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New Hipparionine (Perissodactyla) Fossils from Potwar Plateau of Pakistan

PJZ_49_5_1693-1700

 

 

New Hipparionine (Perissodactyla) Fossils from Potwar Plateau of Pakistan

Muhammad Hanif1,*, Naureen Rana1, Muhammad Akbar Khan2, Muhammad Javed1 and Muhammad Sajjad Khan1

1Department of Zoology, Wildlife and Fisheries, University of Agriculture, Faisalabad, Pakistan

2Dr. Abu Bakr Fossil Display and Research Center, Department of Zoology, University of the Punjab, Lahore, Pakistan

ABSTRACT

New dental material of hipparionines from the Middle Siwalik deposits of district Attock, Potwar Plateau, Punjab, Pakistan has been described. The fossiliferous sites, Dhok Mila of Nagri Formation (early Late Miocene) and Kaulial Kas of Dhok Pathan Formation (Late Miocene – Early Pliocene) are located in district Attock, Punjab, Pakistan. The recovered material comprises isolated premolars and molars. The identified species of hipparionines include Hipparion sp. small, Cormohipparion sp., Sivalhippus cf. nagriensis, and Sivalhippus cf. theobaldi. These specimens provide additional information about the recorded species and contribute to recent work of Perissodactyla from the Middle Siwalik Hills of Pakistan.


Article Information

Received 04 February 2017

Revised 03 March 2017

Accepted 23 March 2017

Available online 30 Auggust 2017

Authors’ Contribution

MAK presented the concept and designed the study. MH collected data. NR, MJ and MSK analyzed and interpreted the data. MH and NR prepared the draft of the manuscript.

Key words

Hipparionine, Sivalhippus, Dhok Pathan, Perissodactyla fossils.

DOI: http://dx.doi.org/10.17582/journal.pjz/2017.49.5.1693.1700

* Corresponding author: [email protected]

0030-9923/2017/0005-1693 $ 9.00/0

Copyright 2017 Zoological Society of Pakistan



Introduction

 

During the course of Early Miocene through Late Pliocene, prehistoric rivers accumulated the deposits in the form of Siwalik formations of northern Pakistan (Barry et al., 1985; Flynn et al., 1990; Badgley and Behrensmeyer, 1995). The Mio-Pliocene strata have traditionally been divided into Kamlial, Chinji, Nagri, and Dhok Pathan formations. In all of these formations, exposures typically consist of gently tilted strata that form shallow strike-valleys and higher ridges as the surface expression of the large structural synclinorium underlying the Potwar Plateau. The valleys are formed by more simply eroded floodplain siltstones and mudstones, while the edges or ridges are formed by laterally extensive channel sandstones (Willis and Behrensmeyer, 1994).

The Khaur region, located in the north-central Potwar includes Kaulial Kas, Malhuwala, Dinga, Ganda, Ratha and Dhok Mila (Barry et al., 1980). The Kaulial Kas, in particular, was a focal area for pinning down the level of first appearance of a big bovid. The surveyed portion of the Kaulial Kas section consists of about 2100 m (6930 feet) spanning the time interval from 10.9 to about 7.1 Ma and is one of the few areas in the northern Potwar where the later part of this interval is well enough exposed to produce a reasonable fossil record. In both the Khaur and Chinji areas this approach also was used to define the “Hipparion” appearance level, and the resulting data support the assertion that equids do not occur lower than this level (Barry et al., 2002; Wolf et al., 2013).

The hipparionine material has been recovered from the Dhok Mila village of the Nagri Formation (early Late Miocene) and the Kaulial village of the Dhok Pathan Formation of the Middle Siwalik Subgroup (Fig. 1). These villages are situated in the Attock district, Punjab, Pakistan, comprising the outcrops of Late Miocene – Early Pliocene, date to 10.1-3.4 Ma (Barry et al., 2002). The sediments exhibit an excellent development of cyclic deposition of clay, shale and sandstones (Pilbeam et al., 1977). The clays are orange-brown in color (Pilbeam et al., 1977; Barry et al., 2002).

