Wang et al. (2011) erected a new genus and species, Minchenoletes erlianensis, from the upper part of the Nomogen Formation at Nuhetingboerhe and Wulanboerhe (fig. 1). The specimens attributed to that taxon include maxillae, mandibles, and isolated teeth, and were unearthed from the NM-3 and 4 horizons of the Bumbanian ALMA.

Only one species of Schlosseria, S. magister, has been named from the basin (Matthew and Granger, 1926). The holotype (AMNH FM 20241) was unearthed from the Arshanto Forma tion, about 7 mi north of the Telegraph Line (fig. 1). Radinsky (1965) assigned additional dental and postcranial material to Schlosseria cf. S. magister from Huheboerhe area. Those localities include Duheminboerhe, Daoteyin Obo, Huheboerhe, and Chaganboerhe. Our recent work confirms the presence of Schlosseria magister at Huheboerhe (Li and Wang, 2010), which ranges from As-1 to As-6 fossil-bearing horizons and was considered restricted to the Arshanto Formation. However, Radinsky (1965) also considered AMNH FM 81787 and 81788 as Schlosseria cf. S. magister from “?Houldjin gravels” (i.e., Irdin Manha Formation) at Chaganboerhe.

Radinsky (1965) reported a lower jaw with p2-m2 of ?Schlosseria (AMNH FM 26139) from “?Shara Murun beds” at Erden Obo (Urtyn Obo), and the fossil-bearing bed is probably equivalent to the “Basal White.” Li and Wang (2010) described a partial skull of S. magister (IVPP V 16573) from the “Basal White” of Erden Obo. Our recent fieldwork also recovered some Schlosseria specimens from the basal layers at Wulanhuxiu, indicating the presence of Arshantan deposits in the section.

Only one species of Lophialetes, L. expeditus, is known from the Erlian Basin (fig. 2A) (Matthew and Granger, 1925c). The holotype (AMNH FM 19163) was found in the Irdin Manha Formation on the Irdin Manha escarpment. Radinsky (1965) also reported the species from both the “Irdin Manha” (i.e., Arshanto) and “Houldjin” (i.e., Irdin Manha) beds in the Huheboerhe area. However, he considered all these specimens as likely deriving from a single horizon. This proposal was supported by Li and Wang (2010) and Wang et al. (2010), who restricted L. expeditus to the IM-1 and IM-2 horizons of the Irdin Manha Formation.

Radinsky (1965) also reported Lophialetes expeditus? from the Ulan Shireh Formation at Wulantaolegai and Wulanhuxiu. These specimens are slightly smaller than Irdin Manha individuals of L. expeditus. He further assigned several larger specimens (AMNH FM 81687, 81690, and 81681) to Lophialetes sp. from the same bed at Wulanhuxiu (Radinsky, 1965). Those specimens are approximately 20% to 25% larger than specimens of L. expeditus? from the same bed, and ~12% larger than Irdin Manha fossils of L. expeditus.

Radinsky (1965) assigned several crushed skulls, jaws, and foot bones (AMNH FM 22091–22095) to Lophialetes expeditus? from the Tukhum Formation, which is overlain by the Shara Murun Formation at Ula Usu. He considered these specimens the same as Ulan Shireh L. expeditus? individuals. A lower jaw with p2-m2 (AMNH FM 26138) from “?Shara Murun beds” at Erden Obo was referred to Lophialetes sp., which corresponds in size to the larger Ulan Shireh Lophialetes fossils (Radinsky, 1965).

Only one species of Zhongjianoletes, Z. chowi, known from a left mandible with a partial symphysis (IVPP V 6671), is known from the Ulan Shireh Formation at North Mesa (Ye, 1983). The species is very similar to Lophialetes expeditus, but is larger and lacks the p1 and probably incisors. Ye (1983) further considered that specimens referred to Lophialetes sp. by Radinsky (1965) from the same locality should belong to Z. chowi. Ye (1983) assigned some isolated M3s to Zhongjianoletes sp., which corresponds to the size of Z. chowi from the same horizon.

Two species of Simplaletes, S. sujiensis and S. ulanshirehensis, are known from the Irdin Manha and Ulan Shireh, respectively (Qi, 1980). Simplaletes sujiensis was found in the Irdin Manha Formation, and S. ulanshirehensis was discovered in the Ulan Shireh Formation in 1959 by SSPE. Both of those species preserve only lower jaws with relatively heavily worn teeth, and lack the p1. Lucas et al. (1997) considered Simplaletes to be a junior synonym of Schlosseria.

Two species of Breviodon, B. acares and B.? minutus, are known from the Wulanhuxiu and Irdin Manha, respectively (Radinsky, 1965). The holotype of B. acares is a mandible (AMNH FM 26113) characterized by the absence of p1–2 and it is about 30% smaller than Ulan Shireh material of Lophialetes expeditus?. Radinsky (1965) assigned a fragmentary skull (AMNH FM 81751) to Breviodon cf. B. acares from the “Irdin Manhan beds” at Huheboerhe. However, this specimen more likely was recovered from the Arshanto Formation instead of the “Irdin Manha Formation.” A lower jaw with dp4-m2 (AMNH FM 81836) from the same locality may be conspecific with the fragmentary skull (Radinsky, 1965). Reshetov (1975) erected a new genus Parabreviodon based on AMNH FM 81751 as the generic type. A lower jaw (AMNH FM 26115, field no. 645) from Wulanhuxiu and a few isolated teeth (AMNH FM 81839) from the “Irdin Manha beds” (i.e., the Arshanto Formation) at Daoteyin Obo, respectively, were assigned to ?Breviodon based on inadequate material (Radinsky, 1965).

Radinsky (1965) reassigned the holotype of “Lophialetes” minutus (an isolated left upper molar, AMNH FM 20139) and some miscellaneous teeth (AMNH FM 81721A, 81721B, 81722) from the Irdin Manha Formation of the Irdin Manha escarpment to Breviodon? minutus. However, Reshetov (1979) considered Breviodon acares as a junior synonym of B. minutus based on the associated upper and lower cheek teeth. This notion was followed by Qi (1987), who also reported the species from the Arshanto Formation at Huheboerhe and Wulanboerhe.

