Type species.—Brachypotherium brachypus (Lartet, 1837).

Description.—AH 1458 includes part of the left horizontal ramus, including the unerupted p2, erupting p3, and the roots of dp3 and a part of dp4 (Fig. 2.1). The fragment extends mesially, terminating past the large mental foramen that is easily discerned in buccal view (Fig. 2.2) below the anterior portion of dp3. In lingual view (Fig. 2.3), due to the state of preservation of the specimen, it is difficult to ascertain the morphology of the lingual groove of the mandible. An erupting p3 (L max = ∼40 mm) and a premolar bell of p2 (L max = ∼27.5 mm; TD = ∼14.5 mm) are evident inside the mandible (Fig. 2; Supplementary Data 2, 3). The lingual valleys of the two teeth are V-shaped, and the lingual and labial cingula are absent (Supplementary Data 2, 3). On p2 (Fig. 3), the anterior lingual valley is absent, the paralophid is long and simple, and the paraconid is developed. On p3 (Fig. 3), there is a distal cingulum, the lingual groove is marked and reaches the base of the crown, the paralophid is straight and does not reach the lingual rim of the tooth, and the metaconid and entoconid are not constricted.

Materials.—A partial left hemimandible of a juvenile individual, AH 1458.

Remarks.—Bugtirhinus differs from AH 1458 by its more hypsodont teeth and much smaller size (see Antoine et al., 2010). Turkanatherium acutirostratum has proportionally shorter and wider p3 and narrower lingual valleys (Hooijer, 1966, pl. 9, fig. 4). Aceratheres have narrower lingual valleys. Contrary to Chilotheridium from Loperot, the labial groove on the p3 of AH 1458 is shallower (cf., Hooijer, 1971). Rhinocerotines differ from AH 1458 by a curved and lingually flexed paralophid of the p3. A juvenile mandible of Lartetotherium from Relea (middle Miocene, Spain: MNCN NM18102) differs from the studied specimen by its U-shaped lingual valleys and postero-lingually bent paralophids on the p3. Lower teeth of G. browni described by Heissig (1972) from Nagri have narrower lingual valleys; in addition, in G. browni, the lingual groove of the p3 does not reach the base of the crown and the paralophid is curved. In “Aprotodon” fatehjangense (Pilgrim, 1910) the labial groove of p3 does not reach the base of the crown, labial and lingual cingula are present, and the paralophid on p2 is curved (Heissig, 1972; Antoine et al., 2003). In B. brachypus the paraconid on p2 is reduced, the labial cingulum on the premolars is reduced and the metaconid is constricted; in general, the teeth are shorter and wider than on the Negev specimens. In B. perimense (Falconer and Cautley, 1846) the lingual groove of p3 is smooth and does not reach the base of the crown, the lingual valleys are U-shaped whereas the paraconid is reduced (Heissig, 1972; Antoine et al., 2021). In B. minor, the paralophid of p3 is short and curved and the paraconid reduced (Geraads and Miller, 2013). In B. snowi from Jebel Zelten and Moghara (LP, personal observation at NHMUK, 2013; Fourtau, 1920; Hamilton, 1973), similar to AH1458, the p2 is long and narrow (L max = 27 mm; TD = 17 mm; Hamilton, 1973), the p3 has a marked labial groove that extends to the base of the crown, the hypolophid and metalophid are well developed, and the paralophid is straight (not flexed lingually).

Description.—The tooth fragment (OR 1008) displays rough enamel and is a fragment of the protocone of an upper molar. The cone is enlarged at the base (APD = ∼1.7 mm) and the mesial cingulum is partially preserved. A weak cingulum is present on the distal side of the cone (the entrance of the median valley), similar in height to the mesial cingulum.

The vertebra C6 (AH 2068) is missing the right transverse process and the spinous process (Fig. 4.1). In anterior view (Fig. 4.1), the left transverse process is well developed and massive, with evident (but badly preserved) dorsal (laterally directed) and ventral (ventrally directed) tubercles. The process is perforated by an elliptical transverse foramen, with its major axis oblique with respect to the major dorsal-ventral axis of the bone. The anterior articular head of the vertebral body is elliptical, with the main axis parallel to that of the bone; its ventral border is convex. The posterior articular surface of the vertebral body is subcircular (Fig. 4.2), wider than the anterior one, and slightly concave. The angle between the dorsal side of the transverse process and the ventral side of the vertebral arch is <90°. The anterior articular processes are directed upward and the angle with the spinous process is very sharp. The vertebral canal is taller than it is wide, with a concave ventral border and a very sharp dorsal border. In anterior view, the anterior articular surface of the vertebral body is squarer, particularly its dorsal part. In lateral view, the anterior dorsal process is less extended anteriorly than the articular surface, whereas the posterior dorsal process is slightly more posteriorly extended than the posterior articular surface. The anterior articular surface of the vertebral body is more dorsally placed on the vertebral body with respect to the posterior one.