We present here in situ hipparionine fossils from Late Miocene – Early Pliocene localities of the Siwalik Group and provide evidence of the presence of four species of the Siwalik hipparionine.

 

Materials and methods

 

Various field visits were made for the fossil collection. The hipparionine fossils were collected carefully from the fossilized locations of the Kulial Kas. The identifiable fossils from the gross collection were catalogued and nominated for the taxonomic study. The fossils were thoroughly washed and cleaned in the laboratory with the help of fine needles and brushes and prepared for the study.

 

Damaged parts of the fossils were assembled with some kinds of gums (resins) such as elfy, elite, fixin, araldite and magic stone. The specimens inventory number consists of a yearly catalogue number and serially catalogue number, so numbers on the specimen represent the collection year and the serial number of that year (e.g. PUPC 15/38). Upper case letters stand for upper dentition and lower case letters for lower dentition. The measurements were taken from occlusal surface of the teeth, including the cement and separately from the teeth belonging to different stages of wear.

Systematic Paleontology

Family Equidae Gray, 1821

Subfamily Equinae Steinmann and Doderlein, 1890

Genus Hipparion De Christol, 1832

Hipparion sp. small

New material: PUPC 16/283, partial left m3; PUPC 16/296, partial right m3.

Description

Both m3 are partially broken, having lost their hypoconulid (Fig. 2B). The molars are robust and slightly curved being concave anteriorly. The first lobe is higher than the second one. The molars are furnished by cement sparsely. The protoconid unites with metaconid, both being curved inward. Double knot structure is present.

Comparison and discussion

The most remarkable aspect of these molars that they are small in size. Probably, the molars do not support the earlier recorded species from the Siwaliks (Hussain, 1971; MacFadden and Woodburne, 1982; Bernor and Hussain, 1985; Bernor et al., 1996, 2010; Wolf et al., 2013). However, the material is insufficient for a conclusive taxonomic evaluation. The small size of the molars (Table I) can be referred to Hipparion sp. small from the Kulial Kas of the Siwaliks. The specific allocation of these small specimens is unclear owing to the poor data.

 

Table I.- The comparative measurements of the cheek teeth of Hipparion sp. small, Cormohipparion sp., Sivalhippus nagriensis and Sivalhippus theobaldi.

Taxa

Number

Position

Height

Length

Width

W/L

Hipparion sp. small

PUPC 16/283*

lm3

38.05

22.64

11.69

0.52

PUPC 16/296*

rm3

45.16

29.93

9.330

0.31

YGSP15462

rm3

-

25.60

11.50

0.45

YGSP5816

lm3

-

25.50

11.70

0.46

 

YGSP15462

rm3

-

25.60

11.50

0.45

 

YGSP48416

lm3

-

28.80

12.00

0.42

Cormohipparion sp.

PUPC 16/280*

rM

47.42

27.94

-

-

PUPC 16/351*

rM3

45.72

23.72

23.49

0.99

PUPC 16/297*

lm

31.24

23.43

12.56

0.54

PUPC 16/281*

rm1

45.60

24.51

12.92

0.53

PUPC 16/293*

lm2

38.23

24.81

12.36

0.50

PUPC 16/285*

rm3

36.92

29.82

11.56

0.39

 

YGSP20151

rM3

-

21.30

14.50

0.68

 

YGSP15998

lM3

-

-

18.80

-

 

YGSP16620

rM3

-

22.20

15.20

0.68

 

YGSP27728

rm2

-

21.30

12.20

0.57

 

YGSP46336

rm3

-

26.00

11.60

0.45

Sivalhippus nagriensis

PUPC 16/276*

lP2

39.45

35.78

25.36

0.71

PUPC 16/273*

rM1

33.47

28.05

25.84

0.92

PUPC 16/287*

rM1

44.92

26.30

27.36

1.04

PUPC 16/282*

rp3

49.59

17.90

20.38

1.14

 