Two species of Rhodopagus, R. pygmaeus and R.? minimus, are known from North Mesa and Ula Usu, respectively (Radinsky, 1965). Rhodopagus pygmaeus is known mainly from the Ulan Shireh Formation, and Radinsky (1965) also assigned a couple of specimens (AMNH FM 81842, 81843) to ?R. pygmaeus from the type Irdin Manha bed. Radinsky (1965) transferred Caenolophus? minimus (AMNH FM 20310) from the Shara Murun Formation at Ula Usu to Rhodopagus? minimus based on its short trigonid and reduced cristid obliqua. Lucas and Schoch (1981) further considered that Rhodopagus pygmaeus is a junior synonym of R. minimus.

The phylogenetic position of Rhodopagus is controversial with its affinities to Lophialetidae, Helaletidae, or even Hyracodontidae (Lucas and Schoch, 1981). Our recent discovery of Rhodopagus from the “Basal White” of Erden Obo will probably clarify this phylogenetic mystery in the future.

Only one species of Pataecops, P. parvus, is known from the upper part of the Nomogen Formation at Nuhetingboerhe and Wulanboerhe (Wang et al., 2011). Wang et al. (2011) pointed out that the holotype of the species from the Kholobolchi Formation of Mongolia is Bumbanian in age, as are specimens from the Erlian Basin. Although Radinsky (1965) assigned Pataecops to Lophialetidae, the phylogenetic position of Pataecops parvus is uncertain. If P. parvus belongs to rhinocerotoids rather than tapiroids (Lucas and Schoch, 1981; Dashzeveg and Hooker, 1997), it would extend the earliest record of rhinocerotoids into the earliest Eocene (Wang et al., 2011).

Four species of Teleolophus have been reported from the Erlian Basin. Teleolophus primarius and T.? rectus are known from the Arshanto Formation in Huheboerhe area (Qi, 1987). The material of Teleolophus primarius is composed of several fragmentary mandibles, carpals, and phalanges from Wulanboerhe and Huheboerhe. Teleolophus? rectus is known from a left mandible with p4-m1 (IVPP V 5766) from Wulanboerhe (Qi, 1987).

Teleolophus medius, including the holotype, was reported from the Irdin Manha Formation at the Irdin Manha escarpment, and is known mainly from mandibles. Radinsky (1965) also assigned several upper dentitions (e.g., AMNH FM 26286) and a left fragmentary mandible with p3-m1 (AMNH FM 81796) to T. medius? from the Ulan Shireh Formation at Wulanhuxiu and Wulantaolegai. Ulan Shireh fossils of T. medius? are slightly smaller than Irdin Manha species, and have a slightly squarer M3. The material from Ulan Shireh provides a complete record of upper dental morphology of Teleolophus medius?. However, the paucity of lower teeth from Ulan Shireh hinders comparison with Irdin Manha specimens of T. medius, which are preserved primarily as lower dentitions. Recently, a large number of postcrania of Teleolophus medius? were reported from the Ulan Shireh Formation at Wulanhuxiu (Bai et al., 2018a).

Radinsky (1965) also referred several specimens to Teleolophus cf. T. medius from both the Arshanto and Irdin Manha formations in Huheboerhe area. Whether those CAE materials from the Arshanto Formation are conspecific with T. primarius and/or T.? rectus named by Qi (1987) needs further investigation. Radinsky (1965) referred a right mandible with p4-m3 (AMNH FM 81852, field no. 893) to Teleolophus sp. from the “?Houldjin gravels” at Huheboerhe. This specimen is similar to T. medius, but is about 20% larger.

Teleolophus magnum, known from a maxilla and a mandible (AMNH FM 26063), has been reported from the base of the “Middle Red” at Erden Obo (Radinsky, 1965). The morphology of T. magnum is somewhat intermediate between T. medius and Deperetella cristata. However, its stratigraphic horizon is even higher than that bearing D. cristata (Radinsky, 1965). Radinsky (1965) proposed three explanations for this discrepancy, and the possibility that the reported horizon bearing T. mangus is incorrect cannot be excluded.

Only one species of Deperetella, D. cristata, is known from the Shara Murun Formation at Ula Usu. Deperetella cristata is represented by maxillae, mandibles, and many postcraninal elements (Radinsky, 1965). Radinsky (1965) referred a mandible with dp3-m1 (AMNH FM 26027) to Deperetella cf. D. cristata from “Shara Murun beds” at Twin Obos. This specimen is about 25% larger than Ula Usu fossils of D. cristata. Radinsky (1965) further referred a right mandible with a complete dentition except for p1 (AMNH FM 81807) to Deperetella sp. from the “?Houldjin gravels” at Huheboerhe. This specimen was assigned to Deperetella rather than to Teleolophus mainly based on the presence of complete hypolophids on p2–4.

Only one species of Heptodon, H. minimus, is known from the Arshanto Formation at Huheboerhe (Qi, 1987). This species is represented by several mandibles and an isolated m3, and it is characterized by the presence of p1 and relatively distinct cristid obliqua on the lower molars (Qi, 1987).

Desmatotherium mongoliense was first reported by Osborn (1923b) from the Irdin Manha Formation on the Irdin Manha escarpment. The species has been referred to Helaletes and Irdinolophus (Radinsky, 1965; Dashzeveg and Hooker, 1997), but recent study confirms its affinity with Desmatotherium (Bai et al., 2017). The species has been reported from the Irdin Manha Formation on the Irdin Manha escarpment, Duheminboerhe, Huheboerhe, and Chaganboerhe (Bai et al., 2017).

Paracolodon (= Desmatotherium) fissus was first reported by Matthew and Granger (1925c) from the Irdin Manha Formation at Camp Margetts (fig. 2B). The species was assigned originally to Desmatotherium, and then referred to Helaletes or Colodon (Radinsky, 1965; Dashzeveg and Hooker, 1997). Based on a partial skull, Bai et al. (2017) recently assigned the species to Paracolodon, suggesting its ancestral relationship with P. inceptus from the Ergilin of Mongolia. Paracolodon fissus is present in the Irdin Manha Formation at Duheminboerhe and Daoteyin Obo.