Materials.—A fragment of a right protocone of an upper tooth (misidentified as P1 in Tchernov et al., 1987), OR 1008; a fragmentary cervical vertebra (sixth), AH 2068.

Remarks.—It is very difficult to assign a fragment of a tooth to a well-defined genus or species. Nevertheless, a comparison with several upper teeth of early Miocene Rhinocerotidae enables several considerations. (1) A mesial cingulum and a weak cingulum at the entrance of the median valley of OR 1008 resembles the protocone of an M3 from Rusinga (NHMUK M32951); also, as in OR 1008, the protocone on NHMUK M32951 is antero-posteriorly enlarged; an M1 from Rusinga (NHMUK M32946) exhibits a protocone with similar characteristics as well. (2) The protocones of the upper molars of Brachypotherium brachypus from Villefranche d'Astarac (NHMUK 33522) have a continuous lingual cingulum and lack the weak cingulum along their distal side. (3) The protocones of isolated M2 (NHMUK M29269) and M3 (NHMUK M29254) from Jebel Zelten, assigned to Brachypotherium snowi, have a flattened lingual side and show no trace of a cingulum on the distal side. (4) The molars of Bugtirhinus praecursor from the early Miocene of Bugti Hills have a narrower protocone (NHMUK; Antoine and Welcomme, 2000), and are more flattened on the lingual side; the same is true for Prosantorhinus molars from Sandelzhausen (Cerdeño, 1996b) as well. (5) The protocone of a M3 from Ad Dabtiyah (NHMUK 36897), identified as ?Dicerorhinus sp. aff. D. sansaniensis (Lartet, 1851), resembles OR 1008 because it is inflated and has a mesial cingulum, but differs from the Negev specimen because it lacks the weak cingulum on the distal side.

Thus, pending discovery of more dental material from the early Miocene of Israel and considering the similarities with the material from Rusinga and Ad Dabtiyah, we tentatively refer OR 1008 to Rhinocerotina indet.

Very few cervical vertebrae of Miocene Rhinocerotidae have been published, and thus we can only remark that the size of the sixth cervical vertebra from the Negev (AH 2068) resembles that of Lartetotherium from Sansan and is somewhat larger than that of Hoploaceratherium (Supplementary Data 1, Supplementary Table S1). The neural canal in AH 2068 is proportionally narrower and higher than in Teleoceras (cf., Short et al., 2019); the anterior articular processes are more upwardly directed than in Teleoceras and resemble those of Stephanorhinus (Made, 2010, pl. 10). The specimen from the Negev is here tentatively assigned to Rhinocerotina.

Description.—As previously mentioned, the elements are poorly preserved; however, we identified important characteristics permitting detailed comparisons and identification.

OR 1046 is a distal portion of a left humerus preserving the distal diaphysis and epiphysis. The medial epicondyle is evident in anterior view (Figs. 4.1, 5.1), the medial border of the medial lip of the articular condyle is oblique, whereas the lateral border of the lateral lip is almost straight. The trochlea is asymmetric, the medial lip is more developed and wider than the lateral lip, and the trochlear gorge is deep. The partially preserved coronoid fossa appears well marked and deep; the radial fossa is well marked. The epicondylar crest is weak and the lateral border of the distal epiphysis is oblique. In posterior view, the olecranon fossa is partially preserved, and wider than it is high; the lateral epicondyle is not preserved and the epitrochlea is partially damaged. In medial view, the articular border of the trochlea is smoothly rounded and ends weakly in the proximal-anterior side at the level of the condylar fossa. In distal view (Fig. 4.2), the medial lip of the trochlea is clearly much more developed and wider than the lateral lip.

OR 1044 is a right ulna missing the distal epiphysis and proximal portion of the olecranon process (Fig. 4.5). The olecranon and the diaphysis are aligned (Fig. 4.6) and the proximal articular facets for articulation with the radial head are fused to the shaft of the ulna on both sides. The articular surfaces for the humerus are asymmetric; the medial surface is more elongated proximodistally than the lateral one. The latter is wider and less concave than the medial surface. The diaphysis has a sub-triangular section (Fig. 4). The articular facet of the humerus is worn.