PUPC 16/290*

lp4

44.51

27.51

17.67

0.64

 

PUPC 16/295*

lp4

51.85

26.33

16.88

0.64

 

YGSP46510

lP2

-

35.30

25.40

0.72

 

YGSP16743

lP2

-

36.10

24.60

0.68

 

YGSP14757

rP2

-

35.80

25.20

0.70

 

YGSP14847

lM1

-

24.50

25.50

1.04

 

YGSP15786

lM1

-

25.80

22.90

0.89

 

YGSP5733

lM1

-

25.70

24.70

0.96

 

YGSP49548

lp3

-

28.80

15.50

0.54

 

YGSP46719

rp3

-

27.60

17.30

0.63

 

YGSP50677

lp4

-

25.80

16.10

0.62

 

YGSP16384

lp4

-

27.30

15.60

0.57

 

YGSP8910

rp4

-

28.80

16.40

0.57

Sivalhippus theobaldi

PUPC 16/275*

lP2

24.76

29.10

23.61

0.81

PUPC 16/289*

rP4

59.17

29.25

26.66

0.91

PUPC 16/278*

rP4

49.51

30.12

-

0.94

PUPC 16/272*

rP4

52.89

28.60

28.60

1.00

 

PUPC 16/288*

lP4

45.68

29.94

27.74

0.93

 

PUPC 16/279*

lM1

49.21

24.50

-

1.07

 

PUPC 16/277*

rM1

45.57

27.46

26.38

0.96

 

PUPC 16/274*

rM2

32.78

25.04

28.82

1.15

 

PUPC 16/294*

rM3

27.64

23.36

25.58

1.10

 

PUPC 83/284

P2

22.00

39.50

21.50

0.54

 

PUPC 83/498

P2

20.00

40.00

22.00

0.55

 

AMNH 19857

P2

-

32.00

26.50

0.83

 

AMNH19466

P2

-

38.50

26.00

0.68

 

GSI C 153

P2

-

38.50

26.00

0.68

 

 

P3

-

30.30

25.20

0.83

 

 

P4

-

30.00

24.00

0.80

 

AMNH 98728

P2

-

37.80

27.20

0.72

 

 

P3

-

32.10

29.20

0.91

 

 

P4

-

27.00

25.50

0.94

 

 

M1

-

25.80

26.40

1.02

 

 

M2

-

26.60

24.60

0.92

 

 

M3

-

25.60

20.50

0.80

Taxa

Number

Position

Height

Length

Width

W/L

Sivalhippus theobaldi

AMNH 19466

M1

-

26.00

26.00

1.00

 

 

M2

-

26.50

26.00

0.98

 

 

M3

-

24.00

22.00

0.92

 

AMNH 19857

M1

-

21.00

25.00

1.19

 

 

M2

-

21.00

25.00

1.19

 

 

M3

-

25.00

23.00

0.92

*The studied specimens. Referred data are taken from Colbert (1935), Ghaffar (2005), Khan et al., (2012) and Wolf et al. (2013).

 

 

Genus Cormohipparion Skinner and Macfadden, 1977

Cormohipparion sp.

New material: PUPC 16/280, partial right upper molar; PUPC 16/351, partial right M3; PUPC 16/297, partial left lower molar; PUPC 16/281, right m1; PUPC 16/293, partial left m2; PUPC 16/285, partial right m3.

Description

The protocone is elongate oval shaped in the upper molars (Fig. 2C). The plications are complex, especially opposing borders of the pre- and postfossettes. The plicabalin is bifid and in some specimens it is trifid. The molars represent partial cementation. The parastyle is heavy, the mesostyle is high and the metastyle is incipient. The hypoconal groove is narrow and much incised in the upper molars.

The lower molars represent double knot occlusally (Fig. 2D, E, F). The protostylid, mesostylid and metastylid are prominent. The metaflexid is broad marginally and narrow centrally. The entoflexid is longer and narrower than the metaflexid. The entoflexid is bifurcated in some molars. At the base of the hypoconid there is an indication of hypoplasia in PUPC 16/293. The molars are covered with cement labio-lingually.

