Magophoca brevirostris, Dewaele & Muizon, 2024

Magophoca brevirostris n. gen., n. sp.

( Figs 2-45 View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG ; Tables 1-27 View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE View TABLE ; Appendices 1-4)

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HOLOTYPE. — MNHN.F.PPI276 , partial skeleton of a male. Associated elements include the partial left rostrum, fragmentary horizontal ramus of left mandible, left M1; all cervical vertebrae, including subcomplete atlas, partial axis, and Ce 3–7 in various conditions of preservation, four thoracic and three lumbar vertebrae in various conditions of preservation, multiple fragments of ribs, partial sacrum, six (seven?) caudal vertebrae in various conditions of preservation; complete left scapula, articular portion of the right scapula, subcomplete left and right humerus, incomplete left and right radii consisting of separated proximal epiphysis and distal extremity, abraded proximal half of the left ulna, and right ulna without olecranon process; anterior portion of right innominate, severely abraded portion of left innominate, partial baculum, left and right femur and (probably) right patella, (proximally fused) left and right tibia and fibula, subcomplete left and right astragalus, subcomplete left and right calcaneum, subcomplete left cuboid, partial right cuboid, subcomplete left navicular, partial right navicular, partial left and right ectocuneiforms, left Mt I-V, proximal portion of right Mt II, three complete phalanges and fragments pertaining to multiple phalanges

PARATYPES. — MNHN.F.PPI269 , subcomplete but slightly crushed cranium including left malleus; complete left and right mandibles dentition consisting of upper left I2, P3, and M1, upper right C, P1-P4, lower left c, p1, p3, p4, m1, and lower right c, p1-p4, m1; cervical vertebrae, including atlas, axis, and Ce3; manubrium; left scapholunar; proximal half of right Mc III and IV.

MNHN.F.PPI277, partial skull consisting of the partial left rostrum and moderately fractured braincase.

DIAGNOSIS. — A comparatively small lobodontin (i.e., Lobodontini ), diagnosed by the following unique characters: six upper incisors (also in Phocinae , but four in other Monachinae , except Noriphoca gaudini ), and the lower and upper branch of the transverse processes of Ce3-7 are clearly separated (also in Phocinae ). Magophoca brevirostris n. gen., n. sp. is also characterized among Lobodontini by the following unique set of characters: an extended premaxillanasal contact (also in Acrophoca , Hadrokirus , and Homiphoca ), the alveolar process of the maxilla facing anteroventrally posterior to P1 (also in Hadrokirus , Homiphoca , Piscophoca , and Ommatophoca ), an insertion area for m. supraspinatus on the scapula that is equal to or smaller than the insertion areas for m. infraspinatus and m. teres major (also in Hydrurga ), a greater tubercle reaching the level of the humeral head (also in Homiphoca and Piscophoca ), the lack of a bicipital bar on the humerus (also in Acrophoca , Lobodon , Ommatophoca , and Pliophoca ), a well-developed supinator ridge (also in Homiphoca , Kawas , Leptonychotes , Lobodon , and Piscophoca ), the presence of an entepicondylar foramen (also in Homiphoca and Kawas , and in Frisiphoca , a monachine genus of unknown tribal affinities), a deep groove for the m. extensor digitorum communis tendon on the radius (also in Acrophoca and Piscophoca ), an anterodorsal iliac process located posterodorsal to the anteroventral iliac process (also in Ommatophoca ), a large and strongly protruding posteroventral iliac process (also in Kawas ), and a little reduced trochanteric fossa on the femur (also in Homiphoca , Kawas , Lobodon , and Piscophoca ).

ETYMOLOGY. — The specific name brevirostris comes from the Latin adjective ‘brevis’, short, and noun ‘rostrum’, snout, thus meaning short snout. The specific name is an anatomically descriptive name, highlighting the comparatively short snout of the species compared to other Monachinae .

TYPE LOCALITY. — All the specimens are from the locality of Cerro La Bruja in the Ica desert, and were discovered at the foot of the hill.

TYPE HORIZON AND AGE. — All the specimens are from the CLB level as defined by Muizon & DeVries (1985). This faunistic level corresponds to the very base (unit P2-1) of the P2 sequence of the Pisco Formation, which is as old as 8.4 Ma ( Bosio et al. 2020).

OTHER REFERRED SPECIMENS. — MNHN.F.PPI278 , a partial rostrum including left C, P1 and P2, and right P1, partial horizontal rami of the left and right mandibles;

MNHN.F.PPI279 , subcomplete right humerus, highly incomplete left humerus preserved as separated proximal and distal portions, pathologic distal half of radius, proximal epiphysis of right radius, left Mc I, fragments of indeterminate phalanges, five anterior thoracic vertebrae, several rib fragments, and three sternebrae;

MNHN.F.PPI280 , partial left radius missing the distal epiphysis, partial right ulna missing the distal portion;

MNHN.F.PPI281 , isolated subcomplete right femur;

MNHN.F.PPI282, partial right hind limb with distal portions of tibia and fibula, astragalus, calcaneum, navicular, incomplete cuboid;

MNHN.F.PPI283 , distal portion of left humerus;

MNHN.F.PPI284 , left partial hind limb with strongly weathered femur, proximal portion of tibia, astragalus and calcaneum;

MNHN.F.PPI285 , proximal half a right ulna;

MNHN.F.PPI286 , proximal and distal extremities of right tibia;

MNHN.F.PPI287 , strongly weathered elements of hind limbs including distal extremity of right tibia, right and left partial astragali; right and left almost complete calcanea, right navicular, right incomplete cuboid, right and left ectocuneiforms; proximal extremity of left Mt II and III; complete left Mt IV and V, proximal half of right Mt IV;

MNHN.F.PPI288 , left innominate strongly weathered medially and missing posterior ends of pubis and ischium;

MNHN.F.PPI289 , partial right innominate (missing ventral angle of ilium and posterior parts of ischium and pubis) and complete right femur with unfused epiphyses;

MNHN.F.PPI290 , limb elements of a juvenile individual (all lacking epiphyses): distal part of right scapula, right and left humeri, right radius, right innominate missing posterior parts of pubis and ischium, left tibia;

MNHN.F.PPI291 , left innominate of juvenile;

MNHN.F.PPI292 Proximal half of severely weathered left humerus;

MNHN.F.PPI293 complete left astragalus and right astragalus missing talus (same individual);

MNHN.F.PPI294 , fragmentary skull (including well-preserved left ear region), partial mandible, atlas and centrum of axis;

MNHN.F.PPI295 , three anterior thoracic vertebrae, some rib fragments, right scapholunar, magnum, trapezium, trapezoid, right McII, IV, and V, left McI, and III, one right proximal phalanx, proximal part of left proximal phalanx, one right (?) middle phalanx, two ungual phalanges missing distal apex;

MNHN.F.PPI296 , isolated incomplete left femur.

MNHN.F.PPI297 , right McI missing proximal epiphysis

DESCRIPTION AND COMPARISON

SKULL

General

Our cranial sample of Magophoca brevirostris n.gen.,n. sp. consists of four specimens, including the holotype (MNHN.F.PPI276), two paratypes (MNHN.F.PPI269,MNHN.F.PPI277), and an anterior portion of a rostrum (MNHN.F.PPI278).The holotype includes a toothless partial left rostrum (maxilla and premaxilla). Paratype MNHN.F.PPI269 is subcomplete (skull and mandibles) but significantly fractured and distorted. Paratype MNHN.F.PPI277 is a left maxilla and associated moderately fractured braincase and basicranium. MNHN.F.PPI269 and MNHN.F.PPI278 are referred to Magophoca n. gen., based on the presence of three upper incisors as on the holotype. This is an uncommon feature among Monachinae , which is present only in Noriphoca gaudini from the early (?) Miocene of the Abruzzo region ( Italy) ( Guiscardi 1871; Dewaele et al. 2018a). Other fossil and extant Monachinae have two upper incisors (see below). Phocinae also have three upper incisors, but several other features of MNHN.F.PPI276, MNHN.F.PPI269, MNHN.F.PPI277, and MNHN.F.PPI278 also support their identification as monachines (see below). MNHN.F.PPI277 is referred to Magophoca n. gen. based on similarities on the basicranium and maxilla (see below).

The dental formula of Magophoca n. gen. is I3/2 C1/1 4/4P 1/1M (char. 39[0], 42[0], 51[1]).

Most of the specimens lack the incisors. Only left I1 and I3 are present in MNHN.F.PPI278 and left I2 is preserved on MNHN.F.PPI276. None of the lower incisors are known. The dental formula of Magophoca n. gen. corresponds to that of the general condition in Phocinae . The general dental formula of Monachinae (other than Magophoca n. gen. and Noriphoca ) is I2/2 C1/1 P4/4 M1/1 with two upper incisors instead of three. Exceptions are the extant monachine genus Mirounga and the extant phocine species Cystophora cristata , which have dental formulas I2/1 C1/1 P4/4 M1/1, with two upper and one lower incisor (e.g., King 1966; Berta & Wyss 1994; Bininda-Emonds & Russell 1996). The retention of a third upper incisors in Magophoca n. gen. and Noriphoca is a plesiomorphy present in all Pinnipedia , except other Monachinae ( Berta & Wyss 1994) .

CRANIUM ( Figs 2-10 View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG ; Tables 1-3 View TABLE View TABLE View TABLE )

General

Within our sample of four specimens of Magophoca brevirostris n. gen., n. sp. including cranial remains, MNHN.F.PPI278 is the largest, followed by the holotype. The rostrum of paratype MNHN.F.PPI277 is incompletely preserved, but the size of the braincase and basicranium suggests that the individuals MNHN.F.PPI269 and MNHN.F.PPI277 are of similar size. Ranking the four specimens according to size:MNHN.F.PPI269 (paratype) ≈ MNHN.F.PPI277 (paratype) <MNHN.F.PPI276 (holotype) <MNHN.F.PPI278. Because the holotype is a male (since the specimen includes a baculum) we suggest that the large rostrum of MNHN.F.PPI278 is that of a male too. Therefore, the two paratypes, which are distinctly smaller than the holotype could be females since sexual dimorphism is widespread among pinnipeds (e.g., Jefferson et al. 2008). Quantitative data supporting this hypothesis are provided in Table 1 View TABLE , in which all the measurements of the male and inferred male are greater than those of the inferred females.

Skull dimensions of Magophoca n. gen. are smaller than for most other Monachinae ( Tables 2 View TABLE ; 3 View TABLE ). A notable exception is Australophoca , which does not have any published skull, but is the smallest monachine based on postcranial remains.Based on these measurements, it can be argued that Magophoca n. gen. was slightly smaller in size than the average extant monachine seal. Using the equations from Churchill et al. (2014) to calculate the estimated body size of Magophoca n. gen., the estimated body size of specimen MNHN.F.PPI269 is c. 223 cm, conforming this statement. Considering that the first equation used total basal skull length and that this could not be measured for any of the preserved skulls, only the second equation, below, has been used.

0.37 × Log width of skull across canines + 0.80 × Log width across occipital condyles + 1.39

Rostrum

The rostrum of Magophoca brevirostris n. gen., n. sp. is short and stout ( Figs 2 View FIG ; 3 View FIG ; 9 View FIG ). In Magophoca n. gen., the premaxilla forms the medial wall of the nasal cavity. In the median part of the nasal cavity, the ascending ramus of the premaxilla remains within the nasal cavity and, consequently, only the posterodorsal portion of the ascending ramus of the premaxilla is visible in lateral view (char. 2[1]). In other words, the maxilla-premaxilla suture runs on the dorsal edge of the nasal cavity in its median portion and therefore is not (or barely) visible in lateral view. This corresponds with the general condition in Monachinae and contrasts with the condition

in Phocinae . Among Phocinae , the ascending ramus of the premaxilla is visible in lateral view along the entire length of the nasal cavity and the maxilla-premaxilla suture is observed on the lateral aspect of the wall of the nasal cavity. However, exceptions exist: among the phocines Histriophoca and Pagophilus , the anteroventral portion of the ascending ramus of the premaxilla remains visible in lateral view, but becomes marginally thin in its median part ( Bininda-Emonds & Russell 1996). In addition, in the monachine genus Mirounga and the phocine Cystophora , only the anterior portion of the premaxilla is visible in lateral view, a condition likely correlated to the cranial adaptations to accommodate a proboscis.

The anterior tips of the premaxillae end in a distinct, anterodorsally protruding tuberosity in Magophoca n. gen. The tuberosity is small in MNHN.F.PPI269, but is robust and well developed in MNHN.P.PPI278, in which it is almost as large as in Homiphoca ( Fig. 9 View FIG ). Such a tuberosity is strongly reduced or even absent in other Monachinae , with the exception of the extant Hydrurga , and the extinct Acrophoca , Hadrokirus , Homiphoca , and Piscophoca . In Homiphoca , this tuberosity strongly projects anteriorly.

In lateral view, the margin of the nasal cavity of Magophoca n. gen. appears rather strongly concave (char. 4[1]). The nasal cavity opens more dorsally than anteriorly(char.3[1]). This condition corresponds with other Monachinae , with the exception of Ommatophoca , which has a rather anteriorly-facing nasal cavity.

The posterodorsal tip of the ascending ramus of the premaxilla broadly contacts the nasal (char. 1[0]). This characteristic is a plesiomorphy shared with Phocinae (except Cystophora ) and some extinct Monachinae : Acrophoca , Hadrokirus , Homiphoca , and Sarcodectes . Among other Monachinae , a reduced contact is observed in Leptonychotes , Piscophoca , and the tribe Monachini ; it is absent in Hydrurga , Lobodon , and Ommatophoca .

The palatal part of the premaxilla is roughly triangular ( Figs 2 View FIG ; 5 View FIG ). The incisors are arranged in a weakly-curved arch. The incisive foramen forms a deep groove, entirely located within the premaxillary portion of the palate, and the left and right foramina are separated by a well-developed septum. Except for the extinct Eomonachus , Hadrokirus , Piscophoca , and Sarcodectes and the extant Hydrurga , and Ommatophoca , these incisive foramina are shallow or even vestigial in other Monachinae .

The nasals are elongate, forming a long and narrow V-shaped wedge terminating roughly mid-way between the level of the anterior margin of the orbit and the posterodorsal process of the jugal, well posterior to the level of the anterior margin of the orbito-temporal fossa, ventrally (char. 5[1], 6[1]), ( Fig. 3 View FIG ). Among other Phocidae ,the distal termination is generally sharply V-shaped too, except for Neomonachus schauinslandi and the extant phocine Erignathus (see, Bininda-Emonds & Russell 1996). In the latter two, the nasals form a V-shaped wedge between the frontals, but the distal termination is blunter, more rounded.

The extension of the posterior termination of the nasals varies among Monachinae . This character appears to vary considerably, intraspecifically, but generally the posterior end of the nasals reaches or is posterior to the level of the anterior margin of the orbito-temporal fossa ventrally in many monachines. It extends well posterior to this edge in Acrophoca and Ommatophoca . It does not extend posterior (or barely) to the level of the anterior margin of the orbito-temporal fossa ventrally in Hadrokirus , Homiphoca , Mirounga, Monachini , and Sarcodectes .

Although the rostrum is broken at key areas, it appears that the maxilla-nasal contact is slightly longer than the nasal-frontal contact. The anterior margin of the nasal over the naris is distinctly V-shaped with the lateral branch of the V longer than the medial one; therefore, the anterior margin of the combined nasals is clearly W-shaped.

The palatal processes of the maxillae of the paratype MNHN.F.PPI269 have been displaced during fossilization and the bones of the rostrum are not in anatomical disposition ( Fig. 5 View FIG ). However, the palatal process of the maxilla is straight, and we hypothesize that the alveolar process (i.e., maxillary toothrow) was facing slightly anteroventrally (char. 18[1]). This condition is also observed in the extinct Monachinae Hadrokirus , Homiphoca , and Piscophoca , and the extant Ommatophoca , in which the palate and the maxillary toothrow are strongly upturned anteroventrally ( Muizon & Hendey 1980; Muizon 1981; Amson & Muizon 2014; Govender 2015). In most other extant Monachinae the alveolar process of the maxilla faces roughly ventrally.