Qi (1987) named a new species Helaletes medius based mainly on a fragmentary mandible with p4-m3 (IVPP V 5729) from the Arshanto Formation, Wulanboerhe. Bai et al. (2017) questioned the assignment of this species to Helaletes, and noted some similarities with Schlosseria.

Qi (1987) named a new species Homogalax reliquius based on two m3 specimens (IVPP V 5747, 5748) from Huheboerhe in the Arshanto Formation. The species was assigned initially to Homogalax on the basis of their robust hypoconulids (Qi, 1987). However, the lack of a “metastylid” and the presence of a relatively long trigonid suggest that the species is more similar to Isectolophus than to Homogalax. Furthermore, Lucas et al. (2003) considered Homogalax reliquius to be a junior synonym of Isectolophus latidens.

Two species of Hyrachyus have been reported from the Erlian Basin. Hyrachyus neimongoliensis (IVPP V 5721) was unearthed in the upper part of the Arshanto Formation at Huhe boerhe (Qi, 1987). Hyrachyus crista is represented by several fragmentary maxillae with P4-M3 (IVPP V 5722), and was discovered in the Arshanto Formation at Bayan Ulan (Qi, 1987).

Qi (1987) assigned a left M3 (IVPP V 5728) to Hyrachyus sp. cf. H. eximius from the Arshanto Formation at Huheboerhe. He also noted some similarities in that species with the M3 of the helaletid Paracolodon (= Colodon) inceptus. Qi (1987) referred other miscellaneous teeth to Hyrachyus sp. from the Arshanto Formation at Daoteyin Obo and Huheboerhe (field no. 77028H2, 77036-2, and 77039). However, whether or not all these specimens should be allocated to Hyrachyus is questionable. Radinsky (1965) assigned a left maxilla with P4-M3 (AMNH FM 81801) to cf. Hyrachyus from the Arshanto Formation at Huheboerhe.

Two species of Triplopus have been reported from the Erlian Basin. Triplopus? proficiens was assigned initially to Caenolophus by Matthew and Granger (1925b). The holotype of the species (AMNH FM 20141), a mandible with p1-m3, was found in the Irdin Manha Formation at Irdin Manha. More complete material of T.? proficiens is known from the Ulan Shireh bed in Shara Murun region, and it is smaller with a straight distal border of m3 as compared with the Irdin Manha specimens (Radinsky, 1967). Radinsky (1967) further referred two mandibles (AMNH FM 26674, 26675) and a maxilla (AMNH FM 26673) from the “Irdin Manha beds” at Camp Margetts and Huheboerhe, respectively, to T.? proficiens. If the so-called “Irdin Manha beds” bearing T.? proficiens are indeed the Arshanto Formation, this species extends into the earlier Arshantan.

Triplopus? progressus is known from the Shara Murun Formation at Ula Usu (Radinsky, 1967), and was assigned initially to Caenolophus by Matthew and Granger (1925b). The species is known from a maxilla with M1–3 (AMNH FM 20298), m2–3 (AMNH FM 20309), and a M3 (AMNH FM 81872). Although T.? progressus is smaller than T.? proficiens, it is more advanced than the latter in having a reduced M3 metacone and parastyle (Radinsky, 1967).

Only one species of Teilhardia, T. pretiosa, is known from the “lower red beds” at the base of the Shara Murun Formation at Ula Usu (Matthew and Granger, 1926). The species is known from a right mandible with p2-m3 (AMNH FM 20299), and the “lower red beds” were later called the Tukhum Formation (Berkey and Morris, 1927). However, whether T. pretiosa was found in the Tukhum Formation is controversial because some typical Sharamurunian taxa, such as Rhodopagus? minimus, Deperetella cristata, Triplopus? progressus, Caenolophus promissus, and Pterodon hyaenoides, were also recorded with the same field number used for T. pretiosa (field no. 191) (Wang et al., 2012). Radinsky (1967) suggested its affinity with amynodontids based on its relatively shorter premolars relative to the molars, proposing that it may be ancestral to Caenolophus promissus from the overlying Shara Murun Formation.

Qi (1990a) reported Ulania wilsoni from the grayish-green sandstone of the lower part of the “Ulan Gochu Formation” at Erden Obo, and the horizon is probably equivalent to a part of the “Lower White” or the “Middle White” (Qi, 1990b; Wang et al., 2012). The species is known from what is thought to be parts of the same individual IVPP V 8922, including a maxilla, mandibles, carpals, and phalanges (Qi, 1990a). However, Qiu and Wang (2007) doubted the association of the specimens, and referred the maxilla to Caenolophus.

Two species of Ardynia have been reported from the Erlian Basin: A. praecox and A. kazachstanensis (Radinsky, 1967). Ardynia praecox is known from AMNH FM 26039, which is composed of a skull, a mandible, and a few postcranial elements. The specimens are known from the “Ulan Gochu beds” at Erden Obo, and the field number (field no. 747) indicates their stratigraphic horizon as the “Middle Gray layer” (Bai et al., 2018b). Ardynia kazachstanensis is known from a mandible (AMNH FM 26183) from the “Baron Sog beds” at Nom Khong Obo, and the horizon is equivalent to the “Upper White” (Radinsky, 1967; Wang, 2003).

Only one species of Proeggysodon, P. qiui, was unearthed from the upper part of the “Middle White” at Erden Obo (Bai and Wang, 2012). The species is known from a mandible with incisors, canine, and cheek teeth (IVPP V 18099), and the species is considered ancestral to the European Oligocene Eggysodon.

Three species of Pappaceras, P. confluens, P. minuta, and P. meiomenus, have been reported from the Erlian Basin (Wood, 1963; Lucas et al., 1981; Wang et al., 2016). Although Radinsky (1967) considered Pappaceras a junior synonym of Forstercooperia, the validity of Pappaceras has been supported by other authors (Qiu and Wang, 2007; Wang et al., 2016). The type of P. confluens (AMNH FM 26660) was recovered from the “Upper Gray clays” of the Arshanto Formation at Chaganboerhe. A referred mandible of P. confluens (AMNH FM 26666) was found in the Arshanto Formation at Huheboerhe. A left P2 of P. confluens (AMNH FM 26667) presumably derives from the Arshanto Formation in the Camp Margetts area.