Comparison and discussion

The upper cheek teeth reflect primitive features in having the deep incision of hypoglyph/hypoconal groove (until late wear) and the lower cheek teeth show primitive characters in having the round shape of the metaconid-metastylid and V-shaped linguaflexid. The size and morphology (Table I, Fig. 2C, D, E, F) of these teeth compare favorably with Sinap Cormohipparion sinapensis (Bernor et al., 2003). The advanced features include increasing crown height and shortening of the protocone with distinct lingual flattening associate them with the Bou Hanifia hipparion, “Cormohipparion” africanum, dated to 10.5 Ma (Bernor and White, 2009). However, the Siwalik material is limited, we cannot confirm these teeth to a particular species of the Old World Cormohipparion in the Siwaliks.

Sivalhippus Lydekker, 1887

Sivalhippus nagriensis Hussain, 1971

New material: PUPC 16/276, partial left P2; PUPC 16/273, right M1; PUPC 16/287, partial right M1; PUPC 16/282, right p3; PUPC 16/290, left p4; PUPC 16/295, partial left p4.

Description

The parastyle is pointed and elongated whereas accessory rib is faint in the P2 (Fig. 2G, H). The protocone is ovate: flat lingually and rounded labially. The plications are simple and prominent. The plicabalin is bifid. The prefossette is larger than the postfossette, having complex plications at its posterior border. The styles are prominent: parastyle heavy, mesostyle high and metastyle thin. The hypoglyph is open and less incised. The pli-protoconule is well-developed.

The parastylid is large and flanked in the lower premolar (Fig. 2I, J). The protostylid is united with the protoconid. The protoconid is slightly smaller than the hypoconid, which has crenulated border. The preflexid is much smaller and wider than the postflexid, which is narrow and have serrated border. A well-developed incised spur is present at the posterior border of the preflexid. The ectoflexid is much incised, isthmus is prominent. The hypocoulid is small in the m3. The cement is abundant labio-lingually.

Comparison and discussion

The specimens represent the characters of the Siwalik early hipparionine Sivalhippus nagriensis: anterostyle elongated in P2, increasing crown height of maxillary teeth with multiple plications on the posterior border of prefossette and the anterior border of postfossettes, bifid to trifid plicaballins, oval protocone flattened lingually and rounded labially, and hypoglyph deeply incised (Hussain, 1971; MacFadden and Woodburne, 1982; Bernor and Hussain, 1985; Wolf et al., 2013).

Hussain (1971) noted the general uniformity of the hipparionine specimens from the Nagri Formation of the Siwalik Group and applied the nomen Cormohipparion cf. nagriensis. Bernor and Hussain (1985) suggested that the holotype of S. nagriensis (BSPG 1956 II Hl5, given as BSM-Hl5, a single right Ml or M2) was too incomplete to be safely grouped with other. They recommended that this material be referred to Cormohipparion (Sivalhippus) sp. until more complete material could be retrieved from the type locality. Later on, many specimens were collected from the type locality, having dimension and morphology comparable to the holotype of S. nagriensis. Wolf et al. (2013) believe that most of the earlier Siwalik hipparionine material, collected from the type locality, can be confidently tied to the holotype, and we thus refer these specimens to Sivalhippus nagriensis (Table I, Fig. 2G, H, I, J). Morphologically, Sivalhippus nagriensis is similar co North American hipparions of the Cormohipparion occidentale complex (Woodburne, 2007) as well as several early Old World hipparions referred to as Cormohipparion (Bernor et al., 2003, 2010).

Sivalhippus theobaldi Lydekker, 1877

New material: PUPC 16/275, partial left P2; PUPC 16/289, partial right P4; PUPC 16/278, partial right P4; PUPC 16/272, right P4; PUPC 16/288, left P4; PUPC 16/279, partial upper M; PUPC 16/277, partial right M1; PUPC 16/274, partial right M2; PUPC 16/294, right M3.

