Your search keyword '"Yutaka Kunimatsu"' showing total 23 results

1. Loss of the subarcuate fossa and the phylogeny of Nacholapithecus

Author

Daisuke Shimizu, Yoshihiko Nakano, Hidemi Ishida, Masato Nakatsukasa, and Yutaka Kunimatsu

Subjects

Subarcuate fossa, medicine.anatomical_structure, Phylogenetics, Anthropology, medicine, Anatomy, Biology, Ecology, Evolution, Behavior and Systematics

Published

2019

2. New femoral remains of Nacholapithecus kerioi: Implications for intraspecific variation and Miocene hominoid evolution

Author

Yutaka Kunimatsu, Yasuhiro Kikuchi, Daisuke Shimizu, Hiroshi Tsujikawa, Yoshihiko Nakano, Marta Pina, Naomichi Ogihara, Tomo Takano, Hidemi Ishida, and Masato Nakatsukasa

Subjects

Male, Equatorius, Arboreal locomotion, Range (biology), Intraspecific competition, Miocene hominoids, Femoral head, Species Specificity, Quadrupedalism, medicine, Animals, Femur, Ecology, Evolution, Behavior and Systematics, Positional behavior, Functional morphology, biology, Fossils, Holotype, Hominidae, biology.organism_classification, Biological Evolution, Kenya, medicine.anatomical_structure, Evolutionary biology, Anthropology, Female

Abstract

The middle Miocene stem kenyapithecine Nacholapithecus kerioi (16–15 Ma; Nachola, Kenya) is represented by a large number of isolated fossil remains and one of the most complete skeletons in the hominoid fossil record (KNM-BG 35250). Multiple fieldwork seasons performed by Japanese–Kenyan teams during the last part of the 20th century resulted in the discovery of a large sample of Nacholapithecus fossils. Here, we describe the new femoral remains of Nacholapithecus. In well-preserved specimens, we evaluate sex differences and within-species variation using both qualitative and quantitative traits. We use these data to determine whether these specimens are morphologically similar to the species holotype KNM-BG 35250 (which shows some plastic deformation) and to compare Nacholapithecus with other Miocene hominoids and extant anthropoids to evaluate the distinctiveness of its femur. The new fossil evidence reaffirms previously reported descriptions of some distal femoral traits, namely the morphology of the patellar groove. However, results also show that relative femoral head size in Nacholapithecus is smaller, relative neck length is longer, and neck–shaft angle is lower than previously reported for KNM-BG 35250. These traits have a strong functional signal related to the hip joint kinematics, suggesting that the morphology of the proximal femur in Nacholapithecus might be functionally related to quadrupedal-like behaviors instead of more derived antipronograde locomotor modes. Results further demonstrate that other African Miocene apes (with the exception of Turkanapithecus kalakolensis) generally fall within the Nacholapithecus range of variation, whose overall femoral shape resembles that of Ekembo spp. and Equatorius africanus. Our results accord with the previously inferred locomotor repertoire of Nacholapithecus, indicating a combination of generalized arboreal quadrupedalism combined with other antipronograde behaviors (e.g., vertical climbing).

Published

2021

3. Sexual dimorphism of body size in an African fossil ape, Nacholapithecus kerioi

Author

Yoshihiko Nakano, Tomo Takano, Yutaka Kunimatsu, Daisuke Shimizu, Yasuhiro Kikuchi, Naomichi Ogihara, Masato Nakatsukasa, Hiroshi Tsujikawa, Yoshihiro Sawada, Hidemi Ishida, and Hideo Nakaya

Subjects

Male, 0106 biological sciences, Taphonomy, Troglodytes, Gorilla, Proconsul nyanzae, Body size, 010603 evolutionary biology, 01 natural sciences, Sex Factors, stomatognathic system, biology.animal, Animals, Body Size, 0601 history and archaeology, Polygyny, Ecology, Evolution, Behavior and Systematics, 060101 anthropology, biology, Fossils, Hominidae, 06 humanities and the arts, biology.organism_classification, Mating system, Kenya, Sexual dimorphism, Evolutionary biology, Anthropology, Female

