• 1858 Bifurculapes; E, Hitchcock, p. 152.

• 1865 Biferculipes; E. Hitchcock, p. 14 (incorrect subsequent spelling).

• 1865 Bifurculipes; E. Hitchcock, p. 15, 16, plate 7, figs. 2 and 9 (incorrect subsequent spelling).

• 1865 Bifurcalipes; E. Hitchcock, plate 7, figs. 7 and 8 (incorrect subsequent spelling).

• 1871 Bifurculipes; C.H. Hitchcock, p. 21 (incorrect subsequent spelling).

• 1889 Bifurculipes; C.H. Hitchcock, p. 119 (incorrect subsequent spelling).

• 1915 Bifurculapes; Lull, p. 58, fig. 2.

• 1953 Bifurculapes; Lull, p. 42, fig. 2.

• 1975 Bifurculapes; Häntzschel, p. W46, fig. 28.4.

• 2006 cf. Bifurculapes; Lucas et al., p. 130, fig. 3B.

• non 1992 Bifurculapes; Demathieu et al., p. 30, fig. 7.2.

• non 2006 Bifurculapes; Santi, p. 205–206, figs. 5 and 6.

TYPE SPECIES: Bifurculapes laqueatus Hitchcock 1858, designated by Lull (1953, p. 42).

OTHER SPECIES: Bifurculapes scolopendroideus Hitchcock 1858.

EMENDED DIAGNOSIS: A trackway consisting of two rows of elongate, straight or crescentic imprints arranged in series of two, or rarely, three tracks. Within series, the anterior tips of the two larger tracks form a line nearly perpendicular to the trackway midline. Series are arranged in staggered or alternate symmetry. Tracks are of different lengths, with the longest and intermediate length tracks oriented posterolaterally to the trackway axis and often divergent from each other, the smallest track is oriented oblique or perpendicular to the axis. The longest track is almost always on the outside of the trackway, with the middle length track on the inside and the smallest track between the other two.

REMARKS: Bifurculapes resembles other ichnogenera erected by Hitchcock, including Acanthichnus, Conopsoides, Copeza, Grammepus, Hamipes, Harpagopus, Harpepus, Lithographus, Sagittarius and Stratipes (Minter and Braddy 2009). However, most of these ichnogenera are also in need of revision, which is beyond the scope of this paper; consequently, except for Lithographus and Copeza, their relationships to Bifurculapes will be discussed elsewhere. Copeza with Lithographus was revised by Minter and Braddy (2009) based on a large number of specimens found in the Permian Robledo Mountains Formation of New Mexico.

Bifurculapes, Lithographus and Copeza can be differentiated from each other by the relative position of the three different tracks within the series and the orientation of the different tracks relative to the trackway midline. In Bifurculapes, the outer and inner tracks are nearly parallel to each other and are oblique or parallel to the trackway axis. By contrast, in Copeza the outer track is oriented parallel to the trackway midline and the inner track is perpendicular to the trackway midline. In Lithographus, the outer track tends to be perpendicular to the trackway midline, whereas the inner or middle track is parallel to the trackway midline (Minter and Braddy 2009; Minter et al. 2012).

Further, Bifurculapes and Lithographus can be differentiated by the relative position and orientation of the different tracks, as defined by their length. In Lithographus the longest track is the middle or inner track (Minter and Braddy 2009; Minter et al. 2012), whereas in Bifurculapes the longest track is on the outside of the trackway. In Lithographus, the mid-sized track is oriented perpendicular to the trackway midline, whereas in Bifurculapes it is oriented posterolaterally or posteromedially. The smallest track is oriented anterolaterally or parallel to the trackway midline in Lithographus, but perpendicular to the trackway axis in Bifurculapes. Finally, in Bifurculapes, the two longer tracks are located nearly laterally with respect to each other, whereas in Lithographus there are distinct anterior, middle, and posterior tracks.

The preservation of medial drags in some specimens, including ACM.ICH 300, indicates that the differences between these two ichnogenera do not result from undertracking (in contrast to the views of Lucas et al. 2006 and Minter and Braddy 2009), because these features are the first parts of arthropod trackways lost as a result of undertracking and similar phenomena (e.g., Goldring and Seilacher, 1971; Getty et al. 2013).