The maxilla strongly narrows anteriorly, at the level of the P1 (char.19[1]). Therefore,the maxillary toothrow strongly diverge from the sagittal plane posteriorly; the palate is the narrowest at the level of P1 and at least twice as wide at the level of M1, where it is the widest ( Table 3 View TABLE ). Among other Monachinae , maxillary toothrows are generally strongly divergent, and do not depart much from the condition in Magophoca n. gen. (char. 38[2]). The degree to which the maxillary toothrow diverges in monachines largely correlates to the elongation of the toothrow. For instance, the maxillary toothrow is twice as wide at the widest point than it is at the narrowest point in Acrophoca , just as in Magophoca n. gen., but the difference between both lies in the extreme elongation of the maxillary toothrow in the former. Hydrurga , Mirounga , and to a lesser extent Lobodon , form exceptions with virtually straight and only slightly diverging maxillary toothrows.

The palate is almost entirely flat, arching only a little. The palatine sulcus is shallow and weakly outlined, terminating posteriorly in a small, rounded palatine foramen at the level of the diastema between P4 and M1. The palatine foramen is located anterior to the palatomaxillary suture ( MNHN.F.PPI276; Fig. 2B, E View FIG ) or on the palatomaxillary suture ( MNHN.F.PPI269; Fig. 5 View FIG ). The position of this palatine foramen differs strongly within Phocidae . In Phocinae , it terminates well posterior to the level M1 and is located on the palatine bone or at the suture between the maxilla and the palatine. The exception is the genus Phoca , in which it terminates at the level between P4 and M1 and anterior to the palatomaxillary suture. The condition in Magophoca n. gen. differs little from that in the other Monachinae , but, in the latter, the position of the palatine foramen varies from the level between P3 and P 4 in Hydrurga to a level medial or posterior to M 1 in Homiphoca and Mirounga . Also, among other Monachinae , this foramen is located in the maxillary, with the exception of Piscophoca , where it is located at the palatomaxillary suture, and Homiphoca , where it is located posterior to the palatomaxillary suture, therefore in the palatine.

C alveolar process/ P1 maxillary toothrow P2 palate zygomatic P3

P4 M1

jugular of squamosal orbit preglenoid process glenoid fossa postglenoid process mastoid

Orbits. The anterior opening of the infraorbital foramen on the lateral margin of the maxilla, at the base of the zygomatic process is subcircular and large in Magophoca brevirostris n. gen., n. sp. ( Figs 2 View FIG ; 7 View FIG ; 8 View FIG ). Among Monachinae , the characteristic of a subcircular infraorbital foramen is shared with Acrophoca , Hadrokirus , Leptonychotes , and Monachini ; but it has an oval outline in other Monachinae .

In Magophoca n. gen., the infraorbital foramen is located just dorsal to M1, following the condition in other Phocidae , except for the extant Lobodontini , in which this foramen is located slightly anterodorsal to M1, and Mirounga and Sarcodectes in which it is located posterodorsal to M1 (char. 11[1]).

The area between the zygomatic process of the maxilla just ventral to the infraorbital foramen and the alveolar process of the maxilla is flat to slightly convex in Magophoca brevirostris n. gen., n. sp, as in other Monachinae . It is generally strongly concave in Phocinae .

Overall, the zygomatic process of the maxilla is gracile and forms a relatively thin dorsolateral edge of the infraorbital foramen. This process extends and tapers posteriorly. It has a long and almost straight horizontal contact with the medial edge of the maxillary process of the jugal. The jugo-maxillary suture is markedly oblique as in most monachines, and differing from the condition in phocines in which it is only slightly oblique or subvertical (char. 12[0]). Noteworthy exceptions among Monachinae are Hadrokirus and Mirounga , which have a subvertical jugo-maxillary suture.

The zygomatic process of the maxilla of Magophoca n. gen. projects horizontally to slightly dorsally and the zygomatic arch is at a level above the alveolar plane, in lateral view (char. 14[0]). This corresponds with the condition in other Phocidae , except for Acrophoca , Homiphoca , extant Lobodontini (except Hydrurga ), and N. schauinslandi , in which the ventral edge of the zygomatic arch is at the same level of, or is ventral to, the maxillary tooth row. In Hydrurga , the zygomatic process of the maxilla curves ventrally, but does not reach the level of the alveolar plane of the maxilla. Consequently, the jugo-maxillary suture is visible in lateral view along the entire length of the contact.

The lateral expansion of the orbits in Magophoca brevirostris n. gen., n. sp. does not differ from the average monachine. Exceptional monachines are Acrophoca and Hydrurga , having elongated skulls with comparatively narrow orbits, and Monachus monachus and Ommatophoca rossii having skulls with comparatively wide and large orbits.

The preorbital process is small and low, but easily identifiable at the anteromedial side of the orbit. Among other Phocidae , the preorbital process is generally also, either small and reduced to a small ridge or roughening of the maxilla, or absent altogether, as observed in Neomonachus . Exceptions are Acrophoca , Hadrokirus , Homiphoca , Hydrurga , and Piscophoca , in which this process is comparatively prominent and well developed.

The maxillary process of the jugal is smoothly tapering anteriorly, and the anterior limit of the process extends above the dorsomedial edge of the infraorbital foramen (char. 13[1]). This condition is shared with Monachini and other extinct Monachinae , except Homiphoca and Piscophoca ; but differs starkly from other Phocidae , in which the apex process is lateral to the infraorbital foramen or, at the most, dorsal to its lateral edge.

The jugal is transversely slender and distally splitting in a superior and inferior squamosal process, forming a mortized jugulosquamosal contact (char. 12[0], char. 15[1]). The latter is incomplete on the only preserved specimen ( MNHN.F.PPI269) and lacks its apex ( Fig. 7 View FIG ). The superior squamosal process is more slender than the inferior one, as usual in phocids. The zygomatic process of the squamosal is too abraded in the different specimens to make inferences about the jugo-squamosal contact in MNHN.F.PPI269, and by extension, in Magophoca n. gen.

The zygomatic process of the squamosal projects anterodorsally ( Fig. 7 View FIG ). Its dorsal component is moderate as in Acrophoca and Homiphoca . It is intermediate between the condition in other Monachinae , which have, either a rather anteriorlyprojecting zygomatic process ( Hydrurga , Leptonychotes , Lobodon , Neomonachus schauinslandi , and Sarcodectes ) or a more strongly dorsally-projecting zygomatic process ( Eomonachus , Hadrokirus , Mirounga , Monachus , Neomonachus tropicalis , Ommatophoca , and Piscophoca ,).

The glenoid fossa of Magophoca n. gen. is shallow and very open, with a weakly developed preglenoid process. This condition is comparable to that in other Monachinae , except for Hadrokirus , Hydrurga , Piscophoca , and Sarcodectes , which have a more semi-cylindrical glenoid fossa with a better developed preglenoid process. The postglenoid process in Magophoca n. gen. is moderately thick, as in other Monachinae , except for extant Lobodontini , in which it is comparatively much thicker. Interestingly, the postglenoid process in paratype MNHN.F.PPI269 appears to have a slightly concave posterior side, corresponding with the anteriorly projected lateral extremity of the ectotympanic. This condition is not observed in paratype MNHN.F.PPI277.

The long axes of the glenoid fossae for articulation with the mandibles are parallel to each other in Magophoca n. gen., a characteristic shared with other Monachinae , but contrasting to Phocinae , in which the long axes of the glenoid fossae converge posteriorly (char. 20[0]).

The frontals are incompletely preserved in both paratypes, MNHN.F.PPI269 and MNHN.F.PPI277 ( Figs 3 View FIG ; 4 View FIG ). The supraorbital process is almost indiscernible, reduced to a small tuberosity on the interorbital bridge, just anterior to the level of the distal tip of the nasals between the frontals (char. 9[1]). This condition varies among other Monachinae , in which the supraorbital process is either absent or vestigial.The interorbital bridge is long and narrow, and the narrowest portion is in the central part of the bridge (char. 16[0], char. 17[1]). At the extreme posterior end of the interorbital bridge, the posteriorlywidening bar is abruptly constricted. Among other Phocidae , the transverse width of the interorbital bridge varies, but it is generally as narrow or slightly less narrow than in Magophoca n. gen. Exceptions are the phocine tribe Histriophocini and genus Pusa , having a remarkably thin interorbital bridge; and, Cystophora , Erignathus , Homiphoca , Lobodon , and Ommatophoca , having a notably broad interorbital bar. In addition, the shape of the interorbital bridge largely varies between Monachinae and Phocinae . In Monachinae , except for Ommatophoca , the central and posterior portions of the interorbital bridge are generally the narrowest and the bar roughly retains its width throughout, before expanding into the braincase. In Phocinae and Ommatophoca , the central or anterior portion of the interorbital bridge is narrowest and the bar gradually widens posteriorly, progressing into the braincase. Magophoca n. gen. follows the condition observed in Monachinae .

A sharp constriction of the interorbital bridge at its posterior end, as in Magophoca brevirostris n. gen., n. sp. has also been observed in Neomonachus and Piscophoca , albeit to a lesser extent.

Basicranium and braincase

The tympanic bulla of Magophoca brevirostris n. gen., n. sp. is isosceles triangular in outline in ventral view, but with a pronounced anteriorly turned lateral lip of the ectotympanic covering the auditory meatus and extending further laterally than mid-width of the glenoid fossa (char. 22[1]). This gives the anterolateral margin of the tympanic bulla, the anterior margin of the ectotympanic, a slightly concave appearance in ventral view ( Figs 5 View FIG ; 6 View FIG ; 10 View FIG ).

A markedly triangular tympanic bulla is a shared feature with other Monachinae , but differs from Phocinae , in which the strong inflation of the tympanic bulla yields a rounder, “inflated” outline in ventral view, holding the middle between a triangular and a circular shape. On the other side of the spectrum, the inflation of the tympanic bulla in Acrophoca is less than in other Monachinae .

The medial margins of the tympanic bullae are parasagittal and parallel (char. 21[1]). This is a characteristic shared with extant and extinct Lobodontini . Amson & Muizon (2014) listed this character as one of the diagnostic characters of this tribe. In other Phocidae , the medial margins of the tympanic bullae diverge posteriorly.

The entotympanic of Magophoca n. gen. is moderately inflated (char. 23[1]). A pitted faint groove is observed along the anterior half of the tympanic bulla and corresponds to the fused suture of the ecto- and ento-tympanic. Posteriorly the suture is totally obliterated.

The ectotympanic is strongly convex medial to the tympanohyal groove forming a hump which is roughly at the same elevation as the entyotympanic medially. This inflation of the tympanic bulla is not much different from that in other Monachinae (char. 23[1]), with the notable exception of Acrophoca , which has a much less inflated tympanic bulla. This condition differs from that in Phocinae in which the entotympanic is usually much more strongly inflated. As noted above, the ectotympanic lip extends laterally, prominently. However, it is gracile and maintains a fair distance from the postglenoid process. A repercussion of this, is that the lateral lip of the ectotympanic only covers the posteroventral portion of the auditory meatus, leaving the anteroventral portion open.

The carotid canal is located on the posteromedial region of the entotympanic, visible in ventral view, and opening posteromedially (char. 29[0]). The carotid canal does not contribute to the basioccipital or posterior lacerate foramen and is separated from it by a thin lamina of the tympanic bulla (char. 30[0]). These two characters unite Magophoca n. gen. with other Monachinae (the latter with Phocidae as a whole). In Phocinae , the carotid canal is not visible in ventral view. In MNHN.F.PPI277, the anterior margin of the carotid canal is invaginated, forming an acute angle. This condition is absent in the paratype MNHN.F.PPI269 and in MNHN.F.PPI294 but is observed on the holotype of Piscophoca . The posterior margin of the carotid canal is robust, extending into a wall abutting the anterior margin of the posterior lacerate foramen.

The posterior lacerate foramen is strongly reniform, concave anterolaterally, and located at the posteromedial tip of the tympanic bulla. The posterior lacerate foramen of Magophoca brevirostris n. gen., n. sp. does not extend medial to the tympanic bulla, as in other Monachinae (char. 31[0]).

The pars petrosa of the petrosal is visible in the posterior lacerate foramen, but it is not inflated (char. 33[0]). Amson & Muizon (2014), Berta et al. (2015), and Rule et al. (2020b) regard an inflated pars petrosa of the petrosal as a characteristic uniting Eomonachus from Australasia and Monachus and Pliophoca from the Mediterranean realm, a feature that is absent in other Monachinae .

The posterolateral margin of the tympanic bulla contacts the mastoid (pars mastoidea of the petrosal), but is separated from it by a deep invagination. This invagination bears multiple grooves, pits and foramina.

The pit for the tympanohyal, in the anterolateral half of this invagination, is located on the ectotympanic and descends into the tympanomastoid contact. The shape of the pit for the tympanohyal on the posterior margin of the ectotympanic varies: it is a wide-open groove in both bullae of MNHN.F.PPI277, but the only completely preserved bulla of MNHN.F.PPI269 (the right one) has a pit for the tympanohyal that is covered by a thin lamina. Among other Monachinae , the pit for the tympanohyal is also (partially) covered by a bony lip in Acrophoca , Hadrokirus , Homiphoca , Leptonychotes , Lobodon , and Monachus .

The stylomastoid foramen is located at the contact between the ectotympanic and the mastoid. From the foramen a deep groove extends anterolaterally at approximately 45° to the sagittal plane. The morphology of this groove varies between MNHN.F.PPI269 and MNHN.F.PPI277. It forms a cylindrical, lateroventrally open gutter in both, open ventrally in MNHN.F.PPI277, but covered posteriorly by a thin lamina of the mastoid in MNHN.F.PPI269. The facial nerve (CN VII) exits the skull through the stylomastoid foramen and extends on the lateral and dorsal aspect of the skull to innervate the anterior region of the head. A central swelling of the mastoid separates the stylomastoid foramen from the auricular foramen in all Phocidae ( Deméré et al. 2003) , including Magophoca n. gen. This lamina in MNHN.F.PPI269 aids in the separation of the stylomastoid foramen from the auricular foramen in the specimen. The auricular foramen conveys the auricular branch of the vagus nerve (CN X), which runs in a groove along posterior angle of the entotympanic, from the posterior lacerate foramen (where the vagus nerve exits) to the facial nerve laterally.

The pars mastoidea of the petrosal is external to the tympanic cavity as in all phocids. It is a robust and contacts the tympanic bulla posterolaterally. The mastoid of Magophoca n. gen. exhibits a partial mastoid lip on its medial tip, appressed against the lateral surface of the posterior tip of the tympanic bulla, covering the pars petrosa of the petrosal and the lateral margin of the posterior lacerate foramen (as well as an external cochlear foramen, or a round window, as in other extant and extinct Lobodontini (char.27[1]), ( Fig.10 View FIG ). However, Rule et al. (2021) drew a distinction between partial mastoid lips and fully sealed mastoid lips. Among extant and extinct Lobodontini , the full mastoid dominates, with only Hadrokirus , Magophoca n. gen., and Ommatophoca having a partial mastoid lip. Considering that the latter condition is shared with certain Monachinae not included in the Lobodontini , such as Monotherium ? wymani, and Sarcodectes magnus , followingRule et al. (2021), it can be argued that this characteristic is a plesiomorphy among Monachinae .

The mastoid is not visible in dorsal view of the skull since it is obscured from it by a wide mastoid crest (char. 25[0]). This is a characteristic shared with all other Monachinae , except Ommatophoca . In Ommatophoca and Phocinae , the mastoid is visible in dorsal view, as a consequence of the medial inflexion of the mastoid crest.

The basioccipital is roughly rectangular between the tympanic bullae, a result from the parasagittal orientation of the medial margins of the tympanic bullae (see above). In the preserved specimens, a serrated suture in the middle between the tympanic bullae separates the basioccipital from the basisphenoid anterior to it. The basioccipital bears a distinct sagittal elevation that is roughly hourglass-shaped, flaring out anteriorly and posteriorly.

On the exoccipital, the paroccipital process forms a moderately well-developed stubby hook-like process. This hook is moderately well-developed, only having a ventral and posterior prominence of a few millimeters (char. 32[1]). Among Monachinae , the development of this process is comparable in most extant and extinct Lobodontini , but better developed in Hydrurga , and Monachini . The anterior portion of the process bears a small but well-developed fossa for the muscle attachment. Literature on the myology of Phocidae is scarce, but following Piérard (1971), Bryden (1971), Evans & Lahunta (2013), and Kienle et al. (2022) for the musculature of Leptonychotes weddellii , Mirounga leonina and the domesticated dog, respectively, it can be assumed that m. digastricus has its origin on this area. Dorsally, this paroccipital process extends dorsally, transitioning into the nuchal crest. In Magophoca n. gen., the hypoglossal foramen is located distal and slightly medial to the posterior lacerate foramen. This condition varies among Monachinae . The hypoglossal foramen is always located posterior to the posterior lacerate foramen: posterior or only slightly posteromedial in Acrophoca , extant Lobodontini , and Piscophoca ; and strongly posteromedial other Monachinae .