Abstract

Sexual size dimorphism in the African fossil ape Proconsul nyanzae (18 million years ago, 18 Ma) has been previously documented. However, additional evidence for sexual dimorphism in Miocene hominoids can provide great insight into the history of extant hominoid mating systems. The present study focused on body mass (BM) sexual dimorphism in Nacholapithecus kerioi from the Middle Miocene (16–15 Ma) in Africa. Bootstrap analysis revealed that P. nyanzae BM sexual dimorphism was lower than that in Pan troglodytes, which exhibits moderate sexual dimorphism, as reported previously. The same simulation revealed that BM sexual dimorphism of N. kerioi was comparable with that in Gorilla spp.; i.e., the males were approximately twice as large as the females. High sexual dimorphism in extant apes is usually indicative of a polygynous social structure (gorilla) or solitary/fission-fusion social system (orangutan). However, because of the high proportion of adult males in this fossil assemblage, the magnitude of dimorphism inferred here cannot be associated with a gorilla-like polygynous or oranguran-like solitary/fission-fusion social structure, and may reflect either taphonomic bias, or some other social structure. Extant hominoids have a long evolutionary history owing to their deep branching, comprising only a few existing members of the original highly successful group. Therefore, it is not surprising that the mating systems of extant hominoids fail to provide fossil apes with a perfect “model”. The mating systems of extinct hominoids may have been more diverse than those of extant apes.

Published

2018

4. Listriodontine Suid and Tragulid Artiodactyls (Mammalia) from the Upper Miocene Nakali Formation, Kenya

Author

Yutaka Kunimatsu, Naoki Morimoto, Hideo Nakaya, Masato Nakatsukasa, Takehisa Tsubamoto, Mototaka Saneyoshi, Tetsuya Sakai, and Daisuke Shimizu

Subjects

010506 paleontology, Dorcatherium, Listriodontinae, biology, Lineage (evolution), Paleontology, Zoology, Late Miocene, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Ruminantia, Genus, Vallesian, East africa, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

Two rare artiodactyl mammals from the basal upper Miocene Nakali Formation (ca. 10 Ma) of central Kenya are described. They are cf. Listriodon sp. (Suidae, Listriodontinae) and Dorcatherium cf. pigotti (Ruminantia, Tragulidae), which are the first discoveries of a listriodontine and a tragulid in the formation. Cf. Listriodon sp. is represented by a talonid of a lower molar that has a strongly lophodont hypolophid. Although this listriodontine material is fragmentary, it is comparable in morphology and size to large and fully lophodont species of the genus Listriodon, such as L. splendens and L. pentapotamiae theobaldi. If the Nakali specimen proves to be phyletically closely related to these two species, it indicates that a highly derived lineage of Listriodon existed in East Africa around 10 Ma, implying a possible migration of this lineage from Europe/Asia to East Africa during the middle or earliest late Miocene. Dorcatherium cf. pigotti is represented by DP4 (or M1) and a mandible with p3–m...

Published

2017

5. A newly discovered galagid fossil from Nakali, an early Late Miocene locality of East Africa

Author

Mototaka Saneyoshi, Yoshihiro Sawada, Yutaka Kunimatsu, Hideo Nakaya, Masato Nakatsukasa, and Tetsuya Sakai

Subjects

Paleodontology, Primates, 0106 biological sciences, 010506 paleontology, Fossils, Locality, Paleontology, Africa, Eastern, Late Miocene, Biological Evolution, 010603 evolutionary biology, 01 natural sciences, Anthropology, East africa, Animals, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences

Published

2017

6. The late Miocene hominoid-bearing site in the Maragheh Formation, Northwest Iran

Author

Zahra Orak, Mahito Watabe, Majid Mirzaie Ataabadi, Sevket Sen, Mikael Fortelius, Gholamreza Zaree, Johanna Salminen, Tetsuya Sakai, Yoshihiro Sawada, Gen Suwa, Anu Kaakinen, Yutaka Kunimatsu, Zhang Zhaoqun, Mohammad Paknia, and Hideo Nakaya

Subjects

010506 paleontology, Global and Planetary Change, Ecology, biology, Paleontology, Geology, Context (language use), Late Miocene, Ouranopithecus, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Geochronology, Mesopithecus, Sedimentology, Polarity chron, Ecology, Evolution, Behavior and Systematics, Magnetostratigraphy, 0105 earth and related environmental sciences