Hitchcock (1858, 1865) erected five ichnospecies of Bifurculapes: Bifurculapes curvatus, Bifurculapes elachistotatus, Bifurculapes laqueatus, Bifurculapes scolopendroideus and Bifurculapes tuberculatus (Fig. 4). Subsequently, Lull (1953) designated Bifurculapes laqueatus as the type species, and thus it has priority in synonymies. Herein, Bifurculapes curvatus and Bifurculapes elachstotatus are considered to be junior subjective synonyms of Bifurculapes laqueatus because their morphologies overlap or intergrade with that of the type ichnospecies. Hitchcock (1865) erected Bifurculapes curvatus for specimens in which the tracks were supposedly more curved than in other species. A comparison of Bifurculapes laqueatus and Bifurculapes curvatus tracks, however, indicates that the difference in track curvature between the two species is negligible (Fig. 5). Bifurculapes elachstotatus was differentiated from other species in that its tracks were much shorter and did not touch. Some specimens, however, show that track length varies along the course of individual trackways. For example, both YPM IP 160381 and ACM.ICH 55/62 have sections that would be attributed to Bifurculapes laqueatus or Bifurculapes elachistotatus if found separately.

In 1865, Hitchcock removed Bifurculapes tuberculatus from the ichnogenus, arguing that the specimens on which the species was based were eroded remnants of more complete trackways. The lectotype of Bifurculapes tuberculatus, on ACM.ICH 36/19 (Fig. 4i), supports Hitchcock’s contention that the ichnospecies is in fact a preservational variant of a more complete trace. The trackway is preserved on two separate laminae; only the distal tips of the tracks are impressed on the overlying lamina, whereas complete tracks are preserved on the underlying lamina. Thus the punctate marks in portions of the lectotype are incomplete overprints. In addition to ACM.ICH 36/19, Hitchcock (1858) listed three other slabs on which Bifurculapes tuberculatus was supposedly impressed: ACM.ICH 36/45, 36/46, and 36/47. The species cannot be found, however, on any of these slabs, and Hitchcock (1865) actually identified the trackway on 36/47 as belonging to his new ichnogenus Pterichnus. Considering that the lectotype of Bifurculapes tuberculatus is a taphonomic variant of a more complete trackway, and that other examples cannot be found on the slabs that represent the type series, this ichnospecies is herein considered to be a nomen dubium.

• 1858 Bifurculapes laqueatus E, Hitchcock, p. 153.

• 1865 Biferculipes laqueatus; E. Hitchcock, p. 16.

• 1865 Bifurculipes curvatus; E. Hitchcock, p. 15, plate 7, figs. 2 and 9.

• 1865 Biferculipes elachistotatus; E. Hitchcock, p. 16.

• 1889 Bifurculipes laqueatus; C.H. Hitchcock, p. 119.

• 1889 Bifurculipes curvatus; C.H. Hitchcock, p. 119.

• 1889 Bifurculipes elachistotatus; C.H. Hitchcock, p. 119.

• 1915 Bifurculapes laqueatus; Lull, p. 58, fig. 2.

• 1915 Bifurculapes curvatus; Lull, p. 58.

• 1915 Bifurculapes elachistotatus; Lull, p. 58.

• 1953 Bifurculapes laqueatus; Lull, p. 42, fig. 2.

• 1953 Bifurculapes curvatus; Lull, p. 42.

• 1953 Bifurculapes elachistotatus; Lull, p. 42.

• 2006 cf. Bifurculapes ichnosp.; Lucas et al., p. 130, fig. 3B.

OCCURRENCE: Early Jurassic (Hettangian), Turners Falls Formation of the Deerfield Basin, East Berlin Formation of the Hartford Basin, and Moenave Formation of the Zuni sag.

EMENDED DIAGNOSIS: Bifurculapes with two to three tracks per series and a regularly repeating, alternate trackway pattern.

DESCRIPTION : Trackways of this species have external widths from 0.4 to 0.9 cm, and internal widths of 0.1 to 0.5 cm. The tracks are arranged into staggered to alternating series of two to three, and overlap between sets is rare. The position of the third track, where present, is variable, even within a single trackway. It may be positioned anterior or posterior to the other two tracks, or anywhere between; in a lateral direction, this track may occur close to the trackway midline or between the other two. Individual tracks may be straight or curved. Outer track lengths range from 0.5 to 5.4 mm, and inner track lengths are from 0.4 to 4.3 mm. Outer tracks are typically oriented posterolaterally, with angles to midline ranging from 0° to 55°, whereas inner tracks are oriented posterolaterally, posteromedially, or parallel to the trackway midline, with angles ranging from -37° to 32°. The repeat distance, or stride, ranges from 0.2 to 0.7 cm. Medial drags are rarely present.

REMARKS : As noted previously, the ichnospecies concept for Bifurculapes laqueatus is expanded from Hitchcock’s (1858) original understanding to include morphologies that he had included in Bifurculapes curvatus and Bifurculapes elachistotatus because of intergradation among the ichnospecies. Bifurculapes laqueatus is retained as the senior synonym because it was designated the type species by Lull (1953).

• 1858 Bifurculapes scolopendroideus E, Hitchcock, p. 153.

• 1865 Biferculipes scolopendroideus; E. Hitchcock, p. 16.

• 1889 Bifurculipes scolopendroideus; C.H. Hitchcock, p. 119.