The occipital condyles are slender and strongly convex. Lateroventral to the occipital condyle, a distinctly concave ventral condyloid fossa separates the condyle from the paroccipital process. Dorsally, the occipital condyles are strongly diverging (char. 35[1]). The occipital condyles are ventrally fused, and the ventral margin of the foramen magnum is semi-circular. Among other Monachinae , the occipital condyles are also ventrally fused in Hadrokirus , Homiphoca , Hydrurga, Monachini , and Piscophoca . In lateral view, the occipital condyles strongly protrude distally in Magophoca n. gen. This is due to the combined distal protrusion of the condyles, as well as the rather weak development of the nuchal crests. The nuchal crest does not, or barely, protrude distally past the paroccipital process. The nuchal crest is roughly parabolic in dorsal view, with a rounded flaring progressively more laterally, posteriorly. The angle between both sides is approximately 90°. The crest is lowly-raised, yet robust and rugose. The parabolic nuchal crest of Magophoca n. gen. strongly resembles that of Eomonachus , Hadrokirus , and Piscophoca , but differs from the V-shaped nuchal crest of Acrophoca (unpublished specimens from MNHN and MUSM), The condition in Homiphoca is intermediate between the two morphologies. Among extant monachines a parabolic nuchal crest is present in Hydrurga , Neomonachus schauinslandi , and Ommatophoca , whearas a V-shaped crest is observed in Leptonychotes , Lobodon , Monachus , and Neomonachus tropicalis , Lobodon , and Leptonychotes . The degree of development of the nuchal crest is similar to that in Acrophoca , Homiphoca , and Piscophoca , but less developed than in Hadrokirus and Monachus . In Phocinae , the nuchal crests are generally much less developed than in Monachinae (except in Cystophora and Halichoerus ).

The sagittal crest is preserved as a low crest at the transition of the interorbital bridge into the braincase, but does not extend onto the braincase to contact the nuchal crest. This does not differ from the general condition among Phocidae . MANDIBLE ( Figs 11-13 View FIG View FIG View FIG ; Table 4 View TABLE )

The mandible of the paratype, MNHN.F.PPI269, is virtually completely preserved, except for the incisors and left p2 ( Fig. 12 View FIG ). The mandible is gracile and mediolaterally thin. The mandibular tooth row extends across the anterior 40-45% of the mandible. Among other Monachinae , the mandibular toothrow is also shorter than half of the total length of the mandible in most extant and other extinct Monachinae . Notable exceptions are Hydurga and Lobodon : the mandibles of Hydrurga available during in this study show that the mandibular toothrow in this species is approximately half the length of the mandible, and the mandibular toothrow in Lobodon is much larger than half the total length of the mandible.

The horizontal ramus of the mandible of Magophoca brevirostris n. gen., n. sp. is dorsoventrally highest and transversely widest at the level of the symphysis. Transversely, the mandible becomes gradually more slender, posteriorly. Dorsoventrally, the mandible is almost equally high along the entire length of the horizontal ramus, only slightly shorter just posterior to m1. The external aspect of the symphysis, i.e., the chin, is smoothly and gently convex. The symphysis is round to teardrop-shaped, terminating at the level of the anterior alveolus of p2. In most other Monachinae , the symphysis terminates at the level of p2 (or just posterior to it) except in Lobodon , Mirounga , and Ommatophoca . In most other Monachinae , the horizontal ramus of the mandible is equally high throughout, except for Hydrurga in which the horizontal ramus of the mandible is proportionally significantly higher anteriorly. In Magophoca brevirostris n. gen., n. sp., three mental foramina line up horizontally on the labial side of the mandible, ventral to the incisors and canine; two are located on a vertical line, ventral to the posterior alveolus of p2; and two line up horizontally at the level of the posterior alveolus of p3 and the anterior alveolus of p4. The retromandibular space is short, with the coronoid crest of the mandible beginning to rise less than one tooth length posterior to the m1. Among other Monachinae , the retromandibular space is also short in Hadrokirus , Hydrurga , and tribe Monachini . The retromandibular space is moderately long in Homiphoca , Piscophoca , and Pliophoca , and long in all other Monachinae : Acrophoca , Leptonychotes , Mirounga , and Ommatophoca . The curvature of the coronoid crest is sigmoidal in Magophoca brevirostris n. gen., n. sp. The ventral margin of the mandible is overall straight, only curving dorsally, at the angle of the mandible, posterior to the level of the coronoid process. This largely corresponds with other Monachinae , with the exception of Homiphoca , Leptonychotes , Lobodon , Mirounga , and Ommatophoca . In Homiphoca and Mirounga , the angle of the mandible reaches ventral to the ventral margin of the horizontal ramus before curving dorsally. In Leptonychotes , the mandible starts to curve dorsally just posterior to the toothrow, and in Lobodon and Ommatophoca , the elongated symphysis makes the ventral margin of the mandible curve. The vertical ramus (ramus mandibularis) is approximately three times as high as the horizontal ramus (corpus mandibularis). Among other Monachinae , such a proportionally high vertical ramus is also present in some extinct Monachinae (e.g., Hadrokirus , Homiphoca , and Piscophoca ) and Monachini . In other Monachinae , such as some Lobodontini (e.g., Hydrurga and Lobodon ) and Mirounga , the vertical ramus is proportionally not as high since these taxa have a very robust and high horizontal ramus. The coronoid process is transversely thin, and the posterior margin of the process is roughly straight and vertical. The latter contrasts with other extinct Monachinae , in which the coronoid process forms a ‘hook’, either thin, or thick. This condition varies among extant Monachinae , ranging from a concave ‘hook’ in Hydrurga , Leptonychotes , and Neomonachus ; a straight posterior margin in Lobodon , Mirounga , and Monachus , to an anterodorsal-posteroventrally inclined ridge in Ommatophoca . Consequently, the coronoid notch of the mandible of Magophoca brevirostris n. gen., n. sp. is not as strongly concave as it is in many other Monachinae . The fossa for m. masseter superficialis on the lateral surface of the mandible is weakly outlined. In contrast, on the medial surface, the subcircular fossa for m. temporalis is deep and well-outlined. Also, on the medial surface, the mandibular foramen is located slightly posteroventral to the level of the apex of the coronoid process. The condyloid process, or condyle, is lateroventrally tilted, as in Hadrokirus . It has a slender cylindrical shape and reaches slightly dorsal to the ventral extremity of the coronoid notch and reaches well above the horizontal level of the tooth row. The angular process is strongly reduced, forming a weakly-outlined rugosity and thickening which forms no notable protuberance that can be distinguished from the existing curvature of the posteroventral margin of the mandible in lateral view (char. 36[1]). There is no discernible angular process in Hydrurga or Leptonychotes . The process is large and strongly protruding posteriorly in Homiphoca . The angular process is small in most other Monachinae .

DENTITION

Upper teeth and alveoli ( Figs 5-9 View FIG View FIG View FIG View FIG View FIG ; 14 View FIG ; Tables 3 View TABLE ; 5 View TABLE ; 6 View TABLE ).

The shapes of the alveoli of the three upper incisors suggest a gradual increase in size from I1 to I 3 in Magophoca brevirostris n. gen., n. sp. Yet, I3 is still incisiform and not caniniform (char. 40[0]). In addition, whereas the shape of the alveolus of I1 and I2 indicates a transversely flattened root, the shape of the alveolus of I3 suggests an oval to circular root in cross-section (char. 41[1]). This agrees with other Monachinae , in which the roots of the upper incisors are moderately compressed transversely as compared to Phocinae , in which these roots are strongly compressed. On MNHN.F.PPI278, I3 and I1 are preserved. I1 is peg-like (maximum width 3.3 mm; maximum high, as preserved, 4.6 mm) and bears a large wear facet posteroventrally oriented and, which almost reaches the base of the crown distolingually. On the mesiolingual base of the crown part of a lingual cingulum is preserved. In labial view, the distal side of the crown, present a small vertical depression, which reveals that a hint of a distal cuspule was probably present. The I3 has a circular root. The crown has a triangular asymmetrical shape, its mesial edge being more ventral than the distal edge. The lingual side of the tooth bears a pronounced cingulum, with a small median cuspule. Both mesial and distal edges of the crown form a relatively sharp crest and the distal crest is slightly cuspate at its base. The I3 is 6.2 mm high and its maximum width is 4.6 mm. The I2 is preserved on MNHN.F.PPI269. It has a transversely compressed root. Its crown is more peg-like and less asymmetrical than that of I3. Except for a small facet at apex, it is unworn. Consequently, a distinct cingulum can be observed on its lingual side, with a median cuspule. The cingulum extends on the mesiolabial and distolabial angles of the crown but does not run along all the labial side of the tooth. Its crown is 4.7 mm high and 3.6 mm wide as preserved.

It is noteworthy that the fact that the I1 of MNHN.F.PPI278 is approximately of the same size as the I2 of MNHN.F.PPI269 and is likely related to sexual dimorphism, the former being a probable male and the latter a probable female (see, Table 1 View TABLE ).

Two upper canines are known in situ, the right one in MNHN.F.PPI269 and the left one in MNHN.F.PPI278. Both upper canines are slightly compressed transversely and posteriorly recurved. They bear weak, yet noticeably lingual and distal carinae. Both canines have a small horizontal wear facet at the apex.

The upper postcanine teeth are little adapted to specialized aquatic feeding techniques (see Hocking et al. 2017) and not fully homodont. This contrast with most extant Monachinae , except for the tribe Monachini . Among other extinct Monachinae , the postcanine teeth are homodont and specialized in some taxa, i.e., Acrophoca , and Hadrokirus , but less so in others, i.e., Homiphoca , Piscophoca , and Pliophoca .

In Magophoca n. gen., the first premolar, P1, is single-rooted, and all other postcanine teeth are double-rooted (char. 47[1], 50[0]). A single-rooted P1 is common among other Phocidae , maybe apart from the extant monachines Hydrurga and Lobodon which, although they do not have a double-rooted P1, feature a bilobed single root for P1. With the exception of the extant monachine genus Mirounga , and the extant phocine species Cystophora , and Halichoerus , P2, P3, P4, and M1 are double-rooted in all Phocidae .

The crowns of the postcanine teeth in Magophoca n. gen. are relatively low. With the exception of the comparatively short P1, the crown is twice as long as it is high in the postcanine teeth. This corresponds with the general condition observed in other Monachinae with little specialized postcanine teeth. M1 is comparable in size to the preceding premolars. Among other Monachinae , M1 is always smaller than P4, but the degree of the size discrepancy varies: for example, M1 is only marginally smaller in the extant Hydrurga and in the extinct Acrophoca , Hadrokirus , and Homiphoca ; it is considerably smaller in the extant Leptonychotes and in the extinct Piscophoca . All postcanine teeth of Magophoca n. gen. have slightly wrinkled enamel with apicobasal ridges.

Except for the posterior portion of P1 that is slightly anterolabial to the anterior portion of P2, the postcanine toothrow is straight and the teeth are parallel to the toothrow, with no imbrication or crowding (char. 46[0]), as in most Monachinae , except for Hadrokirus , Monachus , Neomonachus , and Pliophoca . The single alveolus of P1 is larger than one of the two alveoli of the other postcanine teeth. P4 is separated from M1, by a small diastema, 3-4 mm in length (char. 48[1]). In the paratype specimens MNHN.F.PPI269 and MNHN.F.PPI277, there is also a small diastema between P3, and P4.

In occlusal view, P1 appears as a semi-circle, with an almost straight labial margin and a semi-circular lingual margin. The lingual margin of P1 is marked by a narrow yet prominent cingulum. The cingulum continues on the labial side, where it forms a narrow labial cingulum. An anteroposteriorly elongate central cusp, appears semi-circular in outline in lateral view. It is flanked posteriorly by an accessory cusp and anteriorly by another tiny anterior accessory cusp (char. 44[1]). The latter is located on the cingulum.

The other upper premolars, P2, P3, and P4, are anteroposteriorly elongate and the crowns are approximately twice as long as they are high. P2, P3, and P4 bear a prominent lingual cingulum. This cingulum is widest posterolingually, creating a distinct shelf-like platform (char. 45[1]). As in P1, the cingulum continues on the labial side, but the labial cingulum remains much smaller than the lingual cingulum. The main cusp is slightly elongated anteroposteriorly, bearing slightly angular crests on the anterior and posterior margin, and is flanked anteriorly and posteriorly by accessory cusps. M1, of the same size as the preceding double-rooted premolars (char. 49[0], 50[0]), is also anteroposteriorly elongate, with a well-developed lingual cingulum and a labial cingulum that is weakly-developed, as in the premolars. In contrast to the premolars, there is no posterolingual shelf-like projection of the lingual cingulum in M1. The main cusp and the flanking anterior and posterior accessory cusps are less raised than in P2-4. In particular, the prominence of the anterior accessory cusp is low, compared to the condition in P2-4. The main cusp is slanted posteriorly, resulting in a smoothly-sloping anterior margin and a strongly-sloping to almost vertical posterior margin.

Lower teeth and alveoli ( Figs 11-13 View FIG View FIG View FIG ; 15 View FIG ; Tables 4 View TABLE ; 7 View TABLE )

With the exception of the incisors and the left p2, all lower teeth are present in the mandibles of MNHN.F.PPI269.

The alveoli of i1 and i2 show that i1 is located posteromedial to i2, and that the roots of i1 and i2 are strongly transversely compressed (char. 43[0]). In MNHN.F.PPI269, the alveolus of i1 is distinctly larger than that of i2; whereas on MNHN.F.PPI278 the diameter of i1 and i2 are similar in length (i.e. labiolingually) but the alveolus of i1 is distinctly narrower (i.e. mesiodistally) than that of i2.

The lower canine of Magophoca brevirostris n. gen., n. sp. is slightly everted laterally. The tooth is rather small, slightly compressed transversely, and with slightly posteriorly recurving apex. There is a distinct lingual carina on the posteromedial surface of the canine. The apex of the lower canine is flattened as a result of tooth wear. Interestingly, the postcanine teeth of MNHN.F.PPI269 shows very little to no wear.

The first lower premolar is the only lower postcanine tooth that is single-rooted, in contrast to the other postcanines (p2-4, m1) which are all double-rooted (char. 47[1]). This corresponds with the general condition among Phocidae , again, except for Cystophora (bilobed P2), Halichoerus (all single-rooted), and Mirounga ssp. (all single-rooted). On the paratype MNHN.F.PPI269, the first and second premolar are implanted obliquely, whereas p3, p4, and m1 are implanted parallel to the long axis of the tooth row. However, this condition is prone to intraspecific, e.g. ontogenetic and/ or sexual, variation since it is absent in the holotype and the referred specimen MNHN.F.PPI278. The lower postcanine teeth increase in size posteriorly with p1 having the smallest crown and m1 the largest one. The enamel of the mandibular postcanine teeth is slightly wrinkled and bears few apicobasal ridges, as observed on the upper teeth.

In occlusal view, p1 is oval, with the lingual margin being more convex than the labial margin. This contrasts with the upper P1, which has a virtually straight labial margin. The lower p1 has a well-developed lingual cingulum forming a distinct shelf. The labial cingulum is thin, but clearly present. The labial cingulum is highest but also thinnest at mid-length of p1. The anteroposteriorly elongate and transversely compressed main conid dominates the crown. The crown is not highly raised; it is lower than long. Anterior and posterior to the main cuspid, are much smaller accessory cuspids. Especially the anterior accessory cuspid is minute.

The p2, p3, and p4 are anteroposteriorly elongate. Although they present a well-outlined lingual cingulum, these cingula lack the well-developed posterolingual projection in p3 and p4, observed in their upper premolar correspondents. Due to the weaker development of this posterolingual projection, the discrepancy in the degree of development between the lingual and labial cingula is small and the main and accessory cuspids align with the long axis of each premolar. For p2, p3, and p4, the crowns are low: almost twice as long anteroposteriorly as high. The central main conid has prominent angular (i.e., anterodorsally and posterodorsally bowed) anterior and posterior crests and is flanked by a accessory cuspids anteriorly and posteriorly.