The type of P. minuta (AMNH FM 26672) was found in the “Upper Gray clays” of the Arshanto Formation at Chaganboerhe (Lucas et al., 1981). The species also is known from the Arshanto Formation at Huheboerhe and Daoteyin Obo (Lucas et al., 1981; Wang et al., 2018). A nearly complete mandible of P. minuta (AMNH FM 26056) also was reported from the Shara Murun Formation (?), 6 mi east of Spring Camp at East Mesa.

The type of P. meiomenus is known from a nearly complete skull (IVPP V 20254), which was found in the upper part of the Arshanto Formation at Huheboerhe (fig. 2C) (Wang et al., 2016). Wang et al. (2018) further separated the original specimens of F. minuta into different groups (i.e., P. minuta, P. meiomenus, and P. sp.) mainly based on the presence or absence of p1.

Two species of Forstercooperia, F. totadentata and F. ulanshirehensis, have been reported from the Erlian Basin (Wood, 1938; Wang et al., 2018). Forstercooperia totadentata (AMNH FM 20116) was discovered in the Irdin Manha Formation at Irdin Manha. Recently, Wang et al. (2018) reported a new species F. ulanshirehensis from the Ulan Shireh Formation at Wulanhuxiu and Wulantaolegai, as well as from the Irdin Manha Formation at Irdin Manha. Forstercooperia ulanshirehensis is known from a nearly complete skull, mandibles, and some fragmentary maxillae. Wang et al. (2018) further considered “Forstercooperia” huhebulakensis, erected by Qi (1987), to be a junior synonym of Pappaceras confluens.

Two species of Juxia, J. sharamurenensis and J. shoui, have been reported from the Erlian Basin (Chow and Chiu, 1964; Qi and Zhou, 1989; Qiu and Wang, 2007). Juxia sharamurenensis, known from a nearly complete skeleton (IVPP V 2891), was discovered in the Shara Murun Formation at Ula Usu (fig. 2D). Additional specimens housed at the American Museum of Natural History were referred to J. sharamurenensis (Radinsky, 1967), but they have not been studied in detail. Those specimens include: skeletal material (AMNH FM 20286–20288) from the Shara Murun Formation at Ula Usu, a mandible (AMNH FM 26753) from the base of “Lower Gray” at Erden Obo, and a mandible (AMNH FM 26750) from the “Shara Murun Formation” at Twin Obos.

Juxia shoui, known from a fragmentary skull with C-M2 (IVPP V 8757) and a lunar (IVPP V 3268), was recorded from the “Ulan Gochu Formation” at Erden Obo (Qi and Zhou, 1989). The lunar was discovered in the “Lower White” where the skull (V 8757) presumably was also found.

Two species of Urtinotherium, U. intermedium and U. parvum, have been reported from the Erlian Basin (Chow and Qiu, 1963; Qiu and Wang, 2007). The type of U. intermedium (IVPP V 2769) was recovered from the “Middle Gray” at Erden Obo. Qiu and Wang (2007) referred a radius (AMNH FM 26062) to U. intermedium from the same horizon and locality. Qiu and Wang (2007) also referred a mandible (AMNH FM 26032) from the “Ulan Gochu Formation” at Jhama Obo to the species, and the specimen was initially assigned to “Indricotherium” parvum by Radinsky (1967). Urtinotherium intermedium is also known from an atlas (AMNH FM 26390) and a right Mc III (AMNH FM 26389) from the “Houldjin Formation” at Huheboerhe and Camp Margetts, respectively. Qiu and Wang (2007) further considered “Dzungariotherium erdenensis” (IVPP V 8803) from the “Ulan Gochu Formation” at Erden Obo (Qi, 1989) to be a synonym of U. intermedium. However, its specific horizon remains unclear.

Urtinotherium parvum is known from a maxilla with P1-M3 (EMM 0146) from the “Lower White” at Erden Obo, and a few postcranial specimens (AMNH FM 26190) from the “Baron Sog beds” at Jhama Obo.

Only one species of Paraceratherium, P. grangeri, has been reported from the Erlian Basin (Qiu and Wang, 2007). The following specimens were assigned to the species: AMNH FM 26166 and 26179 from the “Baluchitheres bed” (= “Upper White”) at Erden Obo and AMNH FM 26387 from the “Houdljin gravels” at Daoteyin Obo (Qiu and Wang, 2007).

Qiu and Wang (2007) assigned some dental and postcranial material (e.g., EMM 0016) to Aralotherium sp. from the type Houdljin Formation near Erlian Hot.

Only one species of Rostriamynodon, R. grangeri (fig. 2E), is known from the “Irdin Manha Formation,” 2 mi east of Camp Margetts (Wall and Manning, 1986). The species is known from a complete skull and mandible (AMNH FM 107635), and likely was unearthed from the Irdin Manha Formation, rather than the Arshanto Formation (Bai et al., 2017). Rostriamynodon grangeri was considered to be a primitive member of the amynodontids (Wall and Manning, 1986).

Two species of Caenolophus, C. promissus and C. obliquus, have been named from the Shara Murun Formation at Ula Usu (Matthew and Granger, 1925b; Radinsky, 1967). Caenolophus promissus is known from a maxilla with P3-M3 (AMNH FM 20297) and a mandible with m1–2 (AMNH FM 20304) (Matthew and Granger, 1925b). Caenolophus obliquus is known from a maxilla with DP3-DP4, P3-M2 (AMNH FM 20296) (Matthew and Granger, 1925b). Caenolophus was originally assigned to the Hyracodontidae (Matthew and Granger, 1925b), but Radinsky (1967) suggested its affinity with the amynodontids.

Osborn (1936) briefly described a nearly complete skeleton of “Amynodon” monogoliensis (AMNH FM 20278) from the Shara Murun Formation at Ula Usu (fig. 2F). Kretzoi (1942) considered the species as a new genus, Sharamynodon. Xu (1966) reported additional material of the species from the same horizon and locality. Wall (1981) also referred a partial skeleton (AMNH FM 21601) to the species from the Shara Murun Formation (gray beds), 4 mi north of Baron Sog Lamasery.

