A new species of Hispanotherium from the Early Miocene of Spain is named. Its phylogenetic relationships within Elasmotheriina are discussed owing to a cladistic analysis. H. grimmi Heissig, 1974 and H. beonense Antoine, 1997 are consequently integrated in the genus Hispanotherium, together with the type species H. matritense and the new species, which differs from other ones by several dental and postcranial features. The westward dispersal of the Elasmotheriina from Asia toward Western Europe during the Early Miocene is hypothesized.
Une nouvelle espèce d'Hispanotherium, du Miocène inférieur d'Espagne, est nommée. Ses relations phylogénétiques parmi les Elasmotheriina sont discutées à l'aide d'une analyse cladistique. H. grimmi Heissig, 1974 et H. beonense Antoine, 1997 sont conclus dans le genre Hispanotherium, avec l'espèce type H. matritense et la nouvelle espèce. Celle-ci diffère des autres par plusieurs caractères dentaires et postcrâniens. L'hypothèse de dispersion vers l'ouest des Elasmotheriina depuis l'Asie jusqu'en Europe occidentale au cours du Miocène inférieur est privilégiée.
Rhinocerotidae, Elasmotheriina, Hispanotherium, Early Miocene, Spain, Córcoles, phylogenyRhinocerotidae, Elasmotheriina, Hispanotherium, Miocène inférieur, Espagne, Córcoles, phylogéniemiscellaneousCommunicated by Philippe TaquetVersion abrégéeIntroduction
Le gisement de Córcoles (Guadalajara, Espagne) a livré une faune abondante et diversifiée de mammifères [1] datée du Miocène inférieur (Zone C ; MN 4a). Cette faune inclut deux espèces de rhinocérotidés, dont un élasmothériiné, initialement décrit sous le nom d'Hispanotherium matritense[19] and [21]. Toutefois, les 700 spécimens dentaires et postcrâniens concernés présentaient certaines différences morphologiques avec l'hypodigme d'H. matritense sensu stricto. De ce fait, « H. matritense de Córcoles » et H. matritense s. s. ont été traitées séparément dans l'analyse cladistique des Elasmotheriina [3]. Cette analyse, détaillée ci-dessous, confirme la particularité de l'élasmothériiné de Córcoles et permet de lui conférer un statut spécifique au sein du genre Hispanotherium.
Systématique
Ordre Perissodactyla Owen, 1848
Famille Rhinocerotidae Owen, 1845
Sous-tribu Elasmotheriina Bonaparte, 1845
Hispanotherium Crusafont et Villalta, 1947
Espèce type.H. matritense (Lartet in Prado, 1864).
Autres espèces.H. grimmi Heissig, 1974 ; H. beonense (Antoine, 1997) ; H. corcolense n. sp.
Diagnose. Elasmothériiné avec un hypocône étranglé sur M1, un protocône étranglé sur P3–4, une diaphyse au bord médial rectiligne sur le radius, des facettes proximales radio-ulnaires généralement isolées, une petite facette pour le trapèze sur le scaphoı̈de, une tubérosité postérieure rectiligne sur le magnum, une facette 1 pour le calcanéum généralement basse et large sur l'astragale et des reliefs intermédiaires bas sur les métapodes centraux.
Hispanotherium corcolense n. sp.
Holotype. Série supérieure d'un individu, avec P1–P4 et M2–M3 gauches et droites (Co-4934 à Co-4945). Tous les spécimens sont conservés au laboratoire de paléontologie de l'Universidad Complutense de Madrid (LPUCM), Espagne.
Paratype. Série inférieure droite, avec p2–m1 : Co-212, conservée au LPUCM.
Hypodigme. Principalement constitué des 654 spécimens listés par Iñigo [19] et conservés au LPUCM. Quelques restes supplémentaires au Museo Geominero de España et au Museo Nacional de Ciencias Naturales, à Madrid.
Locus typicus. Córcoles (Guadalajara, Espagne).
Stratum typicum. Miocène inférieur, Aragonien inférieur, Zone C et MN 4a [21] and [23].
Distribution spatio-temporelle. Restreinte à la localité type.