The lower m1 is the largest postcanine tooth. The crown is proportionally higher in m1 than in the preceding premolars, but, as in the premolars, it is at least twice as long as it is high. The lingual cingulum is moderately well developed, but lacking the posterolingual shelf-like projection. The labial cingulum is narrow. This corresponds with the lower premolars, as well as with the upper first molar. The main conid dominates the crown. Its anterior and posterior crests are somewhat rounded, in contrast to the lower premolars, in which these crests are angular. Notably, the anterior margin is profoundly sloping, forming the base for a weakly-developed anterior accessory cuspid. In contrast, the posterior accessory cuspid is relatively well developed, compared to the anterior accessory cuspid. Posterior to the posterior accessory cuspid, the vestigial cuspid forms a small but distinct protuberance on the posterior margin of the tooth, as large as in p4.

AXIAL SKELETON

Cervical vertebrae

Atlas ( Fig. 16 View FIG ; Table 8 View TABLE ).Two atlases are known for Magophoca brevirostris n. gen., n. sp.: the atlas of the holotype, MNHN.F.PPI276, and the atlas associated with the paratype skull, MNHN.F.PPI269.

The atlas of Magophoca n. gen. is gracile. Overall, the shape of the atlas of Magophoca n. gen. does not depart starkly from the condition in most other Monachinae , except for Acrophoca and Hadrokirus . The former has a uniquely anteroposteriorly elongate atlas and the latter has a particularly robust atlas.

The transverse process of the atlas expands only moderately, laterally.The process has a roughly semi-circular convex lateral outline with a distinct anterior limit forming a hook-like tip, which forms the posterior margin of the alar notch. This lateral expansion of the transverse process conforms with most other Monachinae . Exceptions are Hadrokirus , Monachus , and Piscophoca , in which the transverse process of the atlas projects more strongly laterally. The convex curvature of the lateral margin of the transverse process of the atlas is also a character shared with most Monachinae , with the notable exception of Acrophoca and Piscophoca . In Acrophoca , this process is flared distally and has a straight, posteriorly expanding lateral margin. In lateral view, the transverse process of the atlas is straight and oriented anterodorsally-posteroventrally oblique, in Magophoca n. gen. (char. 53[0]). Among Phocidae , the oblique orientation of this process is a character shared with Phocinae , Acrophoca , Hadrokirus , Leptonychotes , and Neomonachus . This process is implanted rather subvertically in other Monachinae . The transverse process is curved, in lateral view, in Hadrokirus .

The transverse foramen is smaller than in extant Monachinae , comparable in proportions Piscophoca , but slightly larger than in Acrophoca and Hadrokirus . On the anteroventral side of the wing, the transverse foramen opens in a wide and open atlantal fossa. The posterior opening of the transverse foramen is visible in dorsal view, as in all other extant and extinct Lobodontini , except for Ommatophoca (char. 52[1]). The cranial articular foveae are oval but strongly concave-cylindrical. The caudal articular foveae for articulation with the axis are rounded and both left and right are in an almost right angle to one another. The neural canal of the atlas of Magophoca n. gen. is round with prominent internal processes. The dorsal tubercle is raised high and marked laterally by deep fossae for m. rectus capitis dorsalis minor (char. 54[1]). Amson & Muizon (2014), previously described this as a unique character for the extinct monachine Hadrokirus . However, we also observed these fossae in Monachus . The intervertebral foramen on the lateral surface of the dorsal arch is large and round.

Axis ( Fig. 17 View FIG ; Table 9 View TABLE ). Two axes are known for Magophoca brevirostris n. gen., n. sp. As for the atlases, described above: one as part of the holotype, MNHN.F.PPI276, and one as part of the paratype skull, MNHN.F.PPI269.

The shape of the dens differs between both specimens, being exceptionally thick and stubby in the holotype specimen: even more than the dens of Hadrokirus , which has been considered to be thick by Amson & Muizon (2014). The dens is circular in cross-section in both specimens. The cranial articular surfaces are subcircular to subtriangular in outline and at a 90° angle to one another. The shape of the thin spinous process differs between both specimens: it does not reach anterior to the dens in either of both, but it has a distinct anterior ‘knob’ in MNHN.F.PPI276. The posterior tip forms a small ‘knob’ in both specimens. The spinous process of the holotype ( MNHN.F.PPI276) project further posteriorly than that of the paratype ( MNHN.F.PPI269). In the former it projects, well posterior to the postzygapophyses and posterior articular facet of the centrum. In the latter it is slightly anterior to the posterior articular facet of the centrum (although the epiphysis of the centrum is missing the spinous process is dorsal to the posterior end of the centrum asd preserved) and well anterior to the postzygapophyses. This notable difference in size and stoutness of the dens and spinous process of the two specimens is likely to be related to sexual dimorphism since the holotype is a male and the paratype is probably a female. In its overall size, the spinous process of Magophoca n. gen. is proportionally as large as in other extinct Monachinae , but notably larger than in extant Monachinae . The centrum is incompletely preserved in both. The dorsal surface of the body appears semi-cylindrical in MNHN.F.PPI269 and the ventral surface is strongly excavated with a distinct, sharp ventral keel, which is strongly prominent posteriorly and which separates two deep fossae. The development of this keel, and the depth of the fossae adjacent to it, are similar to the condition in Acrophoca ; better developed than in either Hadrokirus or Piscophoca . The neural canal is distinctly higher than wide with a concave ventral margin. The postzygapophysis on the posterior margin of the neural arch is simple, bearing a flat, teardrop-shaped postzygapophyseal articular facet. Both left and right facets are facing ventrolaterally, perpendicular to one another. The transverse foramen is oval and transversely elongate. It is dorsally and ventrally covered by thin laminae of the transverse process. The transverse process forms a gracile stub, running parallel with, but posterior to the anterior articular surface. This process is oriented posterolaterally and almost reaches the same posterior level as the centrum.

Other cervical vertebrae ( Figs 18 View FIG ; 19 View FIG ; Table 10 View TABLE ). All cervical vertebrae, Ce3-7 are known for the holotypeMNHN.F.PPI276, whereas only Ce3 is known for MNHN.F.PPI269, in addition to the atlas and axis.

The centrum is dorsoventrally slightly flattened. Its dorsal aspect is roughly flat on Ce3 of MNHN.F.PPI276 to slightly concave on Ce3 of MNHN.F.PPI269. The dorsal part of the centrum is slanted anteriorly. As a consequence, the posterior articular surface of the centra is strongly oblique being anterodorsally-posteroventrally oriented. This oblique orientation decreases from Ce3 to Ce7 and is almost absent on the anterior thoracic vertebrae. The anterior articular surfaces are roughly oval in outline, whereas the posterior surface is roughly triangular due to the development of a strong posteroventral tubercle. The length of the centra varies from Ce3 to Ce7. It increases from Ce3 to Ce6 (38.8 mm; 39.4 mm; 41.1 mm; 44.5 mm). Then, it decreases in Ce7 (43.0 mm) and decreases again on the anterior thoracic vertebrae. The ventral aspect of the centrum bears a prominent ventral keel which exhibits a strong posterior tubercle. The keel is deeply concave from Ce3 to Ce5; the concavity decreases on Ce6 and the keel is straight on Ce7. The ventral keel separates two deep ventral fossae, which receive the insertion of the cervical fascia the m. longus coli, originating on the transverse processes of the anterior vertebra. The shape of the neural arch varies along the series of vertebrae: crescent-shaped or semi-circular in the anterior vertebrae, and subtriangular in the posterior cervical vertebrae. The gradually more prominent dorsal tapering of the neural canal into a triangle corresponds with the development of the spinous process. Whereas the spinous process is small in the anterior vertebrae, it is much higher in the posterior vertebrae. In addition, the spinous process is slanted anteriorly in Ce4-6 and extends anterodorsal to the neural arch. It is subvertical in Ce7. The prezygapophysis is simple, forming a flattened spatula-like process that projects anterodorsally. The prezygapophyseal articular facet is oval and flat, facing mediodorsally. The postzygapophysis bears a small, flattened knob-like prominence on its dorsal surface.

The postzygapophyseal articular facet is round to oval and faces lateroventrally. Both left and right facets are perpendicular to one another. The prezygapophysis and postzygapophysis extend anterior to the anterior articular surface and posterior to the posterior articular surface, of the centrum, respectively. The shape of the transverse process varies along the series of cervical vertebrae. It gradually changes along Ce3-6, but starkly differs in Ce7. For Ce3-6, the transverse process is oriented posterolaterally and bifurcates distally. In Ce3, this process is transversely flattened with a superior branch projecting dorsally and a wider inferior branch projecting ventrally. The superior branch of the transverse process is tubular in Ce4 and Ce5, and transversely flattened again in Ce6. The inferior branch of the transverse process forms a transversely flattened wedge in Ce4-6, gradually expanding anteroposteriorly along the series of vertebrae. The inferior branch of the transverse process reaches ventral to the centrum. A transverse foramen is present at the base of the transverse process, just lateral to the centrum. This foramen is oval in Ce3-5, but round in Ce6. As usual in most mammals, the transverse process of Ce6 is the largest of the cervical series featuring a large plate, on which insert the thoracic part of the m. longus coli and originates the Ce6-Ce5 fascia of the cervical part of the muscle. In Ce7, there is no transverse foramen, the transverse process projects laterally instead of ventrolaterally, and it is not transversely flatted but forms a tubular prominence.

Overall, there are little significant characteristics setting these cervical vertebrae of Magophoca n. gen. apart from other Monachinae , with the notable exception of Acrophoca , in which the cervical vertebrae are strongly elongated anteroposteriorly.

Thoracic vertebrae ( Figs 20 View FIG ; 21 View FIG ; Table 11 View TABLE )

Five thoracic vertebrae have been recovered for Magophoca brevirostris n. gen., n. sp. All belong to the holotype, MNHN.F.PPI276. Two are still in articulation after preparation and for one, only a small portion of the centrum is preserved. As has been suggested by Dewaele et al. (2017b), the thoracic vertebrae can arbitrarily be separated in anterior, middle and posterior series. The anterior and posterior series are characterized by the fact that each vertebra articulates with one rib, i.e., each vertebra has only one costal fovea on each side. The middle thoracic vertebrae articulate with two ribs each, one rib at the contact with the anterior vertebra and one rib at the contact with the posterior vertebra. The shape of the transverse process has been noted to change dramatically along the series of thoracic vertebrae. Of the preserved thoracic vertebrae, two are anterior thoracic vertebrae and the two articulating vertebrae are middle thoracic vertebrae. Evans & Lahunta (2013, for the domesticated dog) and Rule et al. (2020d) employ another separator for the series of thoracic vertebrae:the distinction between preanticlinal vertebrae, the anticlinal vertebra (T11), and the postanticlinal vertebrae. The anticlinal vertebra has a distinct contact between the prezygapophysis and the anterior costal fovea. Furthermore, post-anticlinal vertebrae lack the postzygapophysis. As shown in the description below, these characteristics confirm that the preserved thoracic vertebrae of Magophoca n. gen. are indeed from positions anterior to T11.

The vertebral bodies are subcylindrical, with a slightly convexly curving dorsal margin in the two anterior thoracic vertebrae and flat dorsal margin in the two middle thoracic vertebrae.The anterior and posterior articular surfaces are oval in the former two, and semicircular in the latter two vertebrae. A ventral keel runs along the ventral margin of the centrum in all specimens. This keel is equally developed along its entire length in each vertebra. In the anterior thoracic vertebrae, a circular and concave costal fovea is located centrally on the lateral surface of the centrum, facing rather ventrally to ventrolaterally. In the middle thoracic vertebrae, there is a small, lens-shaped and concave costal fovea on the centrum, anterodorsal and posterodorsal on the lateral surface of the centrum. The neural canal is triangular in cross-section. The neural arch is large and wide, with the transverse process located on the arch. The transverse process is a robust knob projecting laterally, with a well-developed concave costal fovea on the ventrolateral margin.The prezygapophysis is located at the horizontal level of the transverse process, but projecting anteriorly. The prezygapophysis is located anterolateral to the anterior articular surface of the body in the anterior thoracic vertebrae, having prezygapophyseal articular facets facing dorsomedially. In contrast, in the middle thoracic vertebrae, the prezygapophysis is located anterior to the anterior articular surface of the body, and the prezygapophyseal articular facet faces dorsally. The postzygapophysis is slim and simple, facing ventrally to lateroventrally in different specimens.The postzygapophysis extends posterior to posterior articular surface. The spinous process is long, slightly tapering dorsally, and slightly slanted posteriorly.

In addition, multiple rib fragments have been preserved for Magophoca n. gen., but they are too incompletely preserved to allow an adequate description and comparison.

Lumbar vertebrae ( Figs 22 View FIG ; Table 11 View TABLE )

For the holotype of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276, a succession of three lumbar vertebrae have been preserved and the two posterior ones are still in articulation. Phocids have five lumbar vertebrae and the last one has a centrum distinctly shorter than the anterior ones. Because the posterior vertebra of the series has a centrum conspicuously shorter than the anterior one, we interpret it as the L5. Therefore, the other two are L4 and L3.

The centra of the lumbar vertebrae are subcylindrical, with a slightly flattened dorsal surface. The anterior and posterior articular surfaces are shaped accordingly: oval, with a (slightly) flatter dorsal margin. The anterior one of the two articulating lumbar vertebrae has two hemal processes on the posterior portion of the ventral margin of the body.

The neural canal is triangular in cross-section. The neural arch is anteroposteriorly elongate. The prezygapophysis is large, curving dorsolaterally. The prezygapophysis extends anterior to the anterior articular surface of the centrum. The prezygapophyseal articular facet is teardrop-shaped and concave, positioned anteriorly on the medial surface of the prezygapophysis.Dorsolateral to the prezygapophyseal articular facet is a thick, robust mammillary process.

The postzygapophysis is simple, slim, and flattened. It projects posteriorly. The postzygapophyseal articular facet is teardrop-shaped and faces ventrolaterally.

The dorsoventrally flattened transverse processes are strongly anterolaterally projecting, with only a slight ventral aspect. Two transverse processes are completely preserved in two incomplete lumbar vertebrae of strongly differ in length and anteroposterior breadth.

The only completely preserved spinous process of a lumbar vertebra of Magophoca n. gen. is that of L3. It is low and projects straight dorsally. It is much lower than in Monachus and, in lateral view, it is broader at its base. The apex of the spinous process is remarkably flattened dorsally and strongly widened transversely and forms a characteristic plateau. This robustness indicates a strong attachment of the supraspinous ligament, which is therefore likely to have been very powerful. On the whole, this morphology is very similar to that of the lumbars of Acrophoca .

Sacrum ( Fig. 23 View FIG ; Table 12 View TABLE )

The sacrum of the holotype of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276, remains in articulation with both innominates after preparation. The dorsal and left lateral portions of the sacrum are strongly abraded.

The sacrum consists of three fused sacral vertebrae (char. 56[1]). This strongly conforms with other Monachinae : among Phocidae , Monachinae have three fused sacral vertebrae and Phocinae four fused sacral vertebrae. The only known exception may be the extinct phocine Nanophoca vitulinoides having a notable record of individuals with only three fused sacral vertebrae. The promontory, the anterior articular surface of the first sacral vertebra, is small and subrounded. The sacral wings are proportionally large, and the width across the entire anterior portion of the sacrum (both wings + promontory) is well over three times as large as the width across the promontory. In addition, the sacral wing is ventrally curving, and the ventrolateral tip of the wing extends conspicuously ventral to the ventral margin of the promontory. Such a strong ventral deflection of the sacral wings is a characteristic that has been observed in Phocinae , but not in other Monachinae .

The state of preservation of the specimen precludes further detailed description. However, it can be noted that the prezygapophyseal articular facet of S1 is slightly concave and oriented rather dorsally than dorsomedially, the preserved sacral foramina are large and oval, and the lateral sacral crest is thin.

Caudal vertebrae ( Figs 23 View FIG ; 24 View FIG ; Table 11 View TABLE )

Fragments of six caudal vertebrae of the holotype of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276, are preserved. The first caudal vertebra is currently still in articulation to the sacrum via sediment ( Fig. 23 View FIG ). The state of preservation does not allow a more detailed description. The other preserved caudal vertebrae are simple in their overall morphology. They are elongate, approximately twice as long as they are high and with stubby protuberances as the relics of a strongly reduced neural arch and transverse apophyses, resulting in a sub-square appearance of the anterior and posterior articular surfaces.

PECTORAL GIRDLE AND FORELIMB

Scapula ( Fig. 25 View FIG ; Table 13 View TABLE )

The left scapula of the holotype of Magophoca brevirostris n. gen., n. sp. is well preserved and virtually complete. Only the distal articular part of the right scapula is preserved.