Description

The anterostyle and accessory rib are broken in the P2 (Fig. 2K, L, M, N, O, P). The protocone is elongated and pointed anteriorly. The plications are not much complicated except the posterior border of the prefossette. The hypoglyph is less incised. The protocone is flattened lingually and rounded labially in the P4. The mesostyle is the highest one. The protocone is flat lingually and rounded labially in the molars. The plicabalin is trifid and simple. The protoconule is eye shaped. The prefossette is smaller than the post fossette. The anterior and posterior borders of the prefossette whereas the anterior border of the postfossette are plicated. The pliprotoconule, pliprotoloph, plipostfossette and plihypoloph are prominent. The hypoglyoh is well incised. An islet is present near the distal border of the hypoglyph.

Comparison and discussion

The protocone is flattened as compared to oval shape in Hipparion (Wolf et al., 2013). The pillar like isolated protocone of the studied specimens in the Siwaliks supports their inclusion in the genus Sivalhippus. Sivalhippus theobaldi is characterized in having the visible enamel foldings, less complex plications and large size. The difference of Sivalhippus theobaldi with other hipparionines includes the greater size of molars (Table I), which are more oblong and less square shape. The hypocone extends back to the posterior border of the teeth; a character represents Sivalhippus theobaldi. The enamel plications are relatively simple in Sivalhippus theobaldi (Lydekker, 1882; Colbert, 1935; Bernor et al., 1996).

The morphology (Fig. 2K, L, M, N, O, P) of the studied specimens reveals all the features of species Sivalhippus theobaldi as described by Lydekker (1882), Colbert (1935) and Ghaffar (2005). This species is characterized by the isolated, compressed and pillar like protocone and the molars are large. The enamel bordering of the fossettes are relatively simple. As indicated by measurements (Table I), the specimens are extremely hypsodont and show less complicated plications. According to Colbert (1935), it is heavy and large species. Therefore, the sample can be assigned to Sivalhippus theobaldi.

Sivalhippus theobaldi is a rare taxon in the Siwalik sequence. It is a difficult taxon to identify because the teeth are only slightly larger than S. nagriensis and S. perimensis when worn, and its relatively low maximum crown height is also not readily apparent in later wear stages. Sivalhippus theobaldi was reported by previous authors to be of Dhok Pathan age, the first certain stratigraphic occurrence demonstrated in the YGSP collection is between 9.290 and 9.159 Ma, the taxon is also present up to ca. 7.8 Ma. The latter appearance is more consistent with the assumed provenience of the holotype of S. theobaldi and the specimen AMNH 98728 near the Dhok Pathan Rest house (MacFadden and Woodburne, 1982). Morphologically, Sivalhippus theobaldi is certainly closest to S. nagriensis, and in fact is likely derived from that species (Wolf et al., 2013).

General Discussion

The earliest occurrence of the Siwalik hipparionines that can be determined with some certainty, the local Hipparion Datum, ca. 10.7 or 10.8 Ma (Woodburne et al., 1981; Bernor et al., 1996; Woodburne et al., 1996; Gradstein et al., 2004; Woodburne, 2007). It is thus somewhat younger than the Hipparion Datum in Central Europe, Austria, has been calibrated up to 11.2 Ma (Daxner-Hoock and Bernor, 2009). Beside the Australian material, Snap Cormohipparion sinapensis, the earliest hipparionine from Turkev (Bernor et al., 2003), has been demonstrated to compare closely with North American Cormohipparion. North African C. africanum (Bou Hanifia, 10.5 Ma), while advanced in cheek tooth crown height, also has skull and postcranial features recalling North American Connohipparion (Bernor and White, 2009; Bernor et al., 2010).