Étymologie. De Córcoles, nom du gisement type.
Diagnose.Hispanotherium avec un cingulum labial généralement présent sur les prémolaires supérieures ; antécrochet généralement présent sur P4 ; vallée postérieure parfois fermée sur d2 ; fosse glénoı̈de présentant un bord médial droit sur l'omoplate ; échancrure médiale généralement superficielle sur le magnum ; expansion de la facette pour le pyramidal généralement absente sur l'unciforme.
Relations phylogénétiques
Celles-ci sont hypothétisées à l'aide d'une analyse cladistique portant sur 282 caractères anatomiques [3], contrôlés notamment chez l'ensemble des Elasmotheriina.
Deux arbres également parcimonieux sont obtenus (746 pas ; IC = 0,47 ; IR = 0,64), où les Elasmotheriina sont monophylétiques (Fig. 1). La seule ambiguı̈té concerne précisément les relations phylogénétiques entre H. matritense et H. corcolense n. sp., qui forment un clade dans l'arbre 1 (sélectionné par pondération successive ; Fig. 1A) et un ensemble paraphylétique dans l'arbre 2 (Fig. 1A). La séquence de branchement des Elasmotheriina est (K. bishopi (B. praecursor (C. oettingenae ((B. caucasica, T. fangxianense) (H. grimmi ((H. matritense, H. corcolense) ( « A. » beonense (B. tekkayai (B. borissiaki (P. mongoliense (H. lintungense (I. morgani (P. schansiense (S. lagrelii (Elasmotherium))))))))))))))).
Les dichotomies au voisinage de H. corcolense ne sont pas bien soutenues. En revanche, l'examen de la distribution des caractères dans l'arbre 1 permet d'isoler fiablement les Elasmotheriina les plus primitifs (Kenyatherium, Bugtirhinus et Caementodon) et les plus évolués (Procoelodonta, Huaqingtherium, Iranotherium, Parelasmotherium, Sinotherium et Elasmotherium).
Comparaison
La comparaison anatomique entre H. corcolense n. sp. (Fig. 2) et les taxons morphologiquement proches, H. matritense, H. grimmi et « Aegyrcitherium » beonense Antoine, 1997, effectuée en marge de l'analyse cladistique, est synthétisée dans le Tableau 1. Ainsi, certaines caractéristiques dentaires et postcrâniennes isolent H. grimmi, mais sont communes à H. corcolense, H. matritense et « A. » beonense ; d'autres isolent seulement H. matritense ou encore « A. » beonense. Enfin, six caractères sont diagnostiques de H. corcolense : le cingulum labial, généralement présent sur les prémolaires supérieures, l'antécrochet, généralement présent sur P4, la vallée postérieure, parfois fermée sur d2, la fosse glénoı̈de, présentant un bord médial droit sur l'omoplate, l'échancrure médiale, généralement superficielle sur le magnum et l'expansion de la facette pour le pyramidal, généralement absente sur l'unciforme.
Discussion et conclusions
De nombreux auteurs [6], [7], [8], [9], [10], [21] and [24] considèrent que tous les élasmothériinés du Miocène inférieur et moyen d'Eurasie appartiennent à Hispanotherium, ce que la présente analyse réfute : outre l'espèce type H. matritense, le genre doit être restreint à H. grimmi, H. beonense (initialement rapporté au genre Aegyrcitherium Antoine, 1997) et H. corcolense n. sp. Les autres Elasmotheriina (Caementodon oettingenae, Beliajevina caucasica, Tesselodon fangxianense, Kenyatherium bishopi et Bugtirhinus praecursor, primitifs ; « B. » tekkayai, « B. » borissiaki, P. mongoliense, H. lintungense, I. morgani, P. schansiense, S. lagrelii et Elasmotherium, évolués) sont rapportés à des genres distincts d'Hispanotherium. Ce genre est paraphylétique. Toutefois, la monophylie de (H. matritense, H. corcolense) ne peut être exclue.
