Systematic revision of the species of Protypotherium (Notoungulata: Interatheriidae) from the Santa Cruz Formation (Early-Middle Miocene), Argentinian Patagonia: a new phylogenetic hypothesis for the Interatheriidae
Author
Fernández, Mercedes
División Paleontología de Vertebrados, Museo Argentino de Ciencias Naturales ‘ Bernardino Rivadavia’, Avenida Ángel Gallardo 470, C 1405 DJR Ciudad Autónoma de Buenos Aires, Argentina & Laboratorio Anatomía y Evolución de los Vertebrados, Departamento de Ciencias Básicas, Universidad Nacional de Luján, Ruta 5 y Avenida Constitución 6700 Luján, Buenos Aires, Argentina & Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Juan Domingo Perón 2158, C 1040 AAH, Buenos Aires, Argentina
mechisfernandezpaleo@gmail.com
Author
Fernicola, Juan C.
División Paleontología de Vertebrados, Museo Argentino de Ciencias Naturales ‘ Bernardino Rivadavia’, Avenida Ángel Gallardo 470, C 1405 DJR Ciudad Autónoma de Buenos Aires, Argentina & Laboratorio Anatomía y Evolución de los Vertebrados, Departamento de Ciencias Básicas, Universidad Nacional de Luján, Ruta 5 y Avenida Constitución 6700 Luján, Buenos Aires, Argentina & Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Juan Domingo Perón 2158, C 1040 AAH, Buenos Aires, Argentina
Author
Cerdeño, Esperanza
Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Juan Domingo Perón 2158, C 1040 AAH, Buenos Aires, Argentina & Paleobiología y Paleoecología, Instituto de Nivología, Glaciología y Ciencias Ambientales, Centro Científico Tecnológico-CONICET-Mendoza, Avenida Ruiz Leal s / n, M 5500 Mendoza, Argentina
text
Zoological Journal of the Linnean Society
2023
2023-07-11
199
2
417
444
http://dx.doi.org/10.1093/zoolinnean/zlad043
journal article
10.1093/zoolinnean/zlad043
0024-4082
8426263
Genus
Protypotherium
Ameghino, 1885
(
Figs 2–7
; Supporting Information,
Tables S1–S
2) 1882
Toxodontophanus
Moreno
, p. 23 (
nomen nudum
). 1885
Protypotherium
Ameghino
, p. 81 (original description). 1887a
Toxodontophanus
Ameghino
, p. 64 (original description). 2018
Epipatriarchus
Ameghino, 1904
; Vera
et al.
p. 203. 2021a
Eudiastatus
Ameghino, 1901
; Fernández
et al.
p. 882–883.
Type
species:
Protypotherium antiquum
Ameghino, 1885
, p. 81
–83 (original designation);
Ameghino, 1889
, pl. 15, fig.1, from Ituzaingó Formation,
Entre Ríos Province
,
Argentina
.
Figure 2.
Protypotherium australe
(D–E, G, I–J, L) and
Pr. praerutilum
(A–C, F, H, K, M), in occlusal view. (A) YPM-VPPU 15386, incomplete skull; (B) less I3 (alveolus)–C–dP1–P2–M3 of MACN-A 4049; (C) less I3–dP1–M3 of MACN-A 4278; (D) right I1 (alveolus)–dP1–P2–M3 of MACN-A 3882; (E) right I1–dP1–P2–M3 of MACN-A 9623–9633; (F) less I1 (alveolus)–dP1–P2–M3 of AMNH 9187; (G) right I1–2 (alveolus)–dP1–P2–M3 of YPM-VPPU 15643; (H) MLP 12-2886, incomplete skull; (I) right I1 (alveolus)–I2–dP1–P2–M3 of MACN-A 37; (J) MACN-A 3911, less maxillary fragment with C–dP1–P2–M3; (K) MACN-A 1778, right maxillary fragment with dP1–P2 (alveoli)– P3–M3; (L) right I1 (alveolus)–dP1–P2–M3 of AMNH 9149; (M) MACN-A 4016, less maxillary fragment with P4–M3.
*
indicates alveolus. Scale bar = 10 mm.
Figure 3.