The cranial and postcranial material of the Harvard collection suggests that between ca. 10.7 and 10.2 Ma Sivalhippus nagriensis evolved from the initial population of Siwalik Cormohipparion (possibly initially co-existing with the more plesiomorphic taxon) by increasing general body size, crown height, and plicaballin complexity and changing protocone shape. While retaining certain plesiomorphic characteristic, such as a dorsoventrally extensive, medially deep and posteriorly pocketed POF and deeply incised ectoflexid on the mandibular premolar teeth. For approximately 1 Ma, Sivalhippus nagriensis appears to have been generally the only hipparionine of the Siwalik Hill’s region, with the exception of the rare presence of the extremely small horse described here as Hipparion sp. small. This, latter taxon, while not represented by material sufficient for a conclusive taxonomic evaluation, was probably not endemic. Wolf et al. (2013) supported earlier observations for the Nagri Formation by Hussain (1971), MacFadden and Woodburne (1982) and Bernor and Hussain (1985) concerning the predominantly monospecific Siwalik hipparionine population during this time period (with the exception of Hipparions sp. small).

The Sivalhippus lineage is distinguished at its origin from other early Old World lineages in particular by the early onset of maximum crown height of more than 65 mm. Mandibular cheek teeth remain rather primitive in Sivalhippus nagriensis. In comparison to contemporaneous Central European members of the Hippotherium lineage, mandibular cheek teeth differ in having less complex pre-and postflexid margins (Bernor et al., 1996). The metapodial of S. nagriensis may have been somewhat stouter and less elongate. But this is difficult to judge given the incomplete nature of all a, available early Siwalik metapodials. Cormohipparion sinapensis is a small and plesiomorphic early Old World hipparionine, but clearly has more slender limb (Bernor et al. 2003) than Hippotherium primigenium and Sivalhippus nagriensis. More derived somewhat younger hipparionine from Sinap contemporaneous with Sivalhippus nagriensis show various derived features distinct from S. nagriensis. Hipparion kecigibi shows slender, short metapodials.

By at least 9.290 Ma the appearance of massive but not very high-crowned teeth indicate the presence of Sivalhippus theobaldi in the Siwaliks. This is earlier than expected in view of the presumed stratigraphic provenience near the Dhok Pathan Rest house as mentioned by MacFadden and Woodburne (l982) and Hussain and Bernor (1984). Despite in the massive increase in size of Sivalhippus theobaldi retains a basal facial morphology with a dorsoventarlly extensive preorbital fossa throughout its occurrence. Sivalhippus theobaldi was apparently rare in the Siwalik Hills, it seems, to have sympatrically coexisted with first Sivalhippus nagriensis and later the more derived Sivalhippus perimensis and the immigrant clade Cremohipparion antelopinum (Eisenmann et al., 1988; Eisenmann, 1994; Bernor et al., 2010).

 

Conclusions

 

Four hipparionine species are documented at first time from Dhok Mila and Kaulial Kas of the Attock district, Punjab, Pakistan. The fossiliferous site Dhok Mila is of the Nagri Formation (early Late Miocene) and Kaulial Kas is of Dhok Pathan Formation (Late Miocene – Early Pliocene). The new material described from Attock confirms the existence of the various sized hipparionine in the Late Miocene – Early Pliocene of the Potwar Plateau in Pakistan.

 

Statement of conflict of interest

Authors have declared no conflict of interest.

 

References

 

Badgley, C.E. and Behrensmeyer, A.K., 1995. Preservational, paleoecological and evolutionary patterns in the Paleogene of Wyoming-Montana and the Neogene of Pakistan. Palaeogeogr. Palaeoclimatol. Palaeoecol., 115: 319-340. https://doi.org/10.1016/0031-0182(94)00117-Q

Barry, J., Morgan, M., Flynn, L., Pilbeam, D., Behrensmeyer, A., Raza, S., Khan, I., Badgley, C., Hicks, J. and Kelley, J., 2002. Faunal and Environmental change in the Late Miocene Siwaliks of Northern Pakistan. Paleobiology, 28, Memoir 3 (Suppl. 2): 1-71.