L'élasmothériiné le plus ancien décrit à ce jour provient du Miocène basal du Pakistan [3] and [4]. Les dichotomies suivantes (Fig. 1) impliquent successivement des élasmothériinés d'Asie, du Caucase et d'Asie Mineure (Anatolie), puis d'Europe occidentale. Le groupe paraı̂t donc s'être dispersé vers l'ouest pendant le Miocène inférieur, probablement à la faveur de la collision entre les plaques Arabo-Africaine et Eurasiatique [3].
La présence de trois élasmothériinés est avérée en Europe occidentale à la fin du Miocène inférieur : H. corcolense et H. beonense pendant la MN 4a ; H. beonense et H. matritense pendant la MN 4b et la MN 5.
Introduction
The Elasmotheriina are fossil Rhinocerotidae known from the Early Miocene to the Late Pleistocene in Eurasia [3]. Among them, the genus Hispanotherium is widely spread in Spain, Portugal and France during the late Early Miocene [3], [7] and [8] and during the Middle Miocene in Anatolia [16] and [17]. The type species H. matritense (Lartet in Prado, 1864) has the best representation. It has been recognized in about 30 localities, mainly from Iberia [6], [7] and [8], but also in France [3] and [14].
The locality of Córcoles (Guadalajara, Spain) has yielded a diversified mammal fauna [1] and [21], which allows to place it within the Lower Aragonian (zone C; MN 4a). The rhinocerotid fauna was supposed to associate ‘Plesiaceratherium’ platyodon (Mermier, 1895) and H. matritense[19], [20] and [21]. Nevertheless, the latter appeared to bear some distinctive features, once compared with the whole hypodigm of H. matritense sensu stricto[3] and [21].
A cladistic analysis has been performed recently in order to recover the phylogenetic relationships of Elasmotheriina within Rhinocerotidae [3]. This analysis included an exhaustive list of Elasmotheriina, among which H. matritense and ‘H. matritense from Córcoles’ were treated as two distinct series. The results, developed in Section 3 and illustrated in Fig. 1 lead us to consider ‘H. matritense from Córcoles’ as distinct from H. matritense sensu stricto and from other Elasmotheriina. Thus, we propose to name a new species for the former.
Systematics
Order Perissodactyla Owen, 1848
Family Rhinocerotidae Owen, 1845
Tribe Elasmotheriini Bonaparte, 1845
Subtribe Elasmotheriina Bonaparte, 1845
Hispanotherium Crusafont and Villalta, 1947
Type species. H. matritense (Lartet in Prado, 1864).
Other species.H. grimmi Heissig, 1974; H. beonense (Antoine, 1997); H. corcolense n. sp.
Diagnosis. Elasmotheriine rhinocerotid more evolved than Kenyatherium, Bugtirhinus and Caementodon in having an isolated hypocone on M1, a protocone constriction on P3–4, a straight medial border on the radius diaphysis, proximal radio-ulna facets generally isolated, a small trapezium-facet on the scaphoid, a straight posterior tuberosity on the magnum, a calcaneus-facet 1 generally wide and low on the astragalus and low intermediate relieves on central metapodials. Procoelodonta, Huaqingtherium, Iranotherium, Sinotherium and Elasmotherium are more evolved in possessing an always-simple crochet on P2–4, a continuous posterior cingulum on M1–2, a lingual wall on D2 and a constricted entoconid on lower milk teeth.
Hispanotherium corcolense n. sp. (Fig. 2)
Holotype. Upper series of a single individual, with left and right P1–P4 and M2–M3 (Co-4934 to Co-4945). All the specimens are housed in the Laboratory of Palaeontology of the Universidad Complutense (LPUCM), Madrid, Spain.
Paratype. Right lower series, with p2–m1: Co-212, housed in the LPUCM, Spain.
Hypodigm. It mainly consists of 654 dental and postcranial specimens listed in Iñigo [19] and housed in the LPUCM. A few specimens are also stored in the Museo Geominero del Instituto Técnico Geominero de España (ITGE) and the Museo Nacional de Ciencias Naturales (MNCN), both in Madrid, Spain.
Locus typicus. Córcoles (Guadalajara, Spain).
Stratum typicum. Late Early Miocene, Early Aragonian, zone C and MN 4a mammal unit [21] and [23].