Only one species of Sianodon, S. ulausuensis, has been reported from the Shara Murun Formation at Ula Usu (Xu, 1966). The species is known from a nearly complete skull (IVPP V 3215). Sianodon ulausuensis is more primitive than S. bahoensis in having a relatively longer facial part and three upper incisors. Xu (1966) also assigned a maxilla with M2–3 (IVPP V 3221) to Sianodon sp. from the same horizon and locality.

Only one species of Lushiamynodon, L. sharamurenensis, has been reported from the Shara Murun Formation at Ula Usu (Xu, 1966). The species is known from an incomplete juvenile cranium with DP1-M1 (IVPP V 2892), a juvenile mandible (IVPP V 2892.1), a posterior part of the cranium (IVPP V 2892.2), and some postcraninal material (Xu, 1966). A mandible with m2–3 (IVPP V 3217) of L. sharamurenensis also has been reported from the “same horizon” at “Ulan Shireh Obo,” which was situated about 30 km northeast of Ula Usu. The so-called “Ulan Shireh Obo” (= Ulan Shireh) is located in the North Mesa, north of Tukhum Sumu, with the deposits of Ulan Shireh Formation roughly equivalent to the Irdin Manha Formation (Chow and Rozhdestvensky, 1960; Wang et al., 2012).

Only one species of Gigantamynodon, G. promisus, has been reported from the Shara Murun Formation at Ula Usu (Xu, 1966). The species is known from a mandible with p2-m3 (IVPP V 3218) and many postcranial specimens (IVPP V 3218.1-28). However, Wall (1989) considered Gigantamynodon a nomen dubium (Lucas and Emry, 1996; Lucas et al., 1996).

Two species of Cadurcodon, C. matthewi and C. houldjinensis, have been reported from the Erlian Basin (Wall, 1981; Wang et al., 2009). The type species of Cadurcodon matthewi (AMNH FM 26029) was found in the “Ulan Gochu beds” at Jhama Obo (Wall, 1981). Cadurcodon matthewi is considered to be more primitive than C. ardynensis (Wall, 1981). Cadurcodon houldjinensis, known mainly from isolated teeth (e.g., EMM 0126), was discovered from the Houldjin Formation at Houldjin and near the Erenhot Railway Station (Wang et al., 2009). Wang et al. (2009) considered that three specimens of “Cadurcotherium” sp. (AMNH FM 19183, field no. 36) from the Houldjin Formation, 5 mi south of Iren Dabasu (Matthew and Granger, 1923a) should be assigned to C. houldjinensis (m2) or C. ardynensis (P4 and M1/2).

Xu (1966) referred a maxilla with P2–3 (IVPP V 3222), a right m1 (IVPP V 3222.1), and a canine (IVPP V 3222.2) to Cadurcodon sp. from the Urtyn Obo Formation at Urtyn Obo (= Erden Obo). However, their specific stratigraphic horizons are uncertain.

Two species of Amynodontopsis, A. parvidens and A. tholos, were named by Wall (1981) from the Erlian Basin. The type of A. parvidens, known from a skull and mandible (AMNH FM 26043), was collected from the top of the “Lower White” at Erden Obo. Wall (1981) recognized two different sizes of the species: the small-size group includes AMNH FM 26045, 26046, and 26050; and the large-size group includes AMNH FM 26041, 26042, 26043, and 26051. He attributed the size differences to sexual dimorphism, because all the specimens were collected from the base of the “Middle Red” at Erden Obo, with the exception of AMNH FM 26046 that was recorded from the “Middle Red” bed and AMNH FM 26043 from top of the “Lower White” at Erden Obo. Wall (1981) also referred AMNH FM 26044 from the base of “Middle Red” at Erden Obo to A. parvidens. The species also is known from the following horizons and localities: AMNH 21599 from the base of upper red bed (Ulan Gochu Formation) 4 mi north of Baron Sog Lamasery; AMNH FM 26053 from the “Ulan Gochu beds” at Nom Khong Obo; AMNH 26178 possibly from the “Baron Sog bed” south of Jhama Obo; and AMNH FM 26038 from the “Ulan Gochu Formation” at Jhama Obo (Wall, 1981).

The holotype of Amynodontopsis tholos, comprising a skull and a lower jaw (AMNH FM 26035), was collected from the top of gray beds (= “Ulan Gochu”) at Ulan Shireh Obo (= Ganggan Obo on East Mesa) (Wall, 1981). The distribution of the species also includes the “Ulan Gochu beds,” south of Jhama Obo (AMNH FM 26031), and the “Lower White or Gray (pink)” at Nom Khong Obo (AMNH FM 26054, 26055, and 26057). Wall (1981) assigned a mandible (AMNH FM 26053, field no. 786) to A. tholos. However, it contradicts the fact that the specimen is also listed as A. parvidens, as discussed above. The specific stratigraphic horizon where AMNH FM 26053 was collected is uncertain, and is probably below the “Upper Red” bed.

Lucas et al. (1996) referred some CAE specimens to Z. borisovi from the Erlian Basin. The species is known from the “Middle White” (AMNH FM 26052, 26049) at Erden Obo, the Baron Sog Formation at Baron Sog Mesa (AMNH FM 21602), the “Ulan Gochu beds” at Ulan Shireh Obo (= Ganggan Obo) (AMNH FM 26034), and the “Houldjin gravels” at Camp Margetts. Lucas et al. (1996) further referred a symphysis with i2 and c (AMNH FM 26170) to Z. borisovi from the “Baron Sog Formation” at Erden Obo.

Only one species of Aprotodon, A. lanzhouensis, has been reported from the Houldjin Formation near the Erenhot Railway Station (Wang et al., 2009). The specimens consist of i2 (EMM 0082) and some cheek teeth (e.g., EMM 0079), and are characterized by extremely long and curved lower tusks (Wang et al., 2009).

Wang et al. (2009) referred a mandible with m2–3 (EMM 0123) and M1/2 (EMM 0078) to Symphysorrhachis sp. from the Houldjin Formation near the Erenhot Railway Station. Wang et al. (2009) further assigned an M3 (AMNH FM 19184) from Houldjin, originally referred to Caenopus or Praeaceratherium sp. by Matthew and Granger (1923a), to Symphysorrhachis sp.