Protypotherium australe
(B, F–M) and
Pr. praerutilum
(A, C–E), in occlusal view. (A) MACN-A 3952, right mandibular fragment with p3–m3; (B) less dp1–p2–m3 of AMNH 9286; (C) MACN-A 11191a, right mandibular fragment with m1–3; (D) right p2–m3 of MACN-A 9614; (E) right i1–dp1–p2–m3 of MACN-A 1082; (F) less p4–m3 of AMNH 9565; (G) right p2–m3 of AMNH 9149; (H) less i1–dp1– p2–m3 of MPM-PV 3531; (I) MACN-A 532, right mandibular fragment with m2–3; (J) right p2–m3 of MPM-PV 3739; (K) MPM-PV 19612, right mandibular fragment with m2 (broken)–3; (L) MACN-A 3979, less mandibular fragment with p3–m3; (M) MACN-A 3955, less mandibular fragment with p3–m3.
*
indicates alveolus; ’ indicates broken tooth. Scale bar = 10 mm.
Figure 4.
Protypotherium antiquum
, in occlusal view: (A) ZMK 21/1877, right mandibular fragment with p4–m3; (B) IBIGEO-P 39, less mandibular fragment with p4–m3.
Protypotherium australe
, in occlusal view: (C) MACN-A 1338 (cast), less maxillary fragment with P3 (broken)–M3.
Protypotherium praerutilum
, in occlusal view: (D) MACN-A 1081, incomplete skull; (E) MACN-A 3920, complete skull; (F) AMNH 9565, incomplete skull.
Protypotherium australe
, in occlusal view: (G) MACN-A 9644, incomplete skull. ’ indicates broken tooth. Scale bar = 10 mm.
Included species:
The
type
species,
Protypotherium australe
(
Ameghino, 1887a
);
Pr.praerutilum
Ameghin 1887b
;
Pr.claudum
Ameghino, 1889
,
Pr. compressidens
Ameghino, 1891b
;
Pr. columnifer
Ameghino, 1902
;
Pr. distinctum
Cabrera and Kraglievich, 1931
;
Pr. minutum
Cabrera & Kraglievich,1931
;
Pr.sinclairi
Kramarz
et al.
,2015
;
Pr.colloncurensis
Vera
etal.
, 2017; and
Pr.concepcionensis
Solórzano
etal.
, 2019.
Figure 5.
Scaưer diagram of the Santacrucian species of
Protypotherium
(except for
Pr. claudum
). A, Length vs. width of M1. B, Length vs. width of m1. Abbreviations: L, length; W, width.
Extended diagnosis:
Medium to large-sized
Interatheriinae
. The rostrum is long and high as in
Santiagorothia
,
Argyrohyrax
,
Miocochilius
, and
Federicoanaya
; the postero-dorsal process of the premaxilla is present as in
Santiagorothia
,
Argyrohyrax
, and
Caenophilus
; the descending process of the maxilla poorly to moderately developed, in contrast to
Cochilius
,
Interatherium
, and
Argyrohyrax
, in which it is always more developed. The cheek teeth are euhypsodont unlike the protohypsodont
Eopachyrucos
,
Santiagorothia
,
Proargyrohyrax
,
Argyrohyrax
,
Federicoanaya
, and
Brucemacfaddenia
. The P/p3–4 are not molarized unlike many other interateriines that present some degree of molarization. The upper dentition is continuous in contrast to
Interatherium
,
Miocochilius
,
Caenophilus
, and some species of
Cochilius
. I1 is more developed than I2 as in
Cochilius
,
Argyrohyrax
,
Miocochilius
,
Interatherium
, and
Brucemacfaddenia
. The upper cheek teeth present a persistent lingual groove that separates the protoloph from the metaloph as in
Neoicochilus
,
Archaeophylus
,
Choichephilum
,
Argyrohyrax
,
Miocochilius
,
Interatherium
,
Cochilius
,
Juchuysillu
, and
Progaleopithecus
; these teeth also lack a mid-lingual lobe in contrast to
Santiagorothia
,
Proargyrohyrax
,
Argyrohyrax
,