Geographical and stratigraphical distributions. So far restricted to the type locality and type stratigraphical level.
Etymology. From the type locality (Córcoles).
Diagnosis.Hispanotherium with a labial cingulum generally present on the upper premolars (while generally absent in other species); antecrochet generally present on P4 (always absent in other species); posterior valley sometimes closed on d2 (always open in other species); glenoid fossa bearing a straight medial border on the scapula (oval otherwise); generally shallow medial indentation on the magnum (always shallow in H. matritense and always deep in both H. grimmi and H. beonense); expansion of the pyramidal-facet generally absent on the unciform (generally present in H. beonense, always absent in both H. grimmi and H. matritense).
There is no need to further detail the dental and postcranial features of H. corcolense n. sp., which are precisely described in Iñigo [19] and Iñigo and Cerdeño [21].
Phylogenetic relationships
The phylogenetic relationships of H. corcolense n. sp. are assessed by a cladistic analysis, based on 282 anatomical characters [3] and checked in 26 terminal taxa. The outgroups are Tapirus terrestris (Linnaeus, 1758), Hyrachyus eximius Leidy, 1871, Trigonias osborni Lucas, 1900 and Ronzotherium filholi (Osborn, 1900). Other non-Elasmotheriina rhinocerotids included in the analysis are the Western European Protaceratherium minutum (Cuvier, 1822) and Plesiaceratherium mirallesi (Crusafont, Villalta and Truyols, 1955) and the North-American Diceratherium armatum Marsh, 1875 and Menoceras arikarense (Barbour, 1906). H. matritense and H. corcolense n. sp. are separately checked as distinct series.
The elasmotheriines included in the analysis are Elasmotherium sibiricum Fischer, 1809, Hispanotherium matritense (Lartet in Prado, 1864), Iranotherium morgani (Mecquenem, 1908), Elasmotherium caucasicum Borissiak, 1914, Sinotherium lagrelii Ringström, 1923, Parelasmotherium schansiense Killgus, 1923 (= Ninxiatherium longirhinus Chen, 1977), Procoelodonta mongoliense (Osborn, 1924), Beliajevina caucasica (Borissiak, 1935), Begertherium borissiaki Beliajeva, 1971, Caementodon oettingenae Heissig, 1972, Beliajevina tekkayai Heissig, 1974, Hispanotherium grimmi Heissig, 1974, Kenyatherium bishopi Aguirre and Guérin, 1974, Huaqingtherium lintungense (Zhai, 1978) (= Hispanotherium tungurense Cerdeño, 1996, = Caementodon tongxinensis Guan, 1993), Tesselodon fangxianense Yan, 1979, ‘Aegyrcitherium’ beonense Antoine, 1997 (here H. beonense), Bugtirhinus praecursor Antoine and Welcomme, 2000 and Hispanotherium corcolense n. sp.
Two equally parsimonious trees are obtained by means of Hennig86, version 1.5 [11]. The trees are 746 steps long, with an average consistency index (0.47) and a rather good retention index (0.64). In both trees, the Elasmotheriina are monophyletic, with Menoceras arikarense as a sister-group (Fig. 1). The only uncertainty concerns the relative positions of Hispanotherium matritense and H. corcolense: in the first tree (Fig. 1A), H. matritense and H. corcolense form a monophyletic group, whereas H. matritense is the sister-group of the (H. corcolense (‘A.’ beonense (more evolved Elasmotheriina) clade in the second tree (Fig. 1B). The former topology, with a (H. matritense, H. corcolense) clade, is selected by successive weighting.
The detailed branching sequence of the Elasmotheriina is (K. bishopi (B. praecursor (C. oettingenae ((B. caucasica, T. fangxianense) (H. grimmi ((H. matritense, H. corcolense) (‘A.’ beonense (B. tekkayai (B. borissiaki (P. mongoliense (H. lintungense (I. morgani (P. schansiense (S. lagrelii (Elasmotherium))))))))))))))). The exhaustive distribution of characters is detailed in Antoine (in press), but discussing the distribution of characters from the nodes A to E (Fig. 1A) is sufficient in order to express the phylogenetic relationships of H. corcolense n. sp.