Two species of Microtitan, M. mongoliensis and M.? elongatus, have been reported from the Ulan Shireh Formation at North Mesa and the Arshanto Formation at Daoteyin Obo, respectively (Granger and Gregory, 1943; Qi, 1987). Microtitan mongoliensis is known from a mandible with p2-m3 (AMNH FM 22099) and a maxilla with C-M3 (AMNH FM 21611). Microtitan mongoliensis initially was assigned to “Metarhinus?” by Osborn (1925) based a fragmentary mandible with p4-m1 (AMNH FM 20167), lacking diagnostic characters except for its small size. AMNH FM 20167 was discovered in the Irdin Manha Formation on the Irdin Manha escarpment (Osborn, 1925). Later, Granger and Gregory (1943) erected a new genus Microtitan for “Metarhi nus?” mongoliensis and selected AMNH FM 22099 as a neotype. Mihlbachler (2008) further pointed out that AMNH FM 20167 actually was made up of multiple individuals.

Microtitan? elongatus was erected by Qi (1987) based on P3-M3 (IVPP V 5767) from the Arshanto Formation at Daoteyin Obo. However, Mihlbachler (2008) considered the species a nomen dubium. Qi (1987) further referred a M2 (IVPP V 5768) to Microtitan sp. from the Arshanto Formation at Huheboerhe. It is noteworthy that, based on our fieldwork over the past decade, no brontotheres have been found in the Arshanto Formation in the Huheboerhe area. Consequently, the horizon bearing Microtitan? elongatus and Desmatotitan sp. (as discussed below) recorded as the Arshanto Formations is questionable.

Only one species of Desmatotitan, D. tukhumensis, has been reported from the Ulan Shireh Formation at Wulantaolegai (Granger and Gregory, 1943). The species is known only from the type AMNH FM 21606, which is composed of a mandible with i1-c and p2-m3. Desmatotitan tukhumensis is probably allied either with Metatelmatherium or Microtitan mongoliensis (Granger and Gregory, 1943; Mihlbachler, 2008).

Qi (1987) referred a single m3 (IVPP V 5769) to Desmatotitan sp. from the upper part of Arshanto Formation at Huheboerhe.

Ye (1983) erected a new genus and species Acrotitan ulanshirehensis from the Ulan Shireh Formation at Wulanhuxiu. The species is known from a fragmentary mandible with p3–4 (IVPP V 6686), and is characterized by two pairs of lower incisors (Mihlbachler, 2008).

Only one species of Epimanteoceras, E. formosus, has been reported from the Ulan Shireh Formation at Wulantaolegai (Granger and Gregory, 1943; Mihlbachler, 2008). The type of E. formosus is known from a complete skull with complete dentition (AMNH FM 21613). Granger and Gregory (1943) erected a new genus and species Dolichorhinoides angustidens based on a partial skull with P1-M3 (AMNH FM 21607) from the Ulan Shireh Formation at Wulanhuxiu. However, Mihlbachler (2008) considered the species a junior synonym of E. formosus.

Only one species of Hyotitan, H. thomsoni, was discovered in the Erlian Basin. The type of H. thomsoni, known from a mandible (AMNH FM 26401), was collected from the “Houldjin gravels” at Camp Margetts. However, Mihlbachler (2008) proposed that H. thomsoni could be a synonym of Qufutitian zhoui.

Two species of Metatelmatherium, M. ultimum and M. parvum, have been reported from the Erlian Basin. Granger and Gregory (1943) erected a new species Metatelmatherium crista tum based on a skull and mandible (AMNH FM 26411) from the “Irdin Manha Formation” at Camp Margetts. Mihlbachler (2008) considered M. cristatum a junior synonym of the Uintan M. ultimum from North America, but Mader (1989, 1998) regarded them as two different species. Furthermore, Bai et al. (2017) pointed out that the horizon bearing AMNH FM 26411 is actually in the Irdin Manha rather than the Arshanto Formation. Metatelmatherium parvum, known from a fragmentary mandible with p3–4 (AMNH FM 20168), was found in the Irdin Manha Formation at Irdin Manha (Granger and Gregory, 1943). However, Mihlbachler (2008) considered the species a nomen dubium because it lacks diagnostic characters.

The genus Protitan was erected by Granger and Gregory (1943) and originally included six species: P. grangeri, P. robustus, P. minor, P. bellus, P. obliquidens, and P.? cingulatus. Granger and Gregory (1943) further considered Dolichorhinus olseni and “Manteoceras?” irdinensis named by Osborn (1925) as junior synonyms of P. grangeri. However, Mihlbachler (2008) synonymized P. robustus, P. bellus, and P. obliquidens with P. grangeri, and considered P.? cingulatus a nomen dubium. Thus, according to the revision by Mihlbachler (2008), only two species of Protitan, P. grangeri and P. minor, are valid species.

The type of Protitan grangeri, known from a complete skull and mandible (AMNH FM 20103), is from the Irdin Manha Formation at Irdin Manha (fig. 2G). The species is also known from the following horizons and localities: Irdin Manha Formation at Irdin Manha (AMNH FM 19179, 20104 [holotype of P. “robustus], 20108, 20109 [holotype of “Dolichorhinus olseni”], 20111 [holotype of “Manteoceras? irdinensis”], 20112–20114, 20119, 20120, 20123, 20125 [holotype of P. “obliquidens”], and 20126); “Houldjin gravels” at Camp Margetts (AMNH FM 26421); and “lower red bed” at Spring Camp of East Mesa, Shara Murun region (AMNH FM 26104 [holotype of P. bellus]).

The type of Protitan minor, a skull (AMNH FM 26416), probably is from the top of “Irdin Manha” at 0.5 mi west of Camp Margetts. Mihlbachler (2008) also referred a partial skull (AMNH FM 26417) to P. minor from “?Irdin Manha beds,” 1 mi west of Camp Margetts. However, Bai et al. (2017) have pointed out that the horizon bearing AMNH FM 26416 is indeed within the Irdin Manha Formation.