Barry, J.C., Behrensmeyer, A.K. and Monaghan, M., 1980. A geologic and biostratigraphic framework for Miocene sediments near Khaur village, Northern Pakistan. Postilla, 183: 1-19.

Barry, J.C., Johnson, N.M, Raza, S.M. and Jacobs, L.L., 1985. Neogene mammalian faunal change in southern Asia: correlations with climatic, tectonic and eustatic events. Geology, 13: 637–640. https://doi.org/10.1130/0091-7613(1985)13<637:NMFCIS>2.0.CO;2

Bernor, R.L., Armour-Chelu, M., Gilbrrt, H., Kaiser, T.M. and Schulz. E., 2010. Cenozoic mammals of Affrica. California University Press, Berkeley, pp. 685-721. https://doi.org/10.1525/california/9780520257214.003.0035

Bernor, R.L. and Hussain, S.T., 1985. An assessment of the systematic, phylogenetic and biographic relationships of Siwalik hipparionine horses. J. Verteb. Palaeontol., 5: 32-87. https://doi.org/10.1080/02724634.1985.10011845

Bernor, R.L., Koufos, G.D., Woodburne M.O. and Fortelius, M., 1996. The evolutionary history and biochronology of European and Southwest Asian Late Miocene and Pliocene hipparionine horses. Columbia University Press, New York, pp. 307-338.

Bernor, R.L., Scott, R.S., Fortelius, M., Kappelman J. and Sen, S., 2003. Systematics and evolution of the Late Miocene hipparions from sinap, Turkey. Columbia University Press, New York, pp. 220-281.

Bernor, R.L. and White, T.D., 2009. Systematics and biogeography of “Cormohipparion afticanum”, early Vallesian (MN9, ca 10.5 Ma) of Bou Hanifa, Algeria.-Mus. N. Arizona Bull., 65: 635-653.

Colbert, E.H., 1935. Siwalik Mammals in the American Museum of Natural History. Trans. Am. philos. Soc. N.S., 26: 1-401.

Daxner-Hock, G. and Bernor, R.L., 2009. The early vallesian vertebrates of Atzelsdorf (Late Miocene Austria). 8. Anchitherium, Suidae and Castoridae (Mammalia). Annls. Naturhist. Mus. Wien, Ser, A, III: 557-584.

De Christol, J., 1832. Mémoire sur le moyen hippopotame fossile de Cuvier, replacé au genre des dugongo. Annls. Sci. Indust. Midi France, 2: 161-176, 241-253.

Eisenmann, V., 1994. Equidae of the Albertine Rift Valley, Uganda. In: Geology and paleobiology of the Albertine Rift Valley, Uganda-Zaire (eds. B. Senut and M. Pickford), Volume II. Paleobiology. Centre International pour la Formation et les Echanges géologiques, Publication occasionnelle, Orléans, 29: 289-307.

Eisenmann, V.M.T., Alberdi, C., Giuli, D.E. and Staesche, U., 1988. Studying fossil horses. In: Collected papers after the New York International Hipparion Conference, 1981 (eds. M.C. Woodburne and P. Sondaar,), Brill, Leiden, pp. 1-71.

Flynn, L.J., Pilbeam, D. Jacobs, L.L., Barry, J.C., Behrensmeyer, A.K. and Kappelman, J.W., 1990. The Siwaliks of Pakistan: time and faunas in a Miocene terrestrial setting. J. Geol., 98: 589-604. https://doi.org/10.1086/629426

Ghaffar, A., 2005. Studies on equid, cervids and carnivora from the Siwalik hills of Pakistan. Ph.D. thesis, University of the Punjab, Lahore, Pakistan.

Gradstein, F.M., Ogg, J.G. and Smith, A.G., 2004. A geologic time scale. Cambridge Univ. Press, Cambridge, pp. 589.

Gray, J.E., 1821. On the natural arrangement of vertebrate animals. Lon. Med. Repos., 15: 296-310.