The node A excludes the most primitive Elasmotheriina (i.e. K. bishopi, B. praecursor, C. oettingenae, B. caucasica and T. fangxianense). It defines the (H. grimmi (Node B)) clade. This node is strongly supported by three non-homoplastic synapomorphies (CI = RI = 1), thus justifying a generic distinction: an isolated hypocone on M1, a straight medial border on the radius diaphysis and low intermediate relieves on central metapodials. The protocone constriction on P3–4 (RI = 0.83) is further supporting the node A, together with four postcranial characters: proximal radio-ulna facets generally isolated, small trapezium-facet on the scaphoid, posterior tuberosity straight on the magnum, calcaneus-facet 1 generally wide and low on the astragalus.
The node B sets H. grimmi as the sister-group of the ((H. matritense, H. corcolense) (‘A.’ beonense (Node E)) clade. It is feebly supported by five homoplastic apomorphies: a sagittal lingual groove is present on the mandible, the foramen mandibulare is located above the neck line, the paracone fold is strong on M1–2, the metaconid constriction is absent on lower milk teeth and the proximal radio-ulna facets are always fused.
The node C isolates the (H. matritense, H. corcolense) clade, owing to two characters: the crista is generally absent on the upper molars and the anterior indentation on the medial side of the magnum is generally shallow.
The node D sets ‘A.’ beonense together with more evolved Elasmotheriina (i.e. node E). Three characters appear: the protocone and the hypocone are equally developed on P2, the calcaneus-facet 1 is always high and narrow on the astragalus and the calcaneus always bears a fibula-facet. This node is not very well supported.
At last, the node E is robustly setting apart B. tekkayai and more evolved Elasmotheriina (from Middle Miocene and later) from Hispanotherium. These taxa (i.e. B. tekkayai, B. borissiaki, P. mongoliense, H. lintungense, I. morgani, P. schansiense, S. lagrelii and Elasmotherium) share at least four dental synapomorphies: the crochet is always simple on P2–4, the posterior cingulum is continuous on M1–2, a lingual wall is present on D2, as a constricted entoconid on lower milk teeth (non-homoplastic synapomorphy: CI = RI = 1).
Comparison
Apart from the cladistic analysis, which sets the phylogenetic relationships of H. corcolense as shown in Fig. 1, we have made a character-by-character comparison between H. corcolense and the closest Elasmotheriina, which are H. grimmi, H. matritense and ‘A.’ beonense. This comparison, restricted to the characters checked in the four taxa, is synthesized in Table 1 (split into seven subtables).
Eight features, shared by H. corcolense, H. matritense and ‘A.’ beonense, differ in H. grimmi (subtable a): the lingual groove present on the corpus mandibulae, the strong paracone fold on M1–2, the metaconid constriction on lower milk teeth and the proximal radio-ulna facets always fused are four synapomorphies located at node B (Fig. 1A). The presence of i2, the lacking of a medifossette on P3–4, the reduction of the posterior cingulum on M1–2 and the trigonid determining an acute dihedron on the lower cheek teeth further distinguish these three taxa from H. grimmi.
Eight characters rally H. corcolense, H. grimmi and ‘A.’ beonense, but exclude H. matritense (subtable b): the crochet generally simple on P2–4, the lingual wall absent on D2, the double paralophid on d3, the acute distal border of the semi-lunate, the straight posterior tuberosity of the magnum, and three characters on the MtIII (sigmoid proximal border, distally widened diaphysis and cuboid-facet present). Alternative character states define the autapomorphies of H. matritense (column 3).
Eight characters put H. corcolense, H. grimmi and H. matritense together in contrast with ‘A.’ beonense (subtable c): the protocone weaker than the hypocone and the continuous protoloph on P2, the protoloph–ectoloph connection on P3, the independence of the pyramidal- and McV-facets on the unciform, the posterior McII-facet always absent on the McIII, the TD/H ratio lower than 1.2 and the expansion of the calcaneus-facet 1, generally wide and low on the astragalus, and the weak development of the postero-lateral process on the ectocuneiform. Alternative character states correspond to the autapomorphies of ‘A.’ beonense (column 3).