The tibia (OR 1043) is badly preserved. The proximal epiphysis is strongly damaged, but the tibial spine is partially preserved, thus it is possible to estimate the maximal length of the bone (∼334 mm). The diaphysis was reconstructed because it was severely damaged (Fig. 4.7); no synostosis appears along the diaphysis. The distal epiphysis is much better preserved than other parts of the bone (Fig. 4.8). The mediodistal gutter is absent. In distal view, the distal articular surface is wider than deep and is less developed than the distal epiphysis. The distal-lateral articular surface is oblique with respect to the anterior border of the distal epiphysis; it is narrower and slightly longer than the distal-medial articular surface (Fig. 4.8). The latter is partially damaged on the medial side and is separated from the lateral surface by an antero-posteriorly concave and transversally convex saddle. The anterior border of the distal epiphysis is sinuous in distal view.

The third metatarsal (OR 1009) displays a smooth and low intermediate relief, and the distal articular surface is transversally smaller than the distal epiphysis (Fig. 4.9). The anteroproximal border of the distal articulation is rounded.

Materials.—A portion of a distal left humerus (Tchernov et al., 1987), OR 1046; a right ulna missing the distal epiphysis and the proximal part of the olecranon (Tchernov et al., 1987), OR 1044; a left tibia with an extremely damaged proximal epiphysis and diaphysis, OR 1043; a left distal third metatarsal (Tchernov et al., 1987), OR 1009.

Remarks.—With respect to the studied specimen, in Protaceratherium minutum the medial tuberosity of the humerus is more prominent and placed lower on the medial face, the trochlear gorge is narrower and deeper in anterior view, and the epicondylar crest is well developed (Fig. 5.2). Unlike the humerus from the Negev, in the humerus of Pleuroceros blanfordi the olecranon fossa is high, there is a scar on the trochlea, and a distal gutter on the epicondyle is present (Antoine et al., 2010). The humeri of Hoploaceratherium tetradactylum (Lartet, 1851) (Fig. 5.3) and Aceratherium incisivum (Cuvier, 1822) are larger than the humerus from Negev, although the available data are too scarce for an exhaustive morphometrical comparison (Supplementary Data 1, Supplementary Table S2). In distal view (Guérin, 1980, fig. 32), the lateral lip of the distal trochlea is narrower than in the studied specimen and the anterior border of the trochlear gorge is wider. Brachypotherium brachypus and Plesiaceratherium mirallesi (Crusafont, Villalta, and Truyols, 1955) display a higher and narrower olecranon fossa with respect to OR 1046 (cf., Antoine et al., 2010). In Brachypotherium, the epicondylar crest is much more developed, as is the lateral epicondyle; the distal trochlea is laterally oriented with an oblique lateral lip (Fig. 5.4). Prosantorhinus douvillei (Osborn, 1900) and Diaceratherium aurelianense (Nouel, 1866) have a low olecranon fossa (Cerdeño, 1993, pl. 2, fig. 3). In addition, the humerus of Prosantorhinus is smaller than the studied specimen (cf., Cerdeño, 1996b) and has a higher distal epicondyle (Cerdeño, 1996b, pl. 19, fig. 4). In Diaceratherium, the humeral crest and the epicondylar crest are much more prominent than in the studied specimen, the coronoid fossa is weakly marked, and the lateral epicondyle is more proximal and curved externally. Hispanotherium (Aegyrcitherium) beonense has a much more developed lateral non-articular side of the distal epiphysis (e.g., Antoine, 2002, fig. 198b), the epicondylar crest is more marked, and there is a scar on the trochlea (Antoine, 2002, fig. 199). Hispanotherium grimmi Heissig, 1974, displays a wider distal trochlea with a wider distal epiphysis and medial tuberosity, more prominent in anterior view (Heissig, 1976, fig. 3). In medial view, the articular surface stops well before the anterior border of the condylean fossa. The humerus of the middle Miocene Victoriaceros kenyensis Geraads, McCrossin, and Benefit, 2012 (NHMUK M32755; Geraads et al., 2012) is much more massive than the Negev specimen and displays a more developed medial tuberosity on the distal epiphysis. The humerus from the Negev is less massive than that of Rusingaceros leakyei, but a detailed morphological comparison is not possible because the distal epiphysis of the Rusinga humerus is damaged (Hooijer, 1966, pl. 2, fig. 2). Some morphological characters of OR 1046 are shared with Lartetotherium sansaniense from Sansan (Guérin, 1980; Heissig, 2012). In particular, both have a marked crest on the lateral face, lack a central fossa on the medial face, and the coronoid and radial fossae are deep with a well-marked lateral border. Nevertheless, in posterior view, the olecranon fossa of L. sansaniense is narrower than in the specimen from the Negev. “Dicerorhinus montesi” Santafé-Llopis et al., 1987, resembles L. sansaniense in having a higher and narrower olecranon fossa than the Negev specimen. The latter closely resembles the humerus from Nagri reported by Heissig (1972, p. 34) and assigned to Rhinocerotini. The morphology and proportions of the studied humerus also resemble that assigned to ?Dicerorhinus sp. aff. D. sansaniensis and collected at Ad Dabtiyah (Saudi Arabia) (Gentry, 1987; LP, personal observations at NHMUK, 2013).