Abstract

After a long period of inactivity, recent excavations at the late Miocene Maragheh Formation unexpectedly resulted in the discovery of the first fossil hominoid and second Mesopithecus remains from this area. The discovery motivated a new international initiative to conduct research in these rich fossil sites. These studies focused on the fossil hominoid and its locality, aiming to reveal more about the context of this fossil discovery. Detailed stratigraphy, sedimentology and magnetostratigraphy studies were conducted. New samples from volcaniclastic key horizons (pumice beds) in Dareh Gorg, where the hominoid fossil site is located, were dated by radiometric methods. The radiometric age determinations provide a firm tie-point for the geochronology. The polarity pattern in the palaeomagnetically investigated section corroborates the K-Ar results. The preliminary magnetostratigraphic results suggest that the hominoid locality can be correlated to the normal polarity chron C4n.2n (8.108–7.695 Ma), C4n.1n (7.642–7.528 Ma) or C3Br.1n (7.285–7.251 Ma), placing it at intervals corresponding to the mammal units MN11 or possibly early MN12. The study of fossil hominoid indicates broad affinities with a number of contemporaneous taxa from the Balkan-Iranian palaeoprovince, as well as Siwaliks and southeast Asia. A preliminary analysis of the accompanying (in situ) fauna at the hominoid site indicates the highest similarity of this level to Turolian hominoid- and Mesopithecus-bearing localities in Turkey, Greece and Bulgaria. However, some environmental differences are observed among these localities, based on their faunal structure and taxon properties, as well as in the different masticatory adaptations of their hominoids.

Published

2016

7. The first hominoid from the Maragheh Formation, Iran

Author

Gen Suwa, Zahra Orak, Tomohiko Sasaki, Yutaka Kunimatsu, Majid Mirzaie Ataabadi, and Mikael Fortelius

Subjects

0301 basic medicine, 010506 paleontology, Global and Planetary Change, Ankarapithecus, Ecology, biology, Paleontology, Geology, Late Miocene, Ouranopithecus, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Mesopithecus, Biological dispersal, East Asia, Ouranopithecus macedoniensis, Sivapithecus, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

Miocene hominoid fossils are known from Africa and Eurasia, in the latter ranging widely from western Europe to Anatolia and from South Asia to Southeast/East Asia. Iran is located between the known western and eastern Eurasian hominoid distributions and is potentially important in understanding Miocene hominoid dispersal patterns. Maragheh is a late Miocene fossil locality in northwestern Iran, well known since the nineteenth century for its abundant mammalian fossils. However, until now, the only primate fossils reported from Maragheh or Iran were the Old World monkey Mesopithecus pentelicus. Recent field research at Maragheh has changed this situation by the discovery of the first hominoid fossil from Iran, a maxillary fragment with well-preserved second and third molars. Here, we provide a detailed description of this new specimen, comparing it with other similarly large-sized Eurasian late Miocene hominoids, Ouranopithecus, Ankarapithecus, Sivapithecus, and Indopithecus. Molar morphology of the Maragheh hominoid is similar to that of these Eurasian Miocene genera, with only minor differences in morphology and wear pattern. Based on the presently available materials, we tentatively prefer the interpretation that the Maragheh hominoid may be related more closely to either Ankarapithecus or Sivapithecus rather than to Ouranopithecus, but the fragmentary nature of the fossil makes evaluations difficult. Future discoveries of this Iranian hominoid are needed to determine its phylogenetic position with more certainty.

Published

2016

8. Kantis: A new Australopithecus site on the shoulders of the Rift Valley near Nairobi, Kenya

Author

Soichiro Kusaka, Yutaka Kunimatsu, Takafumi Hirata, Samuel Muteti, Christine Omuombo, Masato Nakatsukasa, Tohru Danhara, Mototaka Saneyoshi, René Bobe, Hideki Iwano, Brian R. Jicha, Emma Mbua, Francis H. Brown, Tetsuya Sakai, Jean-Renaud Boisserie, Akira Hayashida, Denis Geraads, Yoshihiro Sawada, Institut International de Paléoprimatologie, Paléontologie Humaine : Evolution et Paléoenvironnement (IPHEP), and Centre National de la Recherche Scientifique (CNRS)-Université de Poitiers

Subjects

0106 biological sciences, paleoenvironment, Pliocene, Range (biology), Fauna, Woodland, Environment, 010603 evolutionary biology, 01 natural sciences, Paleontology, Animals, 0601 history and archaeology, ComputingMilieux_MISCELLANEOUS, Ecology, Evolution, Behavior and Systematics, Hominin, Fossils, Carbon stable isotope, Paleoenvironment, 060101 anthropology, Rift, biology, 1. No poverty, Geology, Hominidae, 06 humanities and the arts, biology.organism_classification, Biological Evolution, Kenya, carbon stable isotope, Australopithecus, Anthropology, Mammal, fossils, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Animal Distribution, Australopithecus afarensis, Rift valley