Three features separate H. corcolense and ‘A.’ beonense from H. grimmi and H. matritense (subtable d): the lingual cingulum generally present on P2–4, the crista always absent on P3 (always present in H. grimmi and generally absent in H. matritense) and the fibula-facet concave on the astragalus.
Three characters bring together H. corcolense and H. matritense, with respect to H. grimmi and ‘A.’ beonense (subtable e): the crista generally absent on the upper molars, which is a synapomorphy of the node C (Fig. 1A), the posterior part of the ectoloph straight on M1–2 and the fibula-facet generally absent on the calcaneus (always absent in H. grimmi and always present in ‘A.’ beonense).
The absence of a lingual groove on the protocone of M2 is jointly characterizing H. corcolense and H. grimmi (subtable f), contrary to H. matritense (generally absent) and ‘A.’ beonense (always present).
At last, six characters define only H. corcolense, as autapomorphies (subtable g): the labial cingulum generally present on the upper premolars (while generally absent in other species); the antecrochet generally present on P4 (always absent in other species); the posterior valley sometimes closed on d2 (always open in other species); the glenoid fossa bearing a straight medial border on the scapula (oval otherwise); the generally shallow medial indentation on the magnum (the parsimony of which is interpreted as a synapomorphy acquired at the node C; Fig. 1A). This indentation is always shallow in H. matritense and always deep in both H. grimmi and ‘A.’ beonense; the expansion of the pyramidal-facet generally absent on the unciform (generally present in ‘A.’ beonense, always absent in both H. grimmi and H. matritense).
Discussion and conclusions
Various authors [6], [7], [8], [9], [10], [21] and [24] do consider that Early and Middle Miocene Elasmotheriina from Eurasia (i.e. Caementodon oettingenae Heissig, 1972, Beliajevina caucasica (Borissiak, 1935), Tesselodon fangxianense (Yan, 1979), Hispanotherium grimmi Heissig, 1974, Beliajevina tekkayai Heissig, 1974) should be included within the genus Hispanotherium. Meanwhile, other authors [2], [3], [4], [5], [12], [13], [15], [16], [17] and [18] assume that these taxa correspond to different species and/or genera.
The present work confirms the second opinion (Fig. 1): not only C. oettingenae, Beliajevina caucasica and Tesselodon fangxianense are excluded from Hispanotherium (Fig. 1A; node A), but Kenyatherium bishopi Aguirre and Guérin, 1974 and Bugtirhinus praecursor Antoine and Welcomme, 2000 are also much more primitive than Hispanotherium matritense, type species of the genus, and its closest relative (Fig. 1A). Still, the phylogenetic relationships within Elasmotheriina between the nodes B–D are not solved, but H. corcolense does represent a distinct species. At last, other Elasmotheriina from the Middle Miocene and later (i.e. B. tekkayai, B. borissiaki, P. mongoliense, H. lintungense, I. morgani, P. schansiense, S. lagrelii and Elasmotherium) are definitely more evolved than H. matritense and its closest relatives, as shown in Fig. 1A (node E).
All this leads us to put H. matritense, H. grimmi, ‘A.’ beonense Antoine, 1997 and H. corcolense n. sp. together within the genus Hispanotherium, in agreement with Antoine [3], but not with Antoine [2] and Antoine and Welcomme [4]. As noticed in Section 3, the nodes B to D (Fig. 1A) are not supported enough to justify any generic distinction between the involved species. Thus, the genus Hispanotherium is paraphyletic, representing a grade within Elasmotheriina. Still the monophyly of (H. corcolense, H. matritense) cannot be excluded.
The earliest elasmotheriine, Bugtirhinus praecursor, is reported in the basal Miocene of Balochistan [3] and [4]. The following branches in the parsimonious trees successively lead to elasmotheriines restricted to Asia, Caucasus and Minor Asia (Anatolia). Thus, the group may have differentiated in Asia and dispersed westward throughout the Early Miocene. Hispanotherium or a close relative has probably joined Western Europe through Anatolian plate, as a consequence of the Eurasian and Arabo-African plates collision, also responsible for the major dispersal event named ‘Proboscidean Datum Event’ [22].