The glenoid cavity is incompletely preserved, but roughly teardrop-shaped or sub-triangular and with thin and gracile lateral and ventral margins. It is moderately concave: not as strongly concave as in Acrophoca , but more so than in Piscophoca . The supraglenoid tubercle, the origin area of m. biceps brachii, is moderately developed as well, resembling the condition in the extant Hydrurga , Leptonychotes and Monachini ; it is more prominent than in the extinct Piscophoca , but less so than in the other extant Monachinae and the extinct Acrophoca . The neck is well-delineated and moderately long, conforming with most other Monachinae . The neck is shorter than in Acrophoca and Ommatophoca , but longer than in Homiphoca , Lobodon, Monachini , and Piscophoca . The posterolateral portion of the neck is only weakly developed, showing a rather weak development of the origin area of m. triceps brachii caput longus.

The scapular spine, dividing the lateral surface of the scapula, is very low along most of the length of the spine (char. 59[1]), but, on its distal end, the acromion forms a small but prominent anteriorly facing hook-like process,which features a teardrop shape (char. 58[1]). Whereas the scapular spine is elevated along the entire length and doesn’t terminate anteriorly in a well-developed acromion in Phocinae , it is generally lowly-raised in Monachinae , raised anteriorly, and terminating in a well-developed acromion anteriorly. Nevertheless, it rarely forms a hook-like spine, as is observed only in Magophoca n. gen. and Hydrurga, Monachini , and Piscophoca . The scapular spine of Magophoca n. gen. runs roughly perpendicular to the long axis of the scapula (char.60[0]), as in most Monachinae , except for Mirounga, Monachini , and Piscophoca , in which it is oriented obliquely.

The scapular spine separates the supraspinous fossa (origin m. supraspinatus) from the infraspinous fossa (origin m. infraspinatus and m. teres major). Both parts are approximately of equal size in Magophoca n. gen. (char. 61[2]). The supraspinous fossa is roughly semi-circular, with a vertically straight posterior border along the scapular spine, and a convex semi-circular anterior border. It is laterally convex with an irregular “wavy” surface. The infraspinous fossa is subtriangular, with the origin of m. Infraspinatus roughly forming a right triangle, and the origin of m. teres major forming a narrow triangular wedged just posteroventral to the former. The dorsal border of the scapular blade is gently convex, whereas the posterior border is slightly concave and strongly oriented posteroventrally, the ventral component being greater than the posterior one (char. 57[1]). This morphology corresponds with observations in most Monachinae , with the notable exception of Leptonychotes , Lobodon , and Ommatophoca , in which the posterior component is either equal to the ventral one, or distinctly greater. In Phocinae , the origin area for m. teres major is proportionally larger. In addition, in Phocinae , the relative size of the surface area of the supraspinatus fossa is smaller than in Monachinae , thus reducing the size differences between the origins of m. Infraspinatus, m. supraspinatus, and m. teres major. Also, in extant Lobodontini , the supraspinous fossa does not project anteriorly as much as in Piscophoca , Acrophoca , Magophoca n. gen., and Monachini and its anterior border is less convex than in these latter taxa, giving the scapula a rather trapezoidal appearance. In Mirounga , the cranial border of the scapula is angular and pointed, instead of rounded.

The medial surface (subscapular fossa) of the scapular blade is subdivided into four fossae, in which the two median fossae are the largest. The small ridge separating the cranial subscapular fossa from the second is low, as in Monachini , but in contrast to Lobodontini , in which this ridge is prominent.

Humerus ( Figs 26 View FIG ; 27 View FIG ; Table 14 View TABLE )

Both left and right humeri are preserved for the holotype MNHN.F.PPI276. The right humerus is significantly abraded on its medial side (medial region of the head and lesser tubercle, medial epicondyle and medial region of the trochlea). The left humerus shows only little abrasion, confined to the lesser tubercle and the medial epicondyle. Another referred specimen, MNHN.F.PPI279, also includes a relatively well-preserved right humerus.

The diaphysis of the humerus of Magophoca brevirostris n. gen., n. sp. is rather slender and gracile, as compared to other extinct

MNHN.F.PPI276 Character left right Overall, length 142.7 143.2e Deltopectoral crest, length 102.7 102.2 Deltopectoral crest, proximal 69.8 66.8 length to deltoid tuberosity Deltopectoral crest, maximum 47.9 47.0 anteroposterior breath Proximal epiphysis, width 50.1e n/a Distal epiphysis, width n/a n/a Head, width 35.9 n/a Head, height 35.0 33.4 Diaphysis, minimum width 22.6 21.9 Trochlea, anterior width n/a n/a Trochlea, posterior width 24.0e n/a

(holotype)

and extant Monachinae , except for the Argentinean Properiptychus argentinus , as presented by Muizon & Bond (1982). However, as Echarri et al. (2021) pointed out, ICZN Article 72.4 states that all type specimens are required to appear in the original description. Consequently, with only the holotype mandible fragment presented originally by Ameghino (1897), other specimens later referred to this species have been done so tentatively because they are not associated to the type mandible. However, keeping this in mind, we treat Muizon & Bond’s (1982) humerus of Properiptychus as a “referred” specimen for simplicity’s sake. Similarly, Callophoca obscura has long been used as a wastebin taxon, but it is currently treated as a nomen dubium with the name strictly referring to its lectotype ( Rule et al. 2020a). Although we agree with Rule et al. (2020a), to transition gradually away, we consider Callophoca , as treated by Koretsky & Ray (2008) and Dewaele et al. (2018b) but highlight it with quotation marks to reflect its new identification as a nomen dubium. In addition, the humerus of Magophoca n. gen. is overall comparable in morphology and size to the humerus of Frisiphoca aberrata from the North Sea Basin. The latter has been identified as either a monachine or a phocine by different authors (e.g., Van Beneden 1877; Kellogg 1922; versus Dewaele et al. 2018a).

The humeral head of Magophoca n. gen. is hemispherical and of proportions similar to other Monachinae , with the exception of extant Lobodontini , and the genus Neomonachus , which appear to have proportionally larger humeral head. In Magophoca n. gen., the head is oriented posteroproximally (with roughly equal posterior and proximal componants) as in most Monachinae , except for Acrophoca , Hydrurga , and Sarcodectes , in which it faces more proximally than posteriorly.

The lesser tubercle is weakly developed and, although its apex is slightly abraded on the two specimens described, it is likely to have been slightly lower than the head (char. 62[0]). Among other Phocidae , the development of the lesser tubercle varies. A small lesser tubercle, not exceeding the proximal level of the humeral head, as in Magophoca n. gen., is a characteristic shared with most extinct Phocidae , with the notable exceptions of the extinct monachines Australophoca , “ Callophoca ”, Homiphoca , and Pliophoca , which have a lesser tubercle that exceeds the proximal level of the humeral head. Among extant Phocidae , the lesser tubercle reaches proximal to the level of the humeral head in most taxa except Leptonychotes , Mirounga , and Monachini .

The greater tubercle reaches the same proximal level as the humeral head in Magophoca n. gen. (char. 63[1]), and extends only slightly proximal to the level of the lesser tubercle. A greater tubercle reaching the level of the head proximally, is a condition shared with most other extinct Monachinae . Exceptions are the extinct “ Callophoca ” (greater tubercle reaching at or proximal to the level of the head), Acrophoca , the referred Properiptychus from Muizon & Bond (1982) (MER 685), and Sarcodectes (greater tubercle not reaching the level of the head). Among extant Monachinae , most have a greater tubercle that does not reach the level of the head, with the notable exception of Monachus (greater tubercle reaching the proximal level of the head).

In Magophoca n. gen., the lesser and greater tubercles are separated anteriorly by a narrow and deep bicipital groove. The bicipital groove is generally much wider and open in other Monachinae , possibly except for Frisiphoca aberrata . Although the deltopectoral crest is incompletely preserved in F. aberrata , the preserved portions suggest that the bicipital groove of its humerus is rather narrow and deep too.

The bicipital groove of Magophoca n. gen. lacks a bicipital bar (char. 64[0]), a character that varies among Monachinae . A bicipital bar is absent in Acrophoca , Homiphoca , Hydrurga , Leptonychotes , and Virginiaphoca , whereas all other extant and extinct Monachinae (with a completely known humerus) have a transverse bar in the bicipital groove. Considering the genus Frisiphoca to be monachine (contra Dewaele et al. 2018a), F. affinis lacks a bicipital bar and F. aberrata has a bicipital bar. Magophoca n. gen. has a deep dimple at the top of the bicipital groove, just anterior to the humeral head. Such a dimple has also been observed in Acrophoca , F. affinis, Monachini , and Piscophoca .

In lateral view, the deltopectoral crest curves gently, smoothly tapering towards the distal epiphysis. It is long, extending distally to the anterior level of the epicondylar crest, and the insertion for m. pectoralis reaches well distal to the midpoint of the bone (char. 66[0]). This condition conforms with other extinct Monachinae and Monachini . Extant Monachinae (except Monachini ) and Phocinae differ in one or more characteristic: the deltopectoral crest is limited to the anterior half of the humerus and/or it sharply terminates distally. This may be less evident in extant Monachinae and certain extinct Phocinae , in which the distal termination of the deltopectoral crest may be less abrupt (see, e.g., Koretsky 2001; Koretsky & Grigorescu 2002). However, in all extant and extinct Phocinae , the insertion for m. pectoralis does not extend as far distal as in extinct Monachinae .

The proximal portion of the deltopectoral crest of Magophoca n. gen. is remarkably thin being thinner than in other Monachinae . Only Acrophoca , Frisiphoca spp. , and extant Monachini tend to approach this condition. The trochideltoid surface is slightly concave, appearing as if it folds over the bicipital groove. Among Monachinae , a similar morphology for the trochideltoid surface has only been observed in Acrophoca and the unnamed taxon from the late Pliocene of the North Sea Basin, described by Dewaele et al. (2018c). However, the deltopectoral crest is notably thicker, transversely, in these later two taxa.

On the posterior surface of the diaphysis, just distal to the humeral head and the lesser tubercle, there is well-developed fossa for the origin of the m. triceps brachii caput mediale (char. 65[1]). This fossa is also well developed in Frisiphoca and Piscophoca ; its development is not notable in other Monachinae .

On the distal extremity, the lateral epicondylar crest (= supinator crest) is well developed and strongly projects posteriorly (char. 67[0]). This is a plesiomorphic characteristic present in all Phocinae , but which varies among Monachinae : the epicondylar crest is well developed in Frisiphoca , Homiphoca , Leptonychotes , Lobodon , and Piscophoca ; but not in others. Consequently, the humerus appears rather strongly curving in lateral view in taxa with a well-develop epicondylar crest.

Interestingly, the fossil record for Magophoca n. gen. includes humeri with ( MNHN.F.PPI276) and without ( MNHN.F.PPI279) an entepicondylar foramen on the medial epicondyle (char. 68[0&1]). The presence of an entepicondylar foramen is considered a plesiomorphy present in Phocinae , but also retained in a few extinct Monachinae : Frisiphoca , Homiphoca , and Kawas (this taxon is included here in the Monachinae , see below in the phylogeny section). However, the absence of an entepicondylar foramen has been observed in specimens of different Phocinae . We observed variation within an Erignathus individual, having an entepicondylar foramen in one humerus but not in the other (LD and CM, personal observation). It is not unlikely that this condition may vary in Magophoca n. gen. too. Unfortunately, the small sample size inhibits elucidating the default condition in the species. The absence or presence of an entepicondylar foramen impacts the overall morphology of the medial epicondyle in MNHN.F.PPI279.

The medial margin of the medial epicondyle on MNHN.F.PPI279 is straight and vertical (i.e., proximodistally oriented) in anterior view, but it does not extend high, proximally. Among other Monachinae , these conditions vary between different taxa. The morphology of the medial epicondyle in Magophoca n. gen. conforms with that of Acrophoca , and Piscophoca . The medial epicondyle is rounded in anterior view, or widest proximally and tapering distally in other extant and extinct Monachinae .

As in other Phocidae , the coronoid and olecranon fossae are shallow in Magophoca brevirostris n. gen., n. sp. The distal margin of the trochlea is slightly more strongly concave in Magophoca n. gen. than in other Monachinae . The distal margin of the trochlea, at the junction between the anterior and the posterior parts of the trochlea, features a right angle, in distal view. Among other Monachinae , this angle is right in Callophoca , Frisiphoca aberrata and Monachus ; it is acute in Ommatophoca , and obtuse in all other Monachinae except Homiphoca , in which it is variable, being either acute, obtuse, or right (observations based on 10 specimens: MNHN.F.AFS29, AFS30, AFS31, AFS32,AFS34, three MNHN.F.AFS uncatalogued specimens; SAM-PQ-L 4638, 30235, 40969).

Radius ( Figs 28 View FIG ; 29 View FIG ; Table 15 View TABLE )

For the holotype specimenMNHN.F.PPI276, the left and right radii are preserved but incompletely: the proximal epiphyses and distal halves are physically separated and the proximal part of the diaphysis lacks for both. Another referred, left, radius has been assigned to Magophoca brevirostris n. gen., n. sp.: MNHN.F.PPI280 ( Fig. 29 View FIG ). The latter is subcomplete, only missing its posterior extremity. In addition to the humerus MNHN.F.PPI278, this specimen also includes two fragments

of the radius: a fragment of the proximal epiphysis of the right radius, and a pathologically deformed left distal epiphysis.

The articular facet for the humerus is rounded, medially and posteriorly smoothly curving into the articular facet for the ulna. This facet is lens-shaped and wrapped around the posteromedial margin of the proximal epiphysis. The lateral part of the ulnar facet contacts the humeral facet, thus differing from the condition in Acrophoca and Piscophoca in which a deep sub-horizontal notch separates the two facets laterally. In contrast, a condition like that of Magophoca n. gen. is present in Homiphoca .

The bicipital tuberosity is only little elevated and clearly separated from the proximal epiphysis. This tuberosity is located on the medial surface of the diaphysis (char. 69[0]). The latter condition varies among Monachinae : it is also located medially in other extinct Monachinae , such as Acrophoca , Homiphoca , Messiphoca , Piscophoca , Pliophoca , Sarcodectes ; but it differs from extant Monachinae , in which this tuberosity is located posteromedially on the diaphysis of the radius.

The diaphysis of the radius of Magophoca n. gen. is transversely flattened. In lateral view, the diaphysis appears to widen very gradually. On the posterior margin of the diaphysis, is the attachment area for the radio-ulnar ligament. This insertion area is slightly concave just distal to the bicipital tuberosity, but transitions into a faintly convex rugosity more distally.

The development of the origin and insertion areas for m. supinator, m. pronator teres, and m. brachioradialis on the anterior margin of the diaphysis corresponds with the condition in other Phocidae , with the exception of the extant Lobodontini (see Muizon 1981): the insertion area for m. pronator teres forms a low prominence, in accordance with other Phocidae , except extant Lobodontini . The prominence for the insertion of m. brachioradialis forms a distinctly convex tuberosity in lateral view, in Magophoca n. gen. Compared to other extinct and extant Monachinae , the insertion area for m. brachioradialis is located rather distally on the diaphysis.

On the lateral surface of the distal part of the diaphysis, the grooves for the passage of tendons are easily discernible. The grooves for the tendons of m. extensor digitorum lateralis and m. extensor digitorum communis are wide, shallow for the former and well-outlined and moderately deep for the latter. A strong development of the groove for m. extensor digitorum communis unites Magophoca n. gen. with Acrophoca and Piscophoca (char. 69[1]). The groove for the tendon of m. abductor pollicis longus at the anterior margin of the diaphysis is deep and laterally covered by a bony lip. The condition of the latter follows the condition of the extinct Acrophoca and extant Lobodontini . The distal extremity of the radius bears a strongly concavoconvex articular facet for the scapholunar.

Ulna ( Figs 30 View FIG ; 31 View FIG ; Table 16 View TABLE )

A partial left and right ulna are preserved for the holotype MNHN.F.PPI276 of Magophoca brevirostris n. gen., n. sp. For the left ulna, only a severely abraded proximal portion is preserved. For the right ulna, only the diaphysis with proximal and distal epiphyses is preserved, lacking the distolateral and distal portions. Associated with the referred radius MNHN.F.PPI280, there is also a right ulna. For the latter ulna, only the anterior half of the bone is preserved.

The ulna is fairly straight, only faintly curving posteriorly. This corresponds with most other Monachinae , with the exception of Piscophoca in which this curvature is more pronounced.