Cochilius
, and
Brucemacfaddenia
. P3–4 are sub-triangular and longer than wide as in
Caenophilus
and
Juchuysillu
; they are smaller than M1–2, whereas they are similar in the remaining
Interatheriinae
; the entoflexus is mesially located as in
Miocochilius
,
Juchuysillu
, and
Caenophilus
. The i1–3 are imbricated and lack spaces between the teeth in contrast to
Miocochilius
and
Patriarchus
. The i1–2 are bifid and bicolumnar as in
Federicoanaya
and
Progaleopithecus
, whereas
Cochilius
,
Argyrohyrax
,
Miocochilius
,
Interatherium
,
Proargyrohyrax
, and
Patriarchus
exhibit a vertical lingual groove. The i1 exhibits a sub-cylindrical section in contrast to
Cochilius
,
Argyrohyrax
, and
Interatherium
, which show a sub-elliptical section, and
Miocochilius
and
Patriarchus
, in which it is highly expanded mesio-distally. The i3 is larger than i
2 in
contrast to
Cochilius
,
Miocochilius
,
Interatherium
, and
Patriarchus
, in which these teeth are sub-equal. The dp1 lacks a differentiated talonid, as in
Interatherium
,
Brucemacfaddenia
,
Juchuysillu
,
Federicoanaya
, and
Caenophilus
. The lower molariforms exhibit the entoflexid opposite to the ectoflexid, whereas in
Eopachyrucos
,
Santiagorothia
,
Proargyrohyrax
,
Argyrohyrax
, and
Brucemacfaddenia
, the entoflexid is oriented distal to the ectoflexid. The p3–4 are smaller than the m1–2 as in
Juchuysillu
; these teeth lack a postmetacristid unlike
Eopachyrucos
,
Proargyrohyrax
,
Santiagorothia
, and
Argyrohyrax
; and the trigonid is longer than the talonid as in
Eopachyrucos
,
Santiagorothia
,
Proargyrohyrax
,
Miocochilius
,
Federicoanaya
,
Juchuysillu
, and
Caenophilus
. The m1–2 have the talonid longer than the trigonid unlike
Eopachyrucos
,
Proargyrohyrax
, and
Santiagorothia
, in which they are sub-equal; the talonid of m3 has a lingual groove unlike
Cochilius
and
Miocochilius
.
Figure 6.
Scaưer diagram of the Santacrucian species of
Protypotherium
(except for
Pr. claudum
). A, Length vs. width of M2. B, Length vs. width of m2. Abbreviations: L, length; W, width.
Figure 7.
Box-plot showing the length of I1–3 in: (A)
Pr. praerutilum
; (B)
Pr. australe
.
Occurrence:
Late Oligocene to Late Miocene. Known from the Deseadan SALMA of
Uruguay
; the Deseadan, Colhuehuapian, Santacrucian, Colloncuran, ‘Mayoan’, Chasicoan, and Huayquerian SALMAs of
Argentina
; the Santacrucian, Friasian, and ‘Mayoan’ SALMAs of
Chile
; and the Huayquerian SALMA of
Bolivia
.
Description:
Sinclair (1909) published an exhaustive description of
Protypotherium
, particularly of the skull and mandible. The most relevant dental characteristics of the (d)I/i1–(d)C/c and (d)P/p1–4 of this genus were described by
Fernández
et al.
(2019
,
2021a
, b). To avoid redundancy, we discuss only the main characteristics of these teeth that justify the synonyms proposed here. However, the characteristics of M/m1–3 are described in detail in the following paragraphs.
Protypotherium
has a complete dental formula, 3/3; 1/1; 4/4; 3/3. The dental arcade is generally continuous; there is a layer of cementum in the labial and lingual faces of each tooth, which is markedly reduced in the mesial and distal imbrication areas.