Four mandibles (AMNH FM 26410, 26415, 26418, and 26408) initially assigned to P. minor or P. grangeri were considered to represent a new species (Camp Margetts “taxa A”) by Mihlbachler (2008). These specimens derive from the “Houldjin gravels” or “Irdin Manha beds” in the Camp Margetts area.

The type of “Protitan?” cingulatus, composed of a mandible with p1-m3 (AMNH FM 26412), was unearthed from the “Houldjin gravels” at Chaganboerhe. Mihlbachler (2008) also referred AMNH FM 26403 from the “Houldjin gravels” at Camp Margetts and AMNH FM 20110 from the Irdin Manha Formation at Irdin Manha to the species.

Qi et al. (1992) referred a single m3 and some postcrania (IVPP V 10104) to Protitan sp. from the so-called “Tukhum Formation” at Erden Obo. However, the horizon is equivalent to the “Low Red” bed.

Only one species of Gnathotitan, G. berkeyi, has been reported from the Erlian Basin (Granger and Gregory, 1943; Mihlbachler, 2008). Gnathotitan berkeyi was assigned initially to Telmatherium by Osborn (1925), and later Granger and Gregory (1943) erected the genus Gnathotitan for the species. The species is characterized by its disproportionately large and deep mandible (Mihlbachler, 2008). The type of G. berkeyi is known from a mandible with c-m3 (AMNH FM 20106) from the Irdin Manha Formation at Irdin Manha. Mihlbachler (2008) also referred the following specimens to G. berkeyi from the Irdin Manha Formation at Irdin Manha: AMNH FM 20107, 20115, 20121, and 141231 (formerly part of AMNH FM 20106). As noted by Mihlbachler (2008), two specimens (AMNH FM 20124, 20127) originally referred to G. berkeyi by Osborn (1925) were sent to the Chinese Geological Survey in October 1928 and are unfortunately lost. Both specimens were from the Irdin Manha Formation at Irdin Manha.

Two species of Rhinotitan, R. kaiseni and R. andrewsi, have been recognized from the Shara Murun Formation at Ula Usu (Granger and Gregory, 1943; Wang, 1982; Mihlbachler, 2008). Osborn (1923b, 1925) named three new brontothere species from Ula Usu: Protitanotherium mongoliensis, Protitanotherium andrewsi, and Dolichorhinus kaiseni, but Granger and Gregory (1943) later erected a new genus Rhinotitan for these three species. Wang (1982) further considered R. andrewsi as a junior synonym of R. mongoliensis (Takai, 1939). However, Mihlbachler (2008) treated R. mongoliensis as a nomen dubium.

The type of R. kaiseni, known from a skull and mandible (AMNH FM 20252), was unearthed from the Shara Murun Formation at Ula Usu. AMNH FM 20257 and FMNH P 14048 (formerly AMNH FM 20260) were referred to R. kaiseni from the same horizon and locality. The type of R. andrewsi, known from a skull (AMNH FM 20271), is from the Shara Murun Formation at Ula Usu. AMNH FM 20254, 20261, 20263, IVPP V 3254-1, 3254-2, PIN 2198-3, 2198-5, and 7130-3 have been assigned to R. andrewsi from the same horizon and locality as the holotype. Mihlbachler (2008) further referred many specimens to Rhinotitan sp. from the Shara Murun Formation at Ula Usu, 4 mi north of Baron Sog Lamasery.

Only one species of Pachytitan, P. ajax (AMNH FM 21612), is known from the Shara Murun Formation (gray beds), 4 mi north of Baron Sog Lamasery in the Shara Murun region (Granger and Gregory, 1943; Mihlbachler, 2008). AMNH FM 21612 is a fragmentary skull with left I3, C, and P2-M3. Pachytitan ajax is very close to Rhinotitan, but is more advanced than the latter in having more molarized premolars that resemble those of Embolotherium or Parabrontops from the Erlian Basin (Granger and Gregory, 1943; Mihlbachler, 2008). Cranially, Pachytitan most resemble Rhinotitan andrewsi and Diplacodon elatus (Mihlbachler, 2008).

Granger and Gregory (1943) erected a new genus, Titanodectes, comprising T. minor and T. ingens, from the Erlian Basin. However, Mihlbachler (2008) considered both of them syn onymous with Embolotherium grangeri. Considering that the horizons and localities bearing Titanodectes and Embolotherium are different, and that none of the reliable lower dentition of E. grangeri has been reported, we still regard Titanodectes as a valid genus. The type of T. minor, known from an incomplete mandible with front teeth and p2-m1 (AMNH FM 26132), is from the “Shara Murun Formation” at Spring Camp in the East Mesa. Granger and Gregory (1943) further referred AMNH FM 26021 from the “Lower White” of Erden Obo, AMNH FM 26012 from the “Ulan Gochu beds” at Twin Obos, and AMNH FM 21600 from the Shara Murun Formation (gray beds), 4 mi north of Baron Sog Lamasery to the species. However, Mihlbachler (2008) referred AMNH FM 26021 to Parabrontops cf. P. gobiensis. The type of Titanodectes ingens, known from a mandible (AMNH FM 26005), is from the “Ulan Gochu beds” at Jhama Obo. Titanodectes is considered to be in certain respects intermediate between Rhinotitan and Embolotherium (Granger and Gregory, 1943; Mihlbachler, 2008).

Osborn (1929) erected a new genus, Embolotherium, which includes E. andrewsi, E. grangeri, and E. loucksii, from the Shara Murun region and Erden Obo. Embolotherium is characterized by its large, upward extended nasal horns (Osborn, 1929). Granger and Gregory (1943) further named a new species E. ultimum from the Baron Sog Mesa. However, Mihlbachler (2008) considered E. ultimum and E. loucksii as a junior synonyms of E. andrewsi and E. grangeri, respectively. Thus, only two species of Embolotherium are recognized as valid.

The type of Embolotherium grangeri, known from a complete skull (AMNH FM 26002), is from the base of “Middle Red” at Erden Obo (Osborn, 1929). Mihlbachler (2008) referred following specimens to E. andrewsi from the Erlian Basin: AMNH FM 26004 from the base of “Middle Red” layer at Erden Obo; AMNH FM 26040 from the base of “Ulan Gochu beds” at Twin Obos; AMNH FM 21610 (holotype of E. louksii) from the base of Ulan Gochu Formation, 4 mi north of Baron Sog Lamasery; and AMNH FM 26018 from the surface of a plain, 2 mi south of Baron Sog Lamasery.