• 1915 Bifurculapes scolopendroideus; Lull, p. 58.

• 1953 Bifurculapes scolopendroideus; Lull, p. 43.

OCCURRENCE: Early Jurassic (Hettangian), Turners Falls Formation of the Deerfield Basin.

EMENDED DIAGNOSIS: Bifurculapes with one to two tracks per series; the inner tracks are only intermittently present. Where present, the inner tracks are oriented either parallel to or inward relative to the trackway midline, and are more irregularly placed than in Bifurculapes laqueatus such that the paired series are not always visible.

DESCRIPTION : Trackways assigned to this species have external widths of 1.6 and 2.7 cm, and internal widths of 1.4 and 1.5 cm. Outer track lengths range from 0.6 to 1.3 cm, and inner track lengths from 0.3 to 0.7 cm. The angle to midline for the outer track ranges from 13 to 39°, that of the inner tracks is 0 to 48°. The stride of the outer tracks is variable within each trackway, from 0.7 to 2.0 cm in 36/14 and 0.7 to 2.0 cm in 36/41. The short stride length causes overlap, up to 0.3 cm, between some of the tracks in 36/14. Inner tracks are placed medial to, or in line with, the outer tracks relative to the trackway midline, and in some cases are located nearly midway between the outer tracks so that series are not discernable. The close spacing of some of the outer tracks, coupled with the positioning of the inner tracks, sometimes gives the impression of a single, bifurcated trace.

REMARKS: Lull (1953) noted that Bifurculapes scolopendriodeus exhibits a morphology unlike that of other ichnospecies of Bifurculapes in that the inner tracks are not always present, but when they occur they are parallel to the trackway axis. Re-examination of the lectotype confirms Lull’s observations: of ten track series on the left side of the trackway that are unequivocally associated with the trace, only two exhibit two tracks. On the right side of the trackway only three, or possibly four, of eleven track series exhibit two tracks. However, the trackway appears to be an undertrack, which might explain the loss of some of the inner tracks. Lull (1953) was skeptical of including Bifurculapes scolopendroideus within the ichnogenus but ultimately did not remove it. I share Lull’s skepticism but retain its present assignment pending the collection of better specimens.

Outside of the Hartford and Deerfield basins, tentative occurrences of Bifurculapes have been recorded from the Permian of France and Italy (Demathieu et al. 1992; Durand 2001; Santi 2006), the Triassic of Argentina (Melchor 2004), the Jurassic of Utah (Lucas et al. 2006; Milner et al. 2009), and the Cretaceous of Alaska (Fiorillo et al. 2009). Many of these trackways, however, are unlike the specimens described by Hitchcock (1858, 1865) and can be assigned to other ichnotaxa, or were not figured. For example, Melchor (2004) and Fiorillo et al. (2009) did not figure the specimens that they reported; furthermore, Fiorillo et al. were uncertain of the ichnogeneric assignment of the trackways. Additionally, Santi (2006) illustrated trackways that were similar to those reported by Demathieu et al. (1992) and Durand (2001). Based on Santi’s figure, the trackways appear to have as many as four tracks per series, which would preclude them from inclusion in Bifurculapes. As Santi (2006) noted, they might belong to Secundichnium alternans, which was erected by Walter (1983). The specimen illustrated by Lucas et al. (2006) resembles specimen ACM ICH 55/90 that Hitchcock (1865) attributed to Bifurculapes curvatus. Thus, the Utah specimen appears to be the first unequivocal occurrence of the ichnogenus outside of the Deerfield Basin. Therefore, the specimens from Holyoke, Massachusetts, constitute the second undoubted occurrence of Bifurculapes outside of the type region. These three undoubted occurrences of Bifurculapes are all of Early Jurassic age.

When Hitchcock (1858) first described Bifurculapes, he proposed that the likely trackmakers were either arthropods or crustaceans, but he later (1865) considered the fossils to be insect traces. Lull (1915, 1953) concurred with Hitchcock’s final assessment and considered insects to be the most likely trackmakers. Most subsequent researchers (e.g., Mayoral 2001) have also suggested that the ichnogenus resulted from insect activity, although Demathieu et al. (1992) argued that a triopsid crustacean was a more likely trackmaker for possible specimens from France.

Eiseman and Charney (2010, p. 501) have figured darkling beetle (Coleoptera: Tenebrionidae) trackways that are similar to Bifurculapes laqueatus in that the track series sometimes consists of two elongate and posteriorlyoriented tracks, but differ in that the longer track is positioned medially. Overall, however, these modern beetle trackways support the inference that Bifurculapes laqueatus was indeed made by an insect. Bifurculapes scolopendroideus, on the other hand, is larger and more irregular than Bifurculapes laqueatus, and it also occurs in dark grey, lacustrine shale. This latter observation supports the possibility that Bifurculapes scolopendroideus may be the trace of a crustacean.