The transversely flattened olecranon process is strongly protruding. The proximal margin of the olecranon process is markedly concave. This results in an apparently less posterodistally slanting posterior part of the olecranon process than in other Phocidae . The only other phocids with such a strong concavity on the proximal margin of the olecranon process are Homiphoca and Messiphoca , and to a lesser extent Piscophoca . The anconeal process on the medial margin of the proximal tip of the olecranon process is prominent and little sloping distally in Magophoca n. gen. A prominent anconeal process is a characteristic shared with Phocinae and several other extinct Monachinae , such as Acrophoca , Homiphoca , Messiphoca , Piscophoca , and Pliophoca , but not with extant Monachinae in which the anconeal process is generally reduced. The trochlear notch terminates proximally in a distinct coronoid process.In the trochlear notch, the greater sigmoid cavity for articulation with the humerus forms a horizontal saddle-shaped concavity that curves medially, distally, around the lesser sigmoid cavity. The lesser sigmoid cavity is flat and sub-circular, facing anterolaterally.

The diaphysis is transversely strongly flattened. On the anterior margin of the diaphysis, a prominent oblong rugosity for the interosseous ligament is located just distal to mid-length of the bone. At the distal extremity of the ulna, the styloid process is flattened, as in other Monachinae (char. 71[1]). This condition varies among Phocinae , between being either flattened or pointed in different taxa.

The flattened articular facet for the pyramidal, at the apex of the styloid process, is bean-shaped in distal view. This process is shifted posteriorly in relation to the long axis of the bone. On the lateral margin of the styloid process, a laterally-facing concavity marks the articular facet for the cuneiform.

Carpus ( Fig. 32 View FIG )

Several bones of the carpus are known for Magophoca brevirostris n. gen., n. sp. Paratype MNHN.F.PPI269 includes a left scapholunar and MNHN.F.PPI295 includes the right scapholunar, trapezium, trapezoid and magnum.

Scapholunar

The bone bears the typical concavo-convex proximal articular surface for the radius as observed in Phocidae . As observed by Muizon (1981) the concave part of the articular surface

is separated from the convex one by a distinct constriction in phocines whereas no constriction exists in monachines. In this respect, the condition of Magophoca n. gen. resembles that of other monachines. Furthermore, in phocines, the concave part is medial to the convex part; whereas it is anterior in monachines. In Magophoca n. gen., the concave part is anteromedial to the convex one, being intermediate between phocines and monachines. As observed in phocines the anterior tuberosity for ligament attachment is salient and pointed, but not wide and round as in monachines. Therefore, Magophoca n. gen. differs from Acrophoca since in the latter the condition of the last two features mentioned above is clearly monachine.

Distally the scapholunar bears four facets, from anterior to posterior: 1) a circular facet for the styloid process of the trapezium; this facet is separated by a faint ridge from the 2) oval-shaped trapezoid facet; 3) the small transversely elongated facet for the magnum, which is distinctly wider palmarly than dorsally and facing distally; and 4) the facet for the hamate, which is triangular, wider dorsally than palmarly and distinctly facing posteriorly. A pronounced carina separates the facets for the hamate and magnum.

In extant phocines, the trapezium facet is medial to the trapezoid one whereas in extant monachine it is anterior to it. In Magophoca n. gen., the facet is anterolateral to the trapezium facet is anteromedial to that for the trapezoid, as is observed in Acrophoca , being intermediate between the condition in extant phocines and monachines. In the latter the four distal facets of the scapholunar are anteroposteriorly disposed.

Trapezoid

This bone is triangular in proximal view and proximodistally short (proximodistal length is roughly half of the dorsal anterioposterior width) in Magophoca brevirostris n. gen., n. sp. The proximal articular facet is concavo-convex, triangular, and articulates with the scapholunar, posteriorly to the trapezium facet.Two facets are observed on the distal aspect of the bone.

Anteriorly, a saddle-shaped facet roughly ovoid to rectangular articulating with the trapezium; and posteriorly, a much smaller elongated roughly rectangular facet articulating with the anterodistal facet of the McII. Both facets are separated by an elevated crest and are approximately at a right angle.

Trapezium. The proximal part of the bone bears two facets. An anterior one strongly convex, and subvertical for the scapholunar; and a posterior one, smoothly concave and gently sloping posteriorly for the trapezoid. The contact of the two facets is a sharp carina, which forms a strongly elevated styloid process, the apex of which is located in the anterior region of the bone (in dorsal view). As noted by Muizon (1981), in extant monachines, the styloid process is very low and more resembles a crest, whereas in extant phocines it is strongly elevated as is observed on Magophoca brevirostris n. gen., n. sp. The condition of Magophoca n. gen. resembles that observed in Acrophoca . In extant monachines, the trapezoid facet is as deeply excavated as in Magophoca n. gen., whereas in extant phocines this facet is only slightly concave. Posterior to the trapezoid facet is a small circular facet that articulates with the small anterior circular facet of the McII, distal to that for the trapezoid. Both facets for the trapezoid and McII on the trapezium are approximately at a right angle. The McII facet of Magophoca n. gen. is much smaller than in Acrophoca , being at least twice as small.

In lateral view, the body of the bone is relatively longer (proximodistally) in extant monachines than in extant phocines. The condition of Magophoca n. gen. resemble that of phocines; it differs from that of Acrophoca and Piscophoca , which are intermediate between phocines and extant monachines.

The distal articular facet for McI in Magophoca n. gen. is trifoliate with deep lateral and medial notches. It differs from the cordiform facet observed in phocines and from the triangular one with rounded angles of extant monachines. It also differs from the condition in Acrophoca and Piscophoca , which feature a phocine-like cordiform facet.

Magnum. This bone is markedly triangular in anterior or posterior view in Magophoca brevirostris n. gen., n. sp. Its dorsal part is proximodistally very short whereas its palmar edge is much longer, a condition which resembles that observed in extant phocines and fossil monachines Acrophoca , and Piscophoca . As observed in the latter two, the articular facet for the scapholunar is strongly oblique, facing proximodorsally and anteriorly. However, in these two taxa, the condition is less pronounced since the lateral side of the magnum is higher than in Magophoca n. gen. and phocines, and the facet for the scapholunar is less oblique. In extant lobodontins, the magnum is roughly rectangular in anterior and posterior view (the lateral side being roughly as high as the medial one) and the scapholunar facet is roughly parallel to the distal facet for the McIII. In Monachus and Pliophoca the condition is intermediate between extant phocines and lobodontin monachines. The distal facet for the McIII of the magnum of Magophoca n. gen. is rectangular and smoothly concave.

Metacarpus ( Fig. 33 View FIG ; Tables 17 View TABLE ; 18 View TABLE )

Besides several carpal bones, MNHN.F.PPI295 includes the five metacarpals, four of them being complete or almost complete. Only McI is missing its distal end.

Metacarpal I (McI). Because this metacarpal is incomplete, its length cannot be compared to that of other phocids.However, as preserved it is roughly as long as the complete McII; the complete McI was therefore significantly longer than McII. Furthermore, an isolated McI ( MNHN.F.PPI297, referred to Magophoca brevirostris n. gen., n. sp.) lacking its proximal epiphysis is 66 mm long. The length of the proximal epiphysis (including the styloid process) of the McI of MNHN.F.PPI295 is approximately 11.5 mm. Therefore, because the two bones appear to be roughly of the same size, a reasonable estimation of the McI of Magophoca n. gen. could be 66 + 11.5 = 77.5 mm. This metapodial was therefore approximately 29.7% longer than the McII (54.5e mm, see Table 17 View TABLE ). An McI clearly longer than the McII is present in all monachines, both extant and extinct. This condition contrasts with that in phocines, in which the McI is roughly as long as, or only slightly longer than McII.

The proximal end of the McI of Magophoca n. gen. is well preserved and is clearly more quadrate than in Piscophoca in which it is rectangular, being longer anteroposteriorly than wide dorsopalmarly. The condition in Homiphoca is intermediate between that of Magophoca n. gen. and Piscophoca . In contrast, the condition of Magophoca n. gen. resembles the quadrate morphology observed in Hydrurga . At the anterodorsal angle of the McI is a prominent styloid process for insertion of the m. abductor pollicis longus muscle. This process is more developed than in Piscophoca and much more than in Acrophoca ( MNHN.F.PPI273), Homiphoca , Monachus , and Neomonachus (it is barely present in the latter). The larger styloid process of the McI of Magophoca n. gen. would indicate a stronger and more active muscle. Because the contraction of the m. abductor pollicis longus stretches the flipper, this movement should be more efficient in Magophoca n. gen. than in other monachines, fossil and extant. In extant lobodontins, the styloid process is very reduced; it is almost absent in Hydrurga .

Metacarpal II (McII). This metacarpal is almost complete in MNHN.F.PPI295, only missing some fragments of the diaphysis and being slightly eroded at its proximal articulation. However, these deteriorations do not prevent from measuring the length and distal width of the bone.

On the proximal extremity of the bone, the articular facet for the trapezoid is sloping anterodistally and is at an angle of approximately 51° to the length of the bone. This angle is 45° in Piscophoca ( MNHN.F.SAS501), 57° in Acrophoca ( MNHN.F.SAS563). In Homiphoca the angle is 88° and the sloping of the facet is more reduced than in the Peruvian monachines; whereas in Monachus the angle is 28° and the facet is subvertical.

On the anterodorsal region of the proximal extremity of McII is a strong tubercle, just distal to the facet for the trapezium; this tubercle probably received the insertion of one of the two radial tendons of the m. extensor digitorum lateralis muscle ( Howell 1929; Piérard 1971). Posteroproximally to this tubercle is a rugose area, which could also receive part of this tendon or simply an interosseous ligament between McII and McIII. The distal extremity of the McII is dorsopalmarly flattened as is observed in all monachines, thus differing from the roughly quadrate morphology observed in phocines. On MNHN.F.PPI295 the palmar keel is poorly preserved but was more salient distally than in the other monachines extant and fossil (e.g., Acrophoca , Homiphoca , and Piscophoca ).

Metacarpal III (McIII). This metacarpal is distinctly shorter than McII as observed in all Phocidae . However, the length difference between McII and McIII greatly varies among phocines. Table 18 View TABLE shows that the ratio L McIII/ L McII in Magophoca n. gen. is similar to that observed in Monachus , higher (i.e., McIII is proportionally shorter as compared to McII) than in Piscophoca , most extant lobodontins and extant phocines except Erignathus in which it is lower (i.e., McIII is proportionally longer as compared to McII).

On the anterior and dorsal angle of the proximal end of the McIII is a circular facet which articulates with the posterodorsal facet of the proximal end of the McII. Posterior and distal to this facet, on McIII is a salient rugose area probably for insertion of the posterior radial tendon of the extensor digitorum lateralis muscle as observed in Phoca ( Howell 1929) and Leptonychotes ( Piérard 1971) . On the distal extremity, the palmar keel is slightly damaged but appears to be more prominent than in Piscophoca and much more than in Homiphoca . As in observed in Piscophoca , the distal extremity is less flattened dorsopalmarly than in Homiphoca and extant monachines. In distal view, its morphology is intermediate between the sub-circular contour of phocines and the planar shape of other monachines.

Metacarpal IV (McIV). This metacarpal is slightly shorter than the McIII, and slightly recurved anteriorly. It articulates with the Mc III with a circular antero-proximo-dorsal facet and posteriorly with an elongated oval-shapes facet with the McV. The proximal articular facet for the with the unciform, is elongated and rectangular, being twice as long dorsopalmarly than wide anteroposteriorly. On the posterodorsal angle of the proximal end of the bone is a rugose area, almost a tubercle probably for insertion of the one of the two ulnar tendons of the extensor digitorum lateralis muscle. The distal extremity of McIV is almost quadrate and its palmar keel is very salient distally and palmarly.

Metacarpal V (McV). This metacarpal is the shorter of the hand, although only slightly shorter than McIV. As usual in phocids it is more massive than the other metacarpals. Its proximal extremity bears, anteriorly an elongated facet for articulation to the McIV. Proximal to this facet is a dorsopalmarly elongated facet for articulation with the unciform, and posterior to the latter is a strongly concave facet for the cuneiform.This latter facet clearly differs from that in Acrophoca and Piscophoca , in which it is very slightly convave or even, in some specimens, slightly convex. In contrast, it closely resembles the condition observed in Homiphoca , in which the facet is also markedly concave. On the posterior angle of the dorsal aspect of the proximal extremity of the McV, is a salient rugose area probably for insertion of the second ulnar tendon of the m. extensor digitorum lateralis muscle. In distal view, the distal extremity is roughly quadrate to circular and not dorsopalmarly flattened as is observed in Acrophoca , Homiphoca , Piscophoca and extant monachines. The palmar keel is significantly developed and more resembles that observed in phocines than in other monachines, extant and extinct.

Anterior phalanges ( Fig. 34 View FIG )

Seven complete and partial anterior phalanges of MNHN.F.PPI295 are associated to the carpus and metacarpus described above. One complete proximal phalanx is possibly referrable to digit II since it appears to be slightly too short to belong to digit I and slightly too long to be referred to digits II or IV. It is slightly bent posteriorly as is observed on extant Monachus . Its proximal articulation bears a distinct median fossa for the palmar keel, which fits well the distal articulation with palmar keel of McII. The distal extremity of a proximal phalanx is referred to digit I (the largest digit of the hand) since it is slightly larger than the distal extremity of the proximal phalanx referred to digit II (the second largest digit of the hand). One partial proximal phalanx (missing its distal extremity) is probably referrable to digit V. As the latter, it features a small anterior curvature. Its proximal articulation is deeply concave and do not present a median fossa for the palmar keel as observed on the proximal phalanx referred to digit II. This condition fits with McV, the distal articulation of which is very globular with a palmar keel located more palmarly and proximally than on the other metacarpals.Two complete middle phalanges could belong to digit III (for the longer) and IV (for the shorter). Their proximal articulations are slightly bi-concave, a morphology compatible with the bi-lobated distal articulation of the corresponding proximal phalanx. Two ungual phalanges are known, both missing the distal extremity of the bony claw. The dorsal wall of the sheath in which the horny claw inserts is interrupted and the dorsal aspect of the bony claw is visible dorsally up to the proximal end of the phalanx. A dorsally open bony sheath is also present in Monachus and extant lobodontins, whereas it is continuously closed in Erignathus and Phoca , although in the latter some variation exists since the sheath may in some cases be slightly open dorsally. On the only anterior ungual phalanx known in the holotype of Acrophoca the bony sheath is continuously closed around the bony claw. A similar condition is also observed in Homiphoca . In all phocines the bony sheath is also continuously closed (with some possible variation as mentioned above).

PELVIC GIRDLE AND HIND LIMB

Innominate ( Fig. 23 View FIG ; Table 19 View TABLE )

For the holotype of Magophoca brevirostris n. gen., n. sp., both left and right innominates are preserved, diagenetically fused with the sacrum. For both innominates, the dorsal portion of the post-acetabular area is either incompletely preserved (right) or missing (left). The acetabular area and ilium of the right innominate is fairly completely preserved. For the left innominate, only the anteroventral portion of the innominate is not completely abraded.

The ilium is anteroposteriorly short, less than 40% of the length of the postacetabular region. Among other Monachinae , the relative length of the ilium is comparable to that of Magophoca n. gen. in most other taxa, with the notable exception of Monachini and Piscophoca .

The degree of the lateral eversion of the ilium of the holotype of Magophoca n. gen. is estimated to be approximately 65°. Because the innominates are still in contact with the sacrum, and slightly displaced, measuring the exact angle of the lateral eversion of the ilium is difficult. The estimated angle of 65° corresponds with the general condition in Monachinae . Qualitatively observed by Muizon (1981), Dewaele et al. (2017b) provide a preliminary quantitative analysis showing that the lateral eversion of the ilium is statistically significantly more pronounced in Phocinae than in Monachinae , despite the slight overlap in ranges. With a lateral eversion of approximately 65°, the lateral eversion of the ilium of Magophoca brevirostris n. gen., n. sp. falls well within the 95% confidence range for Monachinae , and just within the lower limits of the 95% confidence range for Phocinae , as presented by Dewaele et al. (2017b).

On the ilium, the gluteal fossa is weakly excavated (char. 76 [0]). The overall weak development of the gluteal fossa is a characteristic shared with other extinct Phocidae . Among extant Phocidae , a true gluteal fossa is absent in the phocine Erignathus and the monachine Monachus . The gluteal fossa is weakly excavated in other extant Monachinae and the phocine Pusa sibirica . The gluteal fossa is deep in all extant Phocinae , with the aforementioned exceptions of Erignathus and Pusa sibirica .

