 64.5 mm, and shows oblique, indistinct constrictions, three of which are observed on the outer whorl that belongs to the phragmocone. Ribbing is dense, prorsiradiate and bifurcates between the external one−third and one−fourth of the flank. Intercalatory ribs occur occasionally, and subpolyplocoid ribs are scarce.

Complementary material, interpreted as Geyericeras cf. aragoniense sp. nov. [M, m], consists of septate internal moulds and more or less complete body−chambers showing coiling degree and sculpture equivalent to those described above (microconchs: UGR MTG2.33.1, UGR MVP.59.2, UGR MPC.28.16, UGR MPC.28.61, UGR MPC.28.78, UGR MPC.29.9, UGR MPC.29.11, UGR MPC.29.24, UGR MPC.29.26, UGR MPC.29.27, UGR MLG.23.2, UGR MLG.23.10, UGR MLG.23.13, UGR MLG.23.14, UGR MLG.23.19, UGR MPR.35.1, UGR MPR.36.4, UGR MPR.36.13, UGR MPR.36.14, UGR MPR.36.15; and macroconchs: UGR MVP.57.7, UGR MPC.28.70, UGR MPC.28.74, UGR MPC.29.13, UGR MLG.23.5, UGR MPR.35.4, UGR MPR.36.9, UGR MPR.36.12).

Stratigraphic and geographic range, associated ammonites and correlation potential.—The stratigraphic range of Geyericeras aragoniense sp. nov. [m, M] is restricted to the upper part of the Ataxioceras lothari Subzone , A. lothari Biozone , in lower Kimmeridgian deposits from the eastern Iberian Range, where it serves to identify and denominate the G. aragoniense biohorizon, below the FAD of Crussoliceras ( Fig. 6).

The ammonite assemblage to which Geyericeras aragoniense sp. nov. [m, M] belongs consists of endemic Ardescia [m, M] (under study), Lithacosphinctes inconditus (Fontannes, 1879) [m, M], Lithacosphinctes sp. nov. gr. L. perayensis ( Atrops, 1982) [m], Lithacosphinctes sp. , Parataxioceras gr. evolutum Atrops, 1982 [m, M], Ataxioceras lothari (Oppel, 1863) morphotypes A. lothari lothari Oppel, 1863 [m, M] and A. lothari semistriatum Schneid, 1944 [m], Ataxioceras sp. [m, M] and other Ataxioceratinae [m, M]. Among other ammonites are Aspidoceras gr. linaresi Checa, 1985, Aspidoceras sp. gr. binodum (Oppel, 1863), Aspidoceras sesquinodosum (Fontannes, 1876 in Dumortier and Fontannes 1876), Aspidoceras sesquinodosum (Fontannes, 1876 in Dumortier and Fontannes 1876), Pseudowaagenia micropla (Oppel, 1863) , Physodoceras wolfi (Neumayr, 1873) , and other indeterminate aspidoceratins; rare Nebrodites sp. , Glochiceras s. l., Metahaploceras gr. subnereus (Wegele, 1929), Metahaploceras sp. , and Streblites sp. have also been identified.

The Geyericeras aragoniense biohorizon encompasses the stratigraphic interval between the FAD of Geyericeras aragoniense sp. nov. [m, M] and the FADs of Crussoliceras Enay, 1959 [m, M] and Garnierisphinctes Enay, 1959 [m, M]. Since ataxioceratid ammonites do not show major differences in the underlying Ataxioceras lothari biohorizon identified within the A. lothari Biozone ( Fig. 6), and the lower boundary is defined by the FAD of an endemic taxon, the index species Geyericeras aragoniense sp. nov. [m, M], the precise correlation potential of the G. aragoniense biohorizon is somewhat restricted to the assumption of “isochrony” for its upper boundary, which is defined by the FAD of the widespread taxon Crussoliceras . Future improvement of the correlation potential of the G. aragoniense biohorizon is envisaged on the basis of accompanying ammonite taxa other than Ataxioceratinae (research in progress by the authors).