Abstract

Most Plio-Pleistocene sites in the Gregory Rift Valley that have yielded abundant fossil hominins lie on the Rift Valley floor. Here we report a new Pliocene site, Kantis, on the shoulder of the Gregory Rift Valley, which extends the geographical range of Australopithecus afarensis to the highlands of Kenya. This species, known from sites in Ethiopia, Tanzania, and possibly Kenya, is believed to be adapted to a wide spectrum of habitats, from open grassland to woodland. The Kantis fauna is generally similar to that reported from other contemporaneous A. afarensis sites on the Rift Valley floor. However, its faunal composition and stable carbon isotopic data from dental enamel suggest a stronger C4 environment than that present at those sites. Although the Gregory Rift Valley has been the focus of paleontologists' attention for many years, surveys of the Rift shoulder may provide new perspective on African Pliocene mammal and hominin evolution, ケニア・ナイロビ郊外で初めて発見されたアウストラロピテクス. 京都大学プレスりリス. 2016-03-24.

Published

2016

9. A New Species of Nyanzachoerus (Mammalia, Artiodactyla, Suidae, Tetraconodontinae) from the Upper Miocene Nakali Formation, Kenya

Author

Daisuke Shimizu, Naoto Handa, Masato Nakatsukasa, Yoshiki Tanabe, Yutaka Kunimatsu, Mototaka Saneyoshi, Tetsuya Sakai, Naoki Morimoto, Fredrick Kyalo Manthi, Hideo Nakaya, and Takehisa Tsubamoto

Subjects

Paraphyly, 010506 paleontology, biology, Dentition, media_common.quotation_subject, Paleontology, Zoology, Tetraconodontinae, Late Miocene, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Nyanzachoerus, Suidae, East africa, Phyletic gradualism, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, media_common

Abstract

A new species of Nyanzachoerus (Mammalia, Artiodactyla, Suidae, Tetraconodontinae), Nyanzachoerus nakaliensis, is described on the basis of gnathodental specimens from the basal upper Miocene Nakali Formation (ca. 10 Ma) of central Kenya. Ny. nakaliensis is characterized by a lower crown height and relatively weaker furrows of the molars and proportionally larger P3–P4 compared to M3 among the species of the genus. It is the oldest and morphologically most primitive species of the genus. It shows close morphological similarities of the dentition with the Pliocene Asian tetraconodontine genus Sivachoerus, implying a possible closer phyletic relationship of Sivachoerus prior with Ny. nakaliensis rather than with Nyanzachoerus tulotos or Nyanzachoerus devauxi. This phyletic relationship implies a possibility that S. prior diverged from a stock of Ny. nakaliensis during the early late Miocene (Tortonian) in East Africa and then the lineage moved from East Africa to Asia. Finally, it should be stressed that there seems to be a problem of the paraphyly of the genus Nyanzachoerus.

Published

2020

10. Morphology of the thoracolumbar spine of the middle Miocene hominoid Nacholapithecus kerioi from northern Kenya

Author

Yasuhiro Kikuchi, Yoshihiko Nakano, Hiroshi Tsujikawa, Tomo Takano, Masato Nakatsukasa, Yutaka Kunimatsu, Hidemi Ishida, Naomichi Ogihara, and Daisuke Shimizu

Subjects

Male, musculoskeletal diseases, Lumbar Vertebrae, Morphology (linguistics), Hominidae, Proconsul nyanzae, Anatomy, Lumbar vertebrae, Biology, musculoskeletal system, biology.organism_classification, Kenya, Thoracic Vertebrae, Vertebra, Lumbar, medicine.anatomical_structure, Anthropology, Thoracic vertebrae, medicine, Animals, Keel (bird anatomy), Ecology, Evolution, Behavior and Systematics