The iliac crest is roughly straight and the anterodorsal process prominently projects more dorsally than anteriorly. Although incomplete on the right ilium and abraded on the left, it is possible to observe that the anteroventral process prominently projects ventrally with respect to the acetabulum, giving the ilium a faint wedge-shaped appearance. Many Phocidae exhibit such a wedge-shaped ilium. However, certain monachine taxa have an ilium that can be considered to be ‘slanted ventrally’ or ‘slanted dorsally’. The ilium is ‘slanted ventrally’ if the anterodorsal process is directed rather anteriorly than anterodorsally. This is the case for Acrophoca , Homiphoca , and Monachini . The ilium is ‘slanted dorsally’ if the anteroventral process is directed rather anteriorly than anteroventrally, as in Ommatophoca . The ilium of Magophoca n. gen. is slanted neither ventrally nor dorsally.

On the ilium of Magophoca n. gen., the anteroventral process only slightly project anteriorly as compared to the anterodorsal process (char. 78 [1]). This condition is intermediate between the condition in other Monachinae and Phocinae : in other Monachinae , with the exception of Mirounga and Ommatophoca , the anteroventral and anterodorsal processes are almost at the same level, anteriorly; in Phocinae , and Mirounga and Ommatophoca , the anteroventral process is located well anterior to the level of the anterodorsal process.

The anterodorsal process on the ilium of Magophoca n. gen. forms an acute angle in lateral view. Among other Phocidae , this angle varies from an acute angle in Phocinae and in Mirounga and extant Lobodontini , a right angle in Acrophoca , and an obtuse angle in other extant Monachinae , and the extinct monachines Homiphoca and Piscophoca .

The posterodorsal process is anteroposteriorly broad, located posterior to the level of the blunt posteroventral process. Both are fairly well developed. Among Monachinae , a well-developed posterodorsal process is a characteristic shared with Phocinae , the extant monachines Mirounga, Monachini , and the extinct monachine Piscophoca . A well-developed posteroventral process is a characteristic also present in Phocinae , Kawas , and Monachini (char. 79).

The iliopectineal eminence forms a distinct and prominent anteriorly-oriented hook for the origin of m. psoas minor (char. 80[0]). Combined with the posteroventral process of the ilium, this results in a strongly concave ventral margin of the ilium, for the origin of m. psoas major. This eminence is located ventral to the anterior half of the acetabulum. Among Monachinae , a (moderately) well-developed iliopectineal eminence is a characteristic shared with Acrophoca , Mirounga, Monachini and Piscophoca . In Homiphoca , the development of the iliopectineal eminence is variable. Extant Lobodontini and other extinct Monachinae , lack an iliopectineal eminence, or have an iliopectineal eminence that is strongly reduced.

The acetabulum is large: the dorsal margin of the acetabulum contributes to the dorsal margin of the innominate. The acetabulum is deep and the margins are raised over the bone. The iliac branch of the pubis is slightly transversely flattened. Posteriorly, the ventral margin of the pubis flattens, i.e., expands slightly, transversely towards the pubic symphysis.

Baculum ( Fig. 35 View FIG )

A partial baculum is preserved for the holotype, confirming that the holotype represents a male individual. The preserved portion is long (+ 130.1 mm), slender and sub-triangular in cross-section and slightly curving dorsally. Given the scarcity of fossil seal bacula, comparisons are only possible with bacula from extant Phocidae . Unfortunately, the incompleteness of this specimen precludes any detailed comparison, especially considering that the baculum is subject to important ontogenetic changes (e.g. Morejohn 2001).

Femur ( Fig. 36 View FIG ; Table 20)

Both left and right femora are preserved for the holotype, MNHN.F.PPI276. The holotype also includes one preserved patella.In addition, MNHN.F.PPI281, MNHN.F.PPI284, and MNHN.F.PPI289 are also referred to Magophoca brevirostris n. gen., n. sp. As in other Phocidae , the femur of Magophoca n. gen. is anteroposteriorly flattened.

The femoral head is markedly globular, as is observed in phocines contrasting with the condition in extant monachines. However, as compared to fossil monachines the head of Magophoca n. gen. is clearly more globulous than in Homiphoca , Kawas , and Pliophoca , and slightly more than in Acrophoca . The neck is moderately well-defined as is observed in Acrophoca , and Kawas but contrasting with the condition in Homiphoca , and extant Monachini which have a better-defined neck than in Magophoca n. gen. The neck of Magophoca n. gen. in dictinctly less defined than in phocines except Cystophora ) but much better pronounced than in extant Lobodontini and Miroungini.

The femoral head and neck are oriented proximomedially, as in other Phocidae , except for extant Lobodontini and the genus Mirounga , in which the head and neck are more proximally oriented. This may also be the case for the extinct monachine Callophoca , if the isolated femora assigned to the taxon in the past indeed represent Callophoca ( Van Beneden 1877; Koretsky & Ray 2008; contra Dewaele et al. 2018b; Rule et al. 2020a; see comments on the humerus above in the

present study). In extant Phocinae , the medial component of the orientation of the femoral head and neck is always greater than in fossil and extant monachines. In Magophoca n. gen., the fovea capitis is not defined on the femoral head.

The greater trochanter is roughly rectangular in anterior and posterior view, and oval in proximolateral view.Proximally, the greater trochanter extends more proximally than the femoral head. This has also been observed in Phocinae and extinct Monachinae (char. 81[2]). Among extant Monachinae , the greater trochanter is higher than the femoral head, only in Monachus and Ommatophoca . From the previously published literature, the exact orientation of the femur needed to assess this character remains unclear, thus, allowing interpretation. It remains difficult to find the exact orientation of the long axis of the femur independently. Therefore, we consider the long axis to be perpendicular to the line of the least transverse width of the diaphysis ( Fig. 36 View FIG ).

On the posterior surface, the greater trochanter bears a deep trochanteric fossa (char. 82[0]). This fossa opens posteromedially and is covered proximally by a bony lip. Such a deep trochanteric fossa is a characteristic shared with Phocinae and extinct Monachinae (except for Acrophoca and Pliophoca ). Apart from Lobodon , all extant Monachinae have no, or a strongly reduced, trochanteric fossa.

The narrowest part of the diaphysis is slightly proximal to mid-length of the bone.

The epicondylar crest on the medial margin of the femur has a sub-vertical and distinctly straight medial margin in posterior view. Proximally, this crest terminates near mid-length of the bone, and just distal to a nutrient foramen (char. 85[1]). This foramen is observed on both femora of the holotype ( MNHN.F.PPI276) and on MNHN.F.PPI289; it is apparently absent in MNHN.F.PPI281 but could not be observed on the two other isolated femora available for this study ( MNHN.F.PPI284 and 296) since this region of the bone was damaged on these specimens. It is therefore not possible to determinate if this structure is a variation in Magophoca n. gen. or a specific feature of this taxon. A similar foramen is also present in Kawas (on the only known femur for this genus) but absent in Homiphoca . Distally, the epicondylar crest extends prominently, resulting in a lateral contortion of the distal epiphysis. This condition is not different from that in other Monachinae . By contrast, the development of the epicondylar crest is not as strong in Phocinae , resulting in the lack of such a distolateral distortion of the distal epiphysis in the latter subfamily.

The lateral epicondyle forms a short but distinct crest, proximally almost reaching just below the proximal tip of the epicondylar crest. As for the medial epicondyle, a strongly developed lateral epicondyle is a characteristic of Monachinae , separating the subfamily from Phocinae . A rugosity on the anterolateral margin of the distal epiphysis marks the origin surface for m. peroneus longus (char. 86[1]). This condition is like that in other Monachinae , except for the extinct Callophoca obscura , in which this surface is located laterally.

The patellar facet on the anterior surface of the distal epiphysis is raised and marginally wider than it is high. With the exception of Acrophoca , this corresponds to the condition in other Monachinae . In Acrophoca , the patellar facet is as high as it is wide. In Phocinae , the patellar facet is higher than it is wide.

The distal condyles strongly differ in size, with the lateral condyle being significantly larger than the medial condyle (char. 84[1]). This condition has been observed in many extinct and extant Phocidae , across both subfamilies. Whereas the lateral condyle is gently convex, the convexity of the medial condyle is faint. In posterior view, the medial condyle is also contorted distally and laterally, due to the strong development and distal projection of the epicondylar crest.

Patella ( Fig. 37 View FIG ; Table 21)

The patella (probably right) is notably higher (25.6 mm) than it is wide (23.1 mm), slightly tapering proximally ( Fig. 37 View FIG ; Table 21). It is roughly symmetrical in anterior view. The articular facet for the femur is equally wide as high (19.7 mm), but also tapering proximally. The articular facet is slightly concave, and the anterior surface is strongly convex, giving the patella a crescent appearance in lateral view; with the maximum thickness of the patella (15.9 mm) offset distally.

Tibia-Fibula ( Fig. 38 View FIG ; Table 22 View TABLE )

For the holotype of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276, both left and right tibiae and fibulae are preserved. Notwithstanding fracturing, which is locally profound, both are complete. Both tibia and fibula are described together, because they are proximally fused (char. 88[1]). This is a characteristic uniting all Phocidae , with the exception of the extant monachine Neomonachus schauinslandi .

The proximal epiphysis of the fibula, fused to the proximal epiphysis of the tibia, bears no prominent features.The proximal epiphysis of the tibia is complex. It has two articular condyles for the femur, separated by the interconyloid area. The latter is divided into an anterior and posterior pit. The two pits are separated by the intercondylar eminence, which is divided into lateral and medial intercondylar tubercles. These structures are distinctly elevated to a degree observed in phocines in contrast to the condition in extant monachines in which they are very low. The anterior pit forms a round concavity, anteriorly buttressed by the tibial tuberosity and the tibial crest. This tibial tuberosity on the anterior margin of the proximal epiphysis is triangular in outline and slightly higher than it is wide. This triangular shape conforms with Acrophoca and the extinct phocine Nanophoca . Other Phocidae have a rather transversely elongate oval tibial tuberosity. The posterior pit slopes into well-defined popliteal notch, which contrast with the very shallow structure observed in Monachus . The condyles are relatively concave more resembling the condition observed in phocine than in monachines. The lateral condyle is the larger of the two and faintly saddle-shaped: weakly concave in anterior view and weakly convex in lateral view. The smaller medial condyle is markedly saddle-shaped. Laterally, the medial condyle presents a distinct slope which forms the medial edge of the elevated intercondylar eminence

The diaphyses of the tibia and the fibula are relatively straight: the laterally sigmoidal curvature of the distal half of the diaphysis of the tibia is weak. This corresponds with the condition observed in other Monachinae , with the exception of Acrophoca , and Monachini in which this lateral curvature is more profound. In Phocinae , this curvature is also more prominent. The diaphyses of the tibia and fibula of Magophoca n. gen. are slender, compared to other Monachinae , and more conforming Phocinae .

The diaphysis of the tibia of Magophoca brevirostris n. gen., n. sp. bears deep anterior and posterior tibial fossae. These fossae are typically monachine in being approximately equally developed. In Phocinae , the anterior tibial fossa is reduced or even absent and the posterior tibial fossa is extremely deep.

The distal extremity of the tibia, which bears the medial malleolus, has a smooth triangular articulation with the distal extremity of the fibula, which bears the lateral malleolus. The latter is notably thicker and wider than the diaphysis of the fibula. The articular facet for the astragalus on the medial malleolus is sub-triangular to sub-rounded in distal view and slightly concave. A medial lip and an anterior lip extend distal to the articular surface for the astragalus. The tendon grooves on the anterior and medial margins of the medial malleolus are strongly reduced. Muizon (1981) already noted this character in other extinct Monachinae , in contrast to extant Monachinae , in which these grooves are generally better developed.

On the lateral surface of the lateral malleolus, a thin but strongly-raised longitudinal ridge separates the tendon grooves for m. peroneus brevis and m. peroneus longus. Such a strong development of this ridge has been observed in Phocinae and the extinct Monachinae Acrophoca , Homiphoca , and Piscophoca , but not in other extinct and extant Monachinae .

Distally, the medial malleolus extends slightly more distal than the lateral malleolus.

The articular facet for the astragalus on the fibula is semi-circular to sub-oval and slightly concave.

Tarsus

Astragalus ( Figs 39 View FIG A-C; 40A, B; Table 23). For the holotype specimen of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276, both left and right astragali are preserved. With the exception of slight abrasion of the caudal processes, both astragali are complete. Another well preserved right astragalus is known in MNHN.F.PPI282, only missing the lateral apex of the fibular facet.

The body (talus) bears the articular facets for the tibia and fibula. It is prominent and high. The tibial facet, medially, is sub-rectangular and strongly convex. On the medial margin of the tibial facet a deep fossa marks the medioventral margin of the facet. Such a fossa is also present in Piscophoca and to a minor extent in Homiphoca , but not in Acrophoca . The fibular facet, laterally, is sub-triangular and moderately concave. It extends laterally in a rounded and slightly upturned process. On the plantar aspect of the astragalus, the ectal facet is located ventral to the posterior part of the fibular facet. It is strongly concave and forms an elongated and oval-shaped facet. In distal view, the angle between the tibial and fibular

facets is approximately right. This corresponds with many other extant and extinct Monachinae , with the exception of the extant Lobodontini and the extinct Homiphoca , in which this angle is obtuse, up to 120°. The neck is strongly reduced. It separates the talus from the head.

On the plantar aspect of the head, laterally, the sustentacular facet is elongate and narrow, widening distally, merging into the articular facets for the navicular and cuboid (char. 91[1]). This corresponds with Phocinae , most extinct Monachinae (e.g., Homiphoca , Piscophoca ), and Monachini . In extant Lobodontini and Mirounga , as well as in Acrophoca and Pliophoca , the sustentacular facet is wide and short. The medial interarticular sulcus, which separates the sustentacular facet from the proximal part of the navicular facet, is deep and wide. As in other Monachinae , with the exception of Acrophoca , a noticeable angulation marks the contact between the articular facets for the cuboid and the navicular. The articular facet for the navicular curves proximodorsally on the medial surface of the astragalus, terminating on a medial prominence at the ventral margin of the fossa below the tibial facet described above.

The caudal process is incompletely preserved on both astragali of the holotype but is perfectly preserved on MNHN.F.PPI.282. It is notably short compared to other Monachinae , except for Acrophoca , Homiphoca , Lobodon , and Monachini (char. 90[2]).

Calcaneum ( Figs 39 View FIG G-I; 40C; Table 24). The left and right calcanea are both preserved for the holotype of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276. For the left calcaneum, the ventral portion is slightly abraded. The right calcaneum is missing its ventromedial half. A relatively well preserved right calcaneum is known in MNHN.F.PPI282.

The calcaneum is elongated and slightly longer than the astragalus ( Table 23 vs Table 24). Among Monachinae , this is a character uniting Magophoca n. gen. with Acrophoca and Piscophoca . The astragalus and the calcaneum are of equal length in the other extinct monachines, Homiphoca and Pliophoca , and the astragalus is longer than the calcaneum in extant Monachinae . The height/length ratio of the calcaneum of Magophoca n. gen. is approximately 34.3 mm / 62.6 mm = 0.548 and is within range of ratios observed in other extinct Monachinae , Mirounga , and Monachini (0.509 -0.548). In extant Lobodontini , the calcanea are proportionally shorter and higher (0.583 -0.633) ( Muizon 1981: table 8)

On the medial surface, for the contact with the astragalus, the proximal astragalar facet is divisible in a discorectangular medial facet for articulation with the astragalus or ectal facet and a sub-triangular dorsal facet for articulation with the fibula or fibular facet (char. 92[1]). Both facets are at an obtuse angle of approximately 120°. This angle varies among Monachinae , ranging from an acute angle or closed parabolic shape, such as, for instance, in Acrophoca , to a wide obtuse angle, such, as for instance, in Homiphoca and extant Lobodontini . The angle is obtuse (c. 120°) in Magophoca n. gen., but the fibular contact is also strongly reduced, in other extinct Monachinae and in the extant Mirounga and Monachini .

The sustentacular facet is long and strongly concave in Magophoca n. gen. It is proportionally as long as in Homiphoca , Kawas , and Piscophoca , and phocines and differs from the very short facet of Acrophoca , Pliophoca , and extant monachines. It significantly widens distally and its contact with the cuboid facet is proportionally longer than in other fossil monachines (e.g., Acrophoca , Homiphoca , and Piscophoca ). Among extant lobodontins, the distal edge of the sustentacular facet is slightly shorter than the medial edge of the cuboid facet in Leptonychotes , whereas in Hydrurga both edges have the same length. The distal tip of the distal astragalar facet runs dorsally on the medial surface of the bone in Magophoca n. gen., as is observed in Homiphoca and Piscophoca , while it does not extend as far dorsal in Acrophoca , Pliophoca and extant Monachinae . The proximal portion of the distal astragalar facet is horizontal, resting on the blunt secondary shelf of the sustentaculum.