The described characters allow the studied ulna (OR 1044) to be distinguished from Plesiaceratherium mirallesi which displays an open angle between the diaphysis and the olecranon (cf., Antoine et al., 2010). The ulna is more slender than those of “Diceros” australis, Brachypotherium, and Diaceratherium (Supplementary Data 1, Supplementary Table S3). The size of the diaphysis (Supplementary Data 1, Supplementary Table S3) resembles the rhinocerotid from Ad Dabtiyah (NHML M36912) and Lartetotherium from Sansan (Heissig, 2012), but with a smaller DTPA (∼58 mm in OR 1044, size ranges between 77–90 mm in Lartetotherium).

The tibia OR 1043 (DAPD = 54.37 mm) is close in size to Lartetotherium from the Vallesian of Spain (DAPD size ranges between 55–62.8 mm), but is smaller than the older Lartetotherium from Sansan (DAPD size ranges between 64.5–70 mm) (Supplementary Data 1, Supplementary Table S4). The studied specimen is more slender and proportionally different from “Diceros” australis, Brachypotherium, Diaceratherium, and Plesiaceratherium. The mediodistal gutter is present in Plesiaceratherium and Pleuroceros and absent in Mesaceratherium. In the latter, the anterior border of the distal epiphysis is straight. The general morphology of the distal articular surface resembles the tibia from Ad Dabtiyah (NHML M3678), and both closely resemble the tibia NMB SS124, assigned to Lartetotherium sansaniense. According to Gentry (1987), the tibia from Ad Dabtiyah is close to a tibia from Sansan NHML 27458; nevertheless, the latter displays a different morphology of the distal surface (oblique anterior and posterior borders, transversally narrower articular surfaces, lateral distal tuberosity more developed) and belongs to Hoploaceratherium. The tibia of Gaindatherium is unknown at present.

The smooth and low intermediate relief of the distal articular surface of the third metatarsal (OR 1009) distinguishes the specimen from the Negev from Brachypotherium, Diaceratherium, Pleuroceros, Mesaceratherium, Plesiaceratherium, and Prosantorhinus. OR 1009 shares this character with Lartetotherium and the extant taxa (cf., Antoine, 2002, p. 231; Antoine et al., 2010, p. 194). The specimen from the Negev (DTD = 45.57 mm; DAPD = 32.15 mm) is anteroposteriorly smaller than Diaceratherium (min-max DAPD = 37–50 mm), is transversally shorter than Brachypotherium (min-max DTD = 59–70.6 mm), Rusingaceros (DTD = ∼ 60 mm), and “D.” australis (min-max DTD = 55.5–61.5 mm), and is morphometrically close to the third metatarsals of Lartetotherium reported by Cerdeño (1993, min-max DTD = 43.8–54.5 mm; min-max DAPD = 31–39.6 mm). OR 1009 is slightly smaller than the Lartetotherium from Sansan (Supplementary Data 1, Supplementary Table S5; min-max DTD = 47–53.5 mm; min-max DAPD = 34–40.5 mm) and differs from it in having less-prominent and less-sharp supra-articular tuberosities (Heissig, 2012, fig. 349). The studied specimen is distinct from Rhinocerotini indet. (= Gaindatherium sp.) from Nagri (Heissig, 1972, pl. 25, figs. 1, 2), but it is very similar to Gaindatherium sp. (mtIII Y46571) from the Siwaliks of Potwar Plateau by having blunt and rounded supra-articular tuberosities and a low articular surface in anterior view.