Abstract

A new caudal thoracic and a new lumbar vertebra of Nacholapithecus kerioi, a middle Miocene hominoid from northern Kenya, are reported. The caudal thoracic vertebral body of N. kerioi has a rounded median ventral keel and its lateral sides are moderately concave. The lumbar vertebral body has an obvious median ventral keel. Based on a comparison of vertebral body cranial articular surface size between the caudal thoracic vertebrae in the present study and one discussed in a previous study (KNM-BG 35250BO, a diaphragmatic vertebra), N. kerioi has at least two post-diaphragmatic vertebrae (rib-bearing lumbar-type thoracic vertebrae), unlike extant hominoids. It also has thick, rounded, and moderately long metapophyses on the lumbar vertebra that project dorsolaterally. The spinous process bases of its caudal thoracic and lumbar vertebrae originate caudally between the postzygapophyses, as described previously in the KNM-BG 35250 holotype specimen. In other words, the postzygapophyses of N. kerioi do not project below the caudal border of the spinous processes, similar to those of extant great apes, and unlike small apes and monkeys, which have more caudally projecting postzygapophyses. Nacholapithecus kerioi has a craniocaudally expanded spinous process in relation to vertebral body length, also similar to extant great apes. Both these spinous process features of N. kerioi differ from those of Proconsul nyanzae. The caudal thoracic vertebra of N. kerioi has a caudally-directed spinous process, whose tip is tear-drop shaped. These features resemble those of extant apes. The morphology of the spinous process tips presumably helps vertebral stability by closely stacking adjacent spinous process tips as seen in extant hominoids. The morphology of the spinous process and postzygapophyses limits the intervertebral space and contributes to the stability of the functional lumbar region as seen in extant great apes, suggesting that antipronograde activity was included in the positional behavior of N. kerioi.

Published

2015

11. A Lower Molar of a Primitive, Large Hippopotamus from the Lower Miocene of Kenya

Author

Yutaka Kunimatsu, Takehisa Tsubamoto, and Masato Nakatsukasa

Subjects

Molar, Hippopotamidae, Paleontology, Upper dentition, Cetartiodactyla, biology, Hippopotamus, Mesial root, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

A trigonid of a lower molar of a primitive, large hippopotamus from the upper lower Miocene of Mfwangano Island in southwestern Kenya is described. The molar trigonid is similar in size to that of living hippopotamuses, and is comparable in morphology to that of kenyapotamine hippopotamids (Mammalia, Cetartiodactyla) in having a brachyodont crown, bunodont cusps, an M-like structure on the distal trigonid wall, a single-ridged premetacristid, and a buccolingually bifurcate mesial root, and in lacking a paraconid. On the basis of its size and morphology, the specimen appears to be assignable to Kulutherium, which is a putative kenyapotamine previously known from the upper lower Miocene of Kenya and is so far represented only by the upper dentition. The present specimen provides additional evidence that a hippopotamus-sized, large hippopotamid was already living during the early Miocene. If it proves to be Kulutherium, it provides additional evidence that Kulutherium should be assigned to the Keny...

Published

2015

12. New Specimens ofChilotheridium(Perissodactyla, Rhinocerotidae) from the Upper Miocene Namurungule and Nakali Formations, Northern Kenya

Author

Naoto Handa, Yutaka Kunimatsu, Masato Nakatsukasa, Hideo Nakaya, and Takehisa Tsubamoto

Subjects

Paleontology, Range (biology), Lower upper, Late Miocene, Hypocone, Ecology, Evolution, Behavior and Systematics, Geology, Protocone

Abstract

Rhinocerotid fossils from the lower upper Miocene Namurungule and Nakali Formations, northern Kenya, are described. These materials reveal the following diagnostic characters of Chilotheridium pattersoni: a strongly constricted protocone with a flattened lingual wall, a hypocone groove, a developed crochet, and an antecrochet curved toward the entrance of the medisinus. Specimens previously described from the Namurungule Formation as rhinocerotids are re-identified as C. pattersoni. The Nakali Formation specimens presented in this study are the first discovery of C. pattersoni from this locality. In addition, deciduous teeth of C. pattersoni, which were unknown previously, are reported for the first time. This discovery of C. pattersoni extends its temporal range to the early late Miocene.

Published

2015

13. Systematic Morphology and Evolutionary Anatomy of the Autonomic Cardiac Nervous System in the Lesser Apes, Gibbons (Hylobatidae)

Author

Tomokazu Kawashima, Richard W. Thorington, James F. Whatton, and Yutaka Kunimatsu

Subjects

Nervous system, Superior cervical ganglion, Sympathetic nervous system, Sympathetic Nervous System, Histology, viruses, Hylobatidae, Superior Cervical Ganglion, Autonomic Nervous System, film.subject, Heart Conduction System, biology.animal, medicine, Animals, Humans, Primate, Ecology, Evolution, Behavior and Systematics, biology, Cercopithecidae, Anatomy, Biological Evolution, Ganglion, Autonomic nervous system, medicine.anatomical_structure, Cardiac nerve, film, Biotechnology