H. corcolense is so far restricted to the locality of Córcoles, which represents the oldest occurrence of an elasmotheriine in Iberia (MN 4a, zone C). So far, H. matritense only occurs in younger deposits (MN 4b and MN 5, zones DE) [3] and [21]. On the other hand, H. beonense occurs also during the MN 4a zone, in the French locality of Pellecahus, almost contemporaneous of Córcoles [5]. Its time range is extending up to the MN 4b and the MN 5 zones in the Aquitaine and Loire basins [2] and [3]. H. grimmi is so far restricted to the Middle Miocene of Anatolia [16], [17] and [18].
Thus, three distinct elasmotheriines have been recorded in Western Europe during the MN 4–5 zones: H. corcolense and H. beonense during the MN 4a zone; H. beonense and H. matritense during the MN 4b–MN 5 zones). H. beonense and H. matritense have been sympatric in the Loire Basin [3] and [14].
Acknowledgements
The authors thank the curators of all the collections visited for this work. Publication ISEM N°2002-007.
AlférezF.MoleroG.BreaP.SantaféJ.V.Precisiones sobre la geologı́a, fauna, cronoestratigrafı́a y paleoecologı́a del yacimiento Mioceno de Córcoles761982249–276AntoineP.-O.Aegyrcitherium beonensis nov. gen. nov. sp., nouvel élasmothère (Mammalia, Rhinocerotidae) du gisement miocène (MN 4b) de Montréal-du-Gers (Gers, France). Position phylogénétique au sein des Elasmotheriini2041997399–414P.-O. Antoine, Origine et différenciation des Elasmotheriina (Mammalia, Rhinocerotidae), Mém. Mus. natn. Hist. nat. (sous presse)AntoineP.-O.WelcommeJ.-L.A new rhinoceros from the Bugti Hills, Baluchistan, Pakistan: the earliest elasmotheriine432000795–816AntoineP.-O.BulotC.GinsburgL.Une faune rare de rhinocérotidés (Mammalia, Perissodactyla) dans le Miocène inférieur de Pellecahus (Gers, France)332000249–255AntunesM.T.GinsburgL.Les Rhinocérotidés du Miocène de Lisbonne. Systématique, écologie, paléobiogéographie, valeur stratigraphique7198317–98CerdeñoE.1989Ed. Univ. ComplutenseMadridCerdeñoE.Spanish Neogene Rhinoceroses351992297–308CerdeñoE.Cladistic analysis of the Family Rhinocerotidae (Perissodactyla)314319951–25CerdeñoE.Rhinocerotidae from the Middle Miocene of the Tung-gur Formation, Inner Mongolia (China)318419961–43J.S. Farris, Hennig86 reference. Version 1.5, Port Jefferson Station, New York, Software and guidebookForteliusM.Rhinocerotidae from Pasalar, Middle Miocene of Anatolia (Turkey)191990489–508ForteliusM.HeissigK.The phylogenetic relationships of the Elasmotherini (Rhinocerotidae, Mamm.)291989227–233GinsburgL.MaubertF.AntunesM.T.Découverte d'Hispanotherium et de Gaindatherium (Rhinocerotidae, Mammalia) dans le Miocène de France91987303–311HeissigK.Paläontologische und geologische Untersuchungen im Tertiär von Pakistan. 5. Rhinocerotidae (Mamm.) aus den unteren und mittleren Siwalik–Schichten15219721–112HeissigK.Neue Elasmotherini (Rhinocerotidae, Mammalia) aus dem Obermiozän Anatoliens14197421–35HeissigK.Rhinocerotidae (Mammalia) aus der Anchitherium-Fauna Anatoliens1919763–121HeissigK.RössnerG.E.HeissigK.The Miocene Land Mammals of Europe, Munich1999175–188IñigoC.1993Ed. Univ. ComplutenseMadridIñigoC.Protaceratherium platyodon (Rhinocerotidae, Mammalia) del yacimiento Mioceno de Córcoles (Guadalajara, España)501994247–252IñigoC.CerdeñoE.The Hispanotherium matritense (Rhinocerotidae) from Córcoles (Guadalajara, Spain): its contribution to the systematics of the Miocene Iranotheriina301997243–266MaddenC.T.Van CouveringJ.A.The Proboscidean Datum Event: Early Miocene migration from Africa1976992van der MadeJ.Listriodontinae (Suidae, Mammalia), their evolution, systematics and distribution in time and space3319963–254ProtheroD.R.SchochR.M.ProtheroD.R.SchochR.M.The Evolution of Perissodactyls1989Oxford University PressNew York530–539