Upper permanent dentition:
The upper cheek teeth are euhypsodont, with continuous enamel around the entire crown, being thinner at the mesio- and disto-labial angles; these teeth have a variable degree of imbrication. The upper premolars increase in size antero-posteriorly, but none of them reach molar proportions. The dP1 has a sub-cylindrical (e.g. MACN-A 9650 and YPM-VPPU 15386;
Fig. 2A
) to sub-elliptical (e.g. MACN-A 4049 and MPM-PV 4278;
Fig. 2B–C
) cross-section and the parastylar groove is of variable persistence, being superficial (e.g. AMNH 9187, MACN-A 3882, and MACN-A 3920) to persistent (e.g. MACN-A 4052, MPM-PV 4264, YPM-VPPU 15189, YPM-VPPU 15598, MACN-A 9521–9540); it can be mesially and distally imbricated by (d)C and (d)P2, respectively (e.g. MACN-A 3882, MACN-A 9623–9633, and MPM-PV 4278;
Fig. 2D–E
), only distally imbricated (e.g. AMNH 9187, AMNH 9226, AMNH 9260, MACN-A 4049, YPM-VPPU 15195, and YPM-VPPU 15643;
Fig. 2F–G
), or not imbricated at all (e.g. MACN-A 37, MLP 12-2886 and MPM-PV 4347;
Fig. 2H–I
).
M1–3 of
Protypotherium
differ from each other by their size, which generally decreases antero-posteriorly. Further M1–3 details are: the parastylar groove is, in general terms, superficial; the metacone is not completely individualized from the paracone, so the ectoloph is slightly undulated. The entoflexus is in the middle region of the tooth and it is transversally deep and persistent (i.e. vertically deep). It can be simple, this state being more common, or bifid; in fact, internal asymmetries concerning this feature have been identified, for example, in SGO.PV 21000, less M1–2 show a bifid entoflexus, whereas it is simple in right M1–2. The protoloph and metaloph are, in general terms, sub-equal in development and slightly lingually straight. M1–3 are longer than wide, and sub-rectangular in appearance. M3 presents the same characteristics as M1–2, except for the presence of the following: a more distally expanded metaloph, the length of which varies from poorly developed (e.g. MACN-A 3911 and MACN-A 1778;
Fig. 2J–K
) to highly developed (e.g. AMNH 9149 and MACN-A 4016;
Fig. 2L–M
); a metastyle evidenced by the presence of a conspicuous labial sulcus; and a rudimentary (e.g. MACN-A 1778, MACN-A 3911, and MLP 92-XI-18-31a;
Fig. 2J–K
) to moderately (e.g. MACN-A 9623–9633, MLP 91-IX-4-26, and YPM-VPPU 15386;
Fig. 2A, E
) excavated distal concavity or notch.
Lower permanent dentition:
The permanent lower cheek teeth are euhypsodont. The p2–m3 are longer than wide; these cheek teeth are labially imbricated, so that the paralophid of the posterior cheek tooth overlaps the distal region of the hypolophid of the anterior tooth; in other words, the overlapping is the opposite to that of i1–dp1, which is lingual.
The m1–3 are morphologically similar to each other and, unlike the premolars, the talonid is longer than the trigonid, the former being P shaped and the laưer being sub-triangular. The mesio-lingual portion of the talonid can have a conspicuous concavity (e.g.
Fig. 3A, F, L
). The m3 presents the same characteristics as m1–2, except for exhibiting a longer talonid and having the lingual face always interrupted by a persistent groove of variable transversal depth: it can be shallow (e.g. MACN-A 3952;
Fig. 3A
), moderate (e.g. AMNH 9286 and MACN-A 11191a;
Fig. 3B–C
), or deep (e.g. MACN-A 3884 and MACN-A 9614;
Fig. 3D
). In contrast, the labial region can be smooth, without any groove (e.g. AMNH 9565 and MACN-A 1082;
Fig. 3E–F
), or it can present a groove mesially located with respect to the lingual sulcus, which can be superficial (e.g. AMNH 9149, MACN-A 3841, and MACN-A 3980, and MPM-PV 3531;
Fig. 3G–H
), moderate (e.g. MACN-A 532, MACN-A 3952, and MPM-PV 3739;
Fig. 3I–J
), or deep (e.g. MPM-PV 19612 and MLP 91-V-1-129;
Fig. 3K
). When the labial sulcus is present, the talonid is divided into two lobes, the anterior being rather rounded and more developed than the posterior (e.g. MACN-A 3952–3953, MACN-A 3955, MACN-A 3957–3958, MACN-A 3979, and MACN-A 11191b;
Fig. 3L–M
).