Abstract

We examined the morphology of the autonomic cardiac nervous system (ACNS) on 20 sides of 10 gibbons (Hylobatidae) of three genera, and we have inferred the evolution of the anatomy of the primate ACNS. We report the following. (1) Several trivial intraspecific and interspecific variations are present in gibbons, but the general arrangement of the ACNS in gibbons is consistent. (2) Although the parasympathetic vagal cardiac nervous system is extremely consistent, the sympathetic cardiac nervous system, such as the composition of the sympathetic ganglia and the range of origin of the sympathetic cardiac nerves, exhibit topographical differences among primates. (3) The vertebral ganglion, seldom observed in the Old World monkeys (Cercopithecidae), was consistently present in gibbons as well as in humans. (4) There are fewer thoracic ganglia contributing to the cervicothoracic ganglion in humans than in gibbons and in gibbons than in Old World monkeys. (5) The superior cardiac nerve originating from the superior cervical ganglion, rarely observed in Old World monkeys but commonly observed in humans, was present in 13 of 20 sides (65%), mostly on the left. Accordingly, the ACNS morphology exhibits evolutionary changes within the primate lineage. These evolutionary differences between Old World monkeys, gibbons, and humans are most parsimoniously interpreted as resulting from regular changes in the lineages leading from their common ancestor to the extant species that we dissected. They include the reduction in the number of thoracic ganglia contributing to the cervicothoracic ganglion and the expansion of the range of the cardiac nervous origin.

Published

2008

14. Sacral vertebral remains of the Middle Miocene hominoid Nacholapithecus kerioi from northern Kenya

Author

Yasuhiro Kikuchi, Hiroshi Tsujikawa, Naomichi Ogihara, Yutaka Kunimatsu, Yoshihiko Nakano, Tomo Takano, Masato Nakatsukasa, Daisuke Shimizu, and Hidemi Ishida

Subjects

musculoskeletal diseases, 0106 biological sciences, Male, Sacrum, Hominidae, Proconsul nyanzae, Atelidae, 010603 evolutionary biology, 01 natural sciences, Sacral Vertebra, medicine, Animals, 0601 history and archaeology, Ecology, Evolution, Behavior and Systematics, 060101 anthropology, biology, Fossils, 06 humanities and the arts, Anatomy, musculoskeletal system, biology.organism_classification, Biological Evolution, Kenya, Vertebra, body regions, medicine.anatomical_structure, Proconsul (primate), Anthropology, Lumbosacral joint

Abstract

This study describes two new sacral specimens of Nacholapithecus kerioi, KNM-BG 42753I and KNM-BG 47687A, from the Aka Aiteputh Formation in Nachola, northern Kenya, excavated in 2002. They are of roughly equal size and are considered to belong to males. When scaled by body mass, the lumbosacral articular surface area of the better preserved specimen, KNM-BG 42753I, is smaller than that in Old World monkeys but similar to that in extant great apes and New World monkeys, as well as Proconsul nyanzae. The relatively narrow dimensions of the first sacral vertebral body in the transverse and sagittal planes are characteristics of N. kerioi and P. nyanzae and similar to those of extant great apes. In N. kerioi, lumbosacral surface area relative to body mass is small. This may simply be an extension of a trend from the previously reported small thoracolumbar vertebrae to the sacrum. ​The first sacral vertebrae of N. kerioi and Epipliopithecus vindobonensis have a higher craniocaudal vertebral body reduction (CVR; a higher CVR indicates a wider cranial width relative to a narrower caudal width), similar to that in Old World monkeys. Old World monkeys have a higher CVR, and usually have three sacral vertebrae, fewer than seen in extant great apes, which have a lower CVR and four to six (sometimes as many as eight) sacral vertebrae. New World monkeys have a lower CVR than Old World monkeys, but generally possess only three sacral vertebrae, and have a large caudal articular surface, which may be related, at least in the Atelidae, to the grasping ability of their tails. The possibility that N. kerioi had only three sacral vertebrae cannot be ruled out, because E. vindobonensis and Old World monkeys, with higher CVRs, have sacra consisting of three sacral vertebrae.

Published

2015

15. Magnetostratigraphy of the Miocene Chiang Muan Formation, northern Thailand: Implication for revised chronology of the earliest Miocene hominoid in Southeast Asia

Author

Yusuke Suganuma, Yutaka Kunimatsu, T. Hamada, Shinji Nagaoka, Haruo Saegusa, Benjavun Ratanasthien, Satoshi Tanaka, Makoto Okada, and Hideo Nakaya