The type of Embolotherium andrewsi, known from a nearly complete skull (AMNH FM 26001), is from the “Middle White” layer at Erden Obo (fig. 2H) (Osborn, 1929). Mihlbachler (2008) referred the following specimens to E. andrewsi from the Erlian Basin: those largely from the “Middle White” layer at Erden Obo (AMNH FM 26003, 26000 (presented to the Chinese Geological Survey Museum), 26011, 26006–26008, and IVPP V 11959); those from the “Ulan Gochu Formation” at Jhama Obo (AMNH FM 26009 and 26010); those from East Mesa (PIN 2200-1 and 2200-2); and those from the Baron Sog Formation at Baron Sog Mesa (AMNH FM 21604 [holotype of E. ultimum] and AMNH FM 22114). AMNH FM 20352 actually is from the Ardyn Obo Beds at Ardyn Obo (field no. 245), instead of the “Ulan Gochu Formation” at Erden Obo as mentioned by Mihlbachler (2008).

Only one species of Parabrontops, P. gobiensis, has been reported from the Erlian Basin (Osborn, 1925; Granger and Gregory, 1943). The species P. gobiensis was initially assigned to Brontops by Osborn (1925). The type of the species, known from a distorted skull (AMNH FM 20354), is from the Ardyn Obo beds at Ardyn Obo (field no. 253) (Osborn, 1925; Granger and Gregory, 1943), rather than the Urtyn Obo Formation at Urtyn Obo as mentioned by Mihlbachler (2008). In detail, the locality 253 is situated “near trail, 1 mi northwest of Obo point.” AMNH FM 26020, known from a partial skull, was unequivocally referred to P. gobiensis (Granger and Gregory, 1943; Mihlbachler, 2008) and is from the “Middle White” layer at Erden Obo. Mihlbachler (2008) referred the following specimens to Parabrontops cf. P. gobiensis: AMNH FM 26019 (“Middle White” layer, Erden Obo); AMNH FM 26021 (“Lower Gray” layer, Erden Obo); and AMNH FM 26131 (“Shara Murun beds,” Spring Camp). However, Granger and Gregory (1943) assigned AMNH FM 26021 to Titanodectes minor as discussed above.

Granger and Gregory (1943) named three species within a new genus Metatitan: M. primus, M. progressus, and M. relictus. However, Mihlbachler (2008) erected a new genus, Nasamplus, for M. progressus, and thus only two species are included in Metatitan.

The type of Metatitan primus, known from a partial skull and mandible (AMNH FM 26101), was discovered at Big Red Draw, 1 mi southwest of Chimney Butte Camp at North Mesa. The horizon bearing AMNH FM 26101 is probably equivalent to the Ulan Shireh Formation at Wulanhuxiu. Mihlbachler (2008) further referred a mandible (AMNH FM 26102) to the species from the middle of the upper red beds at the northwest promontory, 1 mi northwest of Chimney Butte Camp.

The type of Metatitan relictus, known from a skull and mandible (AMNH FM 26391), is from the “Houldjin gravels,” 1 mi west of Camp Margetts. Metatitan is considered to be derived from Rhinotitan and to bridge the morphological gap between Embolotherium and most other horned brontotheres with the paired frontonasal horns (Granger and Gregory, 1943). The following specimens from the “Houldjin gravels” in the Camp Margetts area are referred to M. relictus (Granger and Gregory, 1943; Mihlbachler, 2008): AMNH FM 26395–26399; AMNH FM 26402; 26404–26407; 26420; 26427; and 26429. Mihlbachler (2008) further proposed that AMNH FM 26400, originally assigned to Metatitan relictus (Granger and Gregory, 1943), probably represents a new species (Camp Margetts “taxa B”). AMNH FM 26400 is from the “Houldjin gravels,” 1 mi west of Camp Margetts.

Wang et al. (2009) referred a maxilla with P1–3 (IVPP V 15714) and several isolated lower teeth to Metatitan sp. from the Houldjin Formation at Houldjin and near Erenhot Railway Station.

The genus Nasamplus was erected by Mihlbachler (2008) for “Metatitan” progressus (Granger and Gregory, 1943). The type species, known from a fragmentary skull (AMNH FM 26014), is from the “Ulan Gochu beds” at Jhama Obo.

Only one species of Litolophus, L. gobiensis, is known from the basin (Colbert, 1934; Radinsky, 1964b; Bai et al., 2010). Colbert (1934) erected a new species “Grangeria” gobiensis, and later Radinsky (1964b) proposed the new genus Litolophus for the species. The type of L. gobiensis, known from a crushed skull and mandible (AMNH FM 26645), is from the base of the Arshanto Formation at Nuhetingboerhe. Other referred specimens were collected from the same horizon and locality. Recently, many cranial and postcranial specimens have been collected from the “chalicothere pit” (Bai et al., 2011a; Bai et al., 2011b) at the same horizon and locality as CAE Litolophus collections.

Coombs (1978) referred AMNH FM 26061 and AMNH FM 103336 to Schizotherium cf. S. avitum from Erden Obo. The right maxilla with P2-M3 (AMNH FM 26061), in association with left maxilla with P3–4 and M2–3, is composed of two parts: an anterior part with P2–3 recorded from the “Ulan Gochu beds” (probably the “Upper Red”), and a posterior part with P4-M3 found from the “Middle White” (Coombs, 1978). This discrepancy may be the result of drift of weathered-out material down the steep slopes (Radinsky, 1964a; Coombs, 1978). A left mandible with p4-m2 (AMNH FM 103336) was found in the “Baron Sog bed” (= “Upper White”) at Erden Obo (Coombs, 1978). In addition, Colbert (1934) assigned a Mc III (AMNH FM 26188) to Schizotherium sp., and noted that the specimen was presumably from the “Baron Sog beds” at Nom Khong Shireh. Actually, AMNH FM 26188 is recorded as coming from “?Baron Sog beds” at Erden Obo (Wang, 2003).