Phylogenetic relationships of Hispanotherium corcolense n. sp. within Elasmotheriina (Rhinocerotidae). Cladistic analysis based on 282 anatomical characters [3] checked in 26 terminal taxa listed in Section 3. Two parsimonious trees (746 steps; CI = 0.47; RI = 0.64) are obtained by means of Hennig86, v. 1.5 [11]. A. Tree 1, selected by successive weighting. H. corcolense n. sp. and H. matritense are sister groups. The capital letters A to E correspond to the nodes for which the distribution of characters is discussed in the text. B. Tree 2, alternative topology (detail focusing on the Elasmotheriina). The nodes A, D and E of Tree 1 are supported. H. matritense is the sister group of (H. corcolense n. sp., node D). The lozenge indicates the hypothetic ancestor of the Elasmotheriina in both trees. The ambiguous branches are thickened.
Relations phylogénétiques d'Hispanotherium corcolense n. sp. au sein des Elasmotheriina (Rhinocerotidae). Analyse cladistique fondée sur 282 caractères anatomiques [3] contrôlés chez 26 taxons terminaux (listés au Section 3). Deux arbres également parcimonieux (746 pas ; IC = 0,47 ; IR = 0,64) sont obtenus grâce à Hennig86, v. 1.5 [11]. A. Arbre 1, sélectionné par pondération successive. H. corcolense n. sp. et H. matritense sont des groupes frères. Les lettres capitales A à E correspondent aux nœuds pour lesquels la distribution des caractères est discutée dans le texte. B. Arbre 2, topologie alternative (détail des Elasmotheriina). Les nœuds A, D et E de l'arbre 1 sont soutenus. H. matritense est le groupe frère de (H. corcolense n. sp., nœud D). Le losange indique l'ancêtre hypothétique des Elasmotheriina dans les deux arbres. Les branches ambiguës sont marquées par des traits épais.
Hispanotherium corcolense n. sp.: holotype. Right upper series with P1–P4 (Co-4943, 4942, 4937, 4940) and M2–3 (Co-4935, 4939) from the same individual. Córcoles (Spain, Guadalajara). Occlusal views. Scale bar: 5 cm.
Hispanotherium corcolense n. sp. : holotype. Série supérieure droite avec P1–P4 (Co-4943, 4942, 4937, 4940) et M2–3 (Co-4935, 4939) appartenant au même individu. Córcoles (Espagne, Guadalajara). Vues occlusales. Échelle : 5 cm.
Morphological comparison between Hispanotherium corcolense n. sp. and the closest Elasmotheriina, H. matritense, H. grimmi and ‘A.’ beonense. Subtables a–c, features respectively isolating H. grimmi, H. matritense and ‘A.’ beonense. Subtables d, f, characters jointly present in H. corcolense n. sp. and (successively) H. grimmi, H. matritense and ‘A.’ beonense. Subtable g, diagnostic features of H. corcolense n. sp. (autapomorphies).
Comparaison morphologique entre Hispanotherium corcolense n. sp. et les Elasmotheriina les plus proches, H. matritense, H. grimmi et ‘A.’ beonense. Sous-tableaux a–c, caractères isolant respectivement H. grimmi, H. matritense et ‘A.’ beonense. Sous-tableaux d, f, caractères conjointement présents chez H. corcolense n. sp. et (successivement) H. grimmi, H. matritense et ‘A.’ beonense. Sous-tableau g, caractères diagnostiques de H. corcolense n. sp. (autapomorphies).