Hay, O.P., 1902. Bibliography and catalogue of the fossil Vertebrata of North America. Bull. U. S. Geol. Surv., 176: 1-868.

Hussain, S.T. and Bernor, R.L., 1984. Evolutionary history of Siwalik Hipparions. Cour. Forschungsinst. Senckenb., 69: 181-187.

Hussain, S.T., 1971. Revision of Hipparion (Equidae, Mammalia), from the Siwalik Hills of Pakistan and India. Bayer. Akad. Wissensch. Abhandl., 147: 1-68.

Khan, M.A., Akhtar, M. and Ikram, T., 2012. True Ungulates from the Nagri type locality (Late Miocene), Northern Pakistan. J. Anim., Plant Sci., 22: 1-59.

Lydekker, R., 1877. Notices of new and other Vertebrata from Indian Tertiary and Secondary rocks. Rec. geol. Surv. Ind., 10: 30-43.

Lydekker, R., 1887. On certain dinosaurian vertebrae from the Cretaceous of India and the Isle of Wight. Q. J. geol. Soc. Lond., 43: 157–160. https://doi.org/10.1144/GSL.JGS.1887.043.01-04.13

Lydekker, R., 1882. Siwalik and Narbada Equidae. Paleontol. Indic., 2: 67-98.

MacFadden, B.J. and Woodburne, M.O., 1982. Systematics of the Neogene Siwalik hipparions (Mammalia, Equidae) based on cranial and dental morphology. J. Verteb. Palaeontol., 2: 185-218. https://doi.org/10.1080/02724634.1982.10011930

Pilbeam, D., Barry, J., Meyer, G.E., Shah, S.M.I., Pickford, M.H.L., Bishop, W.W., Thomas, H. and Jacobs, L.L., 1977. Geology and palaeontology of Neogene strata of Pakistan. Nature, 270: 684-689. https://doi.org/10.1038/270684a0

Skinner, M.F. and Macfadden, B.J., 1977. Cormohipparion n gen (Mammalia, Equidae) from the North American Miocene (Barstovian-Clarendonian). J. Palaeontol. 51: 912-926.

Steinmann, G. and Döderlein, L., 1890. Elemente der Palaeontologie. Leipzig (Wilhelm Engelmann). 848 pp.

Willis, B.J. and Behrensmeyer, A.K., 1994. Architecture of Miocene over bank deposits in northern Pakistan. J. Sedimen. Res., B64: 60-67.

Wolf, D., Bernor, R.L. and Hussain, S.T., 2013. A systematic, biostratigraphic, and paleobiogeographic reevaluation of the Siwalik Hipparionine horse assemblage from the Potwar Plateau, Northern Pakistan. Palaeontographica Abt. A., 300: 1–115. https://doi.org/10.1127/pala/300/2013/1

Woodburne, M.O., Bernor, R.L. and Swisher, C.C., 1996. An Appraisal of the stratigraphic and phylogenetic bases for the “Hipparion” Datum in the Old World. In: The evolution of Western Eurasian Neogene mammalian faunas (eds. R.L. Bernor, V. Fahlbusch and H.W. Mittmann), Columbia University Press, New York, pp. 124-136.

Woodburne, M.O., MacFadden B.J. and Skinner, M.F., 1981. The North American Hipparion Datum and implications for the Neogene of the Old World. Geobios, 14: 493-524. https://doi.org/10.1016/S0016-6995(81)80124-6

Woodburne, M.O., 2007. Phyletic diversification of the Cormohipparion accidentale Complex (Mammalia, Perissodactyla, Equidae), Late Miocene, North America, and the origion of the Old World Hippotherium Datum. Bull. Am. Mus. nat. Hist., 306: 1-138. https://doi.org/10.1206/0003-0090(2007)306[1:PDOTCO]2.0.CO;2

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Pakistan Journal of Zoology

December

Pakistan J. Zool., Vol. 56, Iss. 6, pp. 2501-3000

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