The sulcus for m. peroneus longus and the trochlear sulcus are well-outlined and prominent, as in other Monachinae . The sulcus for m. peroneus longus extends distal to the cuboid facet and is proximally marked by a small laterally pointing tuberosity. The cuboid facet is semi-circular to weakly crescent shaped. The medial tuberosity of the calcaneal tuber is weakly pointed, extending further than the lateral margin.

Other tarsals ( Fig. 41 View FIG ). For the holotype of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276, left and right cuboids, naviculars and ectocuneiforms are preserved. Whereas the left cuboid and navicular are virtually complete, the plantar portions their right counterparts, are strongly abraded. Both ectocuneiforms are preserved but the medial portion of the left and the plantar portion of the right are missing. On MNHN.F.PPI282; the right navicular and cuboid are preserved, the latter being incomplete in its distolateral region.

Cuboid. The cuboid has a prominent convex facet for articulation with the calcaneum, proximally. This facet is transversely elongate, with a smoothly indented dorsal margin. This facet is roughly equidimensional in Acrophoca . Transition between the articular facet for the calcaneum and the navicular, medi - ally, is smooth, whereas the facets are separated by a ridge in Acrophoca . Further medially, is an ovoid articular facet for the ectocuneiform, dorsally contacting the articular facet for the navicular. This facet does not extend onto the lateroplantar apophysis, as observed in other Monachinae , and in contrast to Phocinae . This lateroplantar apophysis is transversely elongate and is separated from the main bone by a deep groove. This groove conveys the tendon of m. peroneus longus. The distal tip of this apophysis is smooth, as in other Monachinae . In Phocinae , the distal tip of the apophysis of the cuboid bears a facet for articulation with the ventral portion of the proximal epiphysis of MtV. Distally, the articular facets for MtIV and MtV are merged into one large facet. This large facet is sub-rounded but medially invaginated.

Ectocuneiform. In its overall dimensions, the ectocuneiform is clearly monachine: with a height/length ratio of 0.62, the ectocuneiform of Magophoca n. gen. is proportionally elongate, as in other Monachinae (0.560 -0.625), contrasting with Phocinae (0.694 -0.714). In addition, the strong development of the plantar process follows the condition in other Monachinae too, while this process is less developed in Phocinae ( Muizon 1981) . On the distal margin, the concavity observed just dorsal to the plantar process in Acrophoca and Piscophoca is not observed in the ectocuneiform of Magophoca n. gen.

Navicular. The navicular articulates proximally with the astragalus, distally with the cuneiforms and laterally with the cuboid. In proximal view, the navicular forms a scalene right triangle with a vertical lateral margin and a horizontal plantar margin. The articular facet for the astragalus is smoothly curving, L-shaped, and slightly concave. The medial tip of the articular facet is raised proximally. The lateral articular facet is vertically elongate. The distal portion is slightly damaged.

Metatarsus ( Fig. 42 View FIG ; Tables 25 View TABLE ; 26 View TABLE )

All left metatarsals of the holotype of Magophoca brevirostris n. gen., n. sp., MNHN.F.PPI276, are preserved but in diverse conditions. Whereas MtI is virtually complete, MtIII largely misses its proximal epiphysis. In addition, the proximal portion of the right MtII is preserved too. Overall, the dimensions of the metatarsals of Magophoca n. gen. follow the conditions observed in other Monachinae , with MtI being by far the longest metatarsal, followed by MtV, then MtII, and MtIV; and MtIII being the shortest metatarsal and half the length of MtI ( Table 25 View TABLE ).

Metatarsal I (MtI). The first metatarsal is the longest of the pes, as usual in phocids. The MtI of Magophoca brevirostris n. gen., n. sp. is long and slender, to an extant greater than in most fossil and extant phocids. As shown on Table 26 View TABLE below, it is proportionally much longer than in Acrophoca , Homiphoca , Monachus , Neomonachus , and Pliophoca . It is even proportionally slightly longer than in Piscophoca and than an isolated MtI from Antwerp Basin referred by Van Beneden (1877) to Monotherium delognii , a referral which is not ascertainable since this bone does not belong to the same individual as the holotype of that species (see Dewaele et al. 2018a). Besides of having similar proportions, this metatarsal is only 7%shorter that of Magophoca n. gen. Among Monachinae , the MtI of Monachini ( Monachus , Neomonachus , and Pliophoca ) is shorter than in Lobodontini . Among Fossil Lobodontini , the shortest MtI are observed in Acrophoca and Homiphoca . Within extant Lobodontini the MtI of Hydrurga and Leptonychotes are relatively long, but in Lobodon and Ommatophoca individual variation exists ( Table 26 View TABLE ). Phocinae have relatively long MtI, except in Erignathus .

The MtI of Magophoca n. gen. is slightly arched laterally and only slightly flattened dorsoplantarly. The proximal facet for articulation with the entocuneiform is transversely elongated and slightly concave. Laterally, this facet transitions into the articular facet for MtII. In contrast to other extinct Monachinae , there is no clear ridge separating both and the transition is rather smooth, as in extant Monachinae . Although this margin is smooth, lacking a clear ridge, the proximal epiphysis of the MtI of Magophoca n. gen. has a distinct, proximally pointed, styloid apophysis, medioventrally, at the margin between the articular facets for the entocuneiform and the MtII. This apophysis is more prominent than in other Monachinae (except Homiphoca ) and rather comparable to Phocinae and Homiphoca . The articular facet for MtII is convex and semi-cylindrical around the lateral margin of the proximal epiphysis. The articular facet for MtII is dorsoplantarly elongate.

The distal articular facet for the corresponding phalanx is morphologically similar to that of the Acrophoca and Piscophoca and Phocinae in that it bears a prominent articular keel.Among extant Phocidae , such a keel and a strong convexity of the phalangeal articular facets separates Phocinae from Monachinae ; the latter have flatter and simpler phalangeal articular facets.

Metatarsal II (MtII). The proximal epiphysis of MtII articulates with MtI medially, the mesocuneiform proximally and MtIII laterally. The articular facet for MtI is reniform in medial view, and weakly concave around the vertical axis. The proximal articular facet for the mesocuneiform is strongly concave. This corresponds with the condition in Phocinae , rather than in Monachinae , in which this is facet is generally less concave. The lateral facet for articulation with MtIII is a weakly concave (laterally) to convex (proximolaterally) sub-triangular facet. The diaphysis of MtII is strongly slanted medially, as in other Monachinae . In Phocinae, MtII is generally straighter. The distal extremity is smooth and weakly-convex, with a small plantar keel. This conforms with other Monachinae and contrasts with Phocinae , in which the articular facet for the phalanx is more convex with a more developed plantar keel.

Metatarsal (MtIII). This metatarsal is by far the shortest metatarsal in the pes, as in other Phocidae . The state of preservation of the only preserved MtIII for Magophoca n. gen. does not allow a detailed description of the specimen, except for the distal epiphysis. As for MtII, the distal epiphysis is smooth and weakly-convex, with a reduced plantar keel. This corresponds with the condition observed in other Monachinae , but differs from the condition in Phocinae . Although incomplete, the diaphysis appears circular in cross-section.

Metatarsal (MtIV). The articular facet for MtIII is abraded, precluding description. On the lateral margin, there is the articulation facet for MtV. This facet forms a curving but straight angle, consisting of a horizontal dorsal leg and a vertical proximal leg. Although incomplete, the vertical leg appears longer than the horizontal leg. The dimensions of this articular facet match other monachines: this facet is proximodistally longer in Phocinae . The diaphysis is circular in cross-section, and slightly slanted laterally relative to the proximal epiphysis. The shape of the distal epiphysis follows the general shape in Monachinae , as presented above for MtII and MtIII.

Metatarsal (MtV). The fith metatarsal is the second largest bone, after MtI. MtV is slightly transversely compressed. The proximal epiphysis is dorsoplantarly expanded. The proximal epiphysis is transversely as robust as in other Monachinae . It is generally more gracile in Phocinae . Dorsomedially, the proximal epiphysis sports a slightly convex articular facet corresponding in shape to the angular shape of the articular facet for MtV, laterally on MtIV. Proximally and laterally, this facet transitions in a facet for the articulation with the cuboid. This facet is slightly convex, has a convex proximodorsal margin, and an undulating distaloplantar margin.

As in other Monachinae , and in contrast to Phocinae , the insertion for m. peroneus brevis is well-developed. Though incomplete, it appears to be proximodistally slightly elongate and slightly saddle-shaped.

Posterior phalanges ( Fig. 43 View FIG ; Table 27 View TABLE ). Three complete phalanges; and a proximal and distal fragment belonging to one or two phalanges of the holotype MNHN.F.PPI276 constitute all the posterior phalangeal material that is known for Magophoca brevirostris n. gen., n. sp.

The diaphysis of each phalanx is slightly dorsoventrally flattened and the shapes of the distal and proximal epiphyses are strongly simplified. The proximal articular surface is roughly reniform and only slightly concave, and the distal articular surface is saddle-shaped. This corresponds with the condition in other Monachinae , rather than with Phocinae , in which the articular surfaces are generally much better developed, with keeled distal articular surfaces for a higher mobility of the fore- and hindflippers. In Phocinae , the diaphyses of the phalanges are also more rounded in cross-section.

PHYLOGENETIC ANALYSIS

In the analysis performed here, the topology of the outgroup taxa, i.e. the stem-pinnipedimorph Pteronarctos goedertae , Otariidae ( Arctocephalus pusillus , and Otaria byronia ), and the odobenid Odobenus rosmarus has been constrained by the backbone constraint tree adapted from Rule et al. (2020b), with Odobenidae + Otariidae forming the clade Otarioidea as a sister group to Phocidae .

In these conditions, the phylogenetic analysis using PAUP*4.0a169 yields 10 most parsimonious trees with a tree length of 261 after 14373 tried rearrangements. The strict consensus tree ( Fig. 44 View FIG ) shows that the topology of Monachinae is poorly resolved, with a large polytomy at the subfamily level. Most notably, Extant Monachini are collapsed. However, interestingly, the clade composed of Hadrokirus , Homiphoca , Kawas , Magophoca n. gen., and Piscophoca is resolved, Kawas being siter genus to Homiphoca and Magophoca n. gen. sister genus to Hadrokirus . Nevertheless, because of the poor resolution of the strict consensus tree at higher phylogenetic levels, we performed a second analysis, downweighing homoplasy through implied weighing using the Goloboff criterion, with the k-value set at three. This resulted in one most parsimonious tree (score of best tree found = –70.75714) after 2654 tried rearrangements ( Fig. 45 View FIG ). The consistency index is 0.4280, and retention index is 0.6739.

In the literature, the higher-level topology of the three crown pinniped families ( Odobenidae , Otariidae and Phocidae ) (and the extinct family Desmatophocidae ) varies, with Odobenidae either under Otarioidea ( Odobenidae + Otariidae ) or under Phocomorpha ( Odobenidae +Phocoidea) (e.g., Berta 1994; Deméré & Berta 2002; Berta et al. 2018). The former topology corresponds with the resulting phylogenetic tree retrieved in the current study.

The Phocidae form a monophyletic clade, supported by 24 synapomorphies, of which 12 are unambiguous (with consistency index = 1). The unambiguous synapomorphies of Phocidae are: the position of the posterior end of the nasals posterior to the level of the maxilla-frontal suture (char. 5 [0> 1]; the absence of the alisphenoid canal (char. 10[0> 1]); a mortised jugal-squamosal contact (char. 15[0> 1]); the lateral extremity of the tympanic bulla reaching lateral to mid-width of the glenoid fossa (char. 22[0> 1]); the pit for the stylohyal oriented ventrally and anteriorly (char. 24[0> 1]); a heavily pachyosteosclerotic mastoid (char. 26[0> 1]); a paroccipital that is well separated from the mastoid (char. 28[0> 1]); the posterior opening of the carotid canal and posterior lacerate foramen are separated (char. 30[1> 0]); the pterygoids are laterally tilted and flaring posteriorly (char. 34[0> 1]); the occipital condyles diverging dorsally (char. 35[0> 1]); a femur lacking a lesser trochanter (char. 83[0> 1]); and a well-developed calcaneal process on the astragalus (char. 90[1> 2]). Ambiguous synapomorphies are characters 4, 6, 11, 23, 36, 58, 61, 62, 66, 80, 81, and 91 (further details, see Appendices 3, 4).

The topology of the four species of Phocinae agrees with the general topologies in other morphological and molecular phylogenetic studies (e.g., Bininda-Emonds & Russell 1996; Higdon et al. 2007; Fulton & Strobeck 2010; Rule et al. 2020b). The subfamily Phocinae is supported by 18 synapomorphies, of which three are unambiguous. These are: the major axes of the glenoid fossa are slightly convergent posteriorly (char. 20[0> 1]); the posterior opening of the carotid canal is visible in dorsal view (char. 29[0> 1]); a sacrum composed of four fused sacral vertebrae (char. 56[1> 2]). Ambiguous synapomorphies are characters 16, 23, 25, 55, 61, 65, 67, 68, 69, 72, 73, 75, 79, 82, and 84.

This phylogenetic analysis focuses on extant and extinct Monachinae , and especially the phylogenetic relationships of extinct Monachinae among extant taxa. The subfamily Monachinae is supported by 23 synapomorphies, of which five unambiguous: a reduced scapular spine (char. 59[0> 1]); a flattened distal end of the styloid process of the ulna (char. 71[0> 1]); an anterolaterally-oriented fossa for m. peroneus longus on the femur (char. 86[0> 1]); a strongly developed anterior tibial fossa (char. 89[0> 1]); and MtIII approximately 50% (or more) shorter than MtI (char. 93[0> 1]). Ambiguous synapomorphies are characters 1, 2, 3, 12, 14, 37, 39, 49, 53, 57, 60, 63, 64, 77, 78, 85, and 91.

The topology of the phylogenetic relationships of Monachinae confirm the well-established separation of Monachinae in three tribes: Lobodontini , Miroungini, and Monachini . In the present study, as constrained by the constraint tree, Monachini are the first to branch off, with Miroungini, represented by Mirounga leonina forming a sister clade with Lobodontini .

Eomonachus and Pliophoca are confirmed as Monachini , together with Monachus and Neomonachus ( Tavani 1941; Berta et al. 2015; Berta et al. 2018; Rule et al. 2020b). All four extant Lobodontini ( Hydrurga , Leptonychotes , Lobodon , and Ommatophoca ) group together as crown Lobodontini . All extinct Lobodontini included in this study fall outside the crown group. Extant and extinct Lobodontini form two sister monophyletic sister clades. This is a strong indicator that a detailed phylogenetic analysis of extant and extinct Monachinae , and Lobodontini in particular, is much needed. However, this is beyond the scope of the current study. The clade composed of extant and extinct Lobodontini is supported by seven synapomorphies, of which three are unambiguous. These are: a parasagittal orientation of the medial margins of the tympanic bullae (char. 21[0> 1]); the presence of a lip in the anteromedial region of the mastoid, abutting the posteromedial edge of the tympanic bulla (char. 27[0> 1]); and a well-developed articular surface for the fibula on the calcaneum (char. 92[0> 1]). Ambiguous synapomorphies are characters 52, 60, 80, and 84. Crown lobodontins are supported by five synapomorphies, all ambiguous (characters 11, 57, 69, 74, 80).

The first of the extinct lineage of Lobodontini to branch off, is Sarcodectes from the western North Atlantic, followed by Acrophoca from the southeast Pacific. The remaining five extinct lobodontins, the clade composed of Hadrokirus , Homiphoca , Kawas , Magophoca n. gen., and Piscophoca , branches in two groups, interestingly along paleobiogeographic lines: the South Atlantic taxa Homiphoca and Kawas are retrieved as sister species, which is coherent as far as biogeography is concerned and gives credit to the hypothesis of Hendey (1972) to place the geographic origin of the south African monachine Homiphoca in the eastern seaboard of South America. The Southeastern Pacific Hadrokirus , Magophoca n. gen., and Piscophoca form a sister clade to the clade composed of Homiphoca and Kawas .

Bootstrap values (<50%) for the tree are shown in Fig. 45 View FIG . Whereas there is absolute support for the phocid monophyly and moderate to high support for the phylogenetic relationships of phocines included in this study, bootstrap support for the Monachinae is low, yet at 53% above the 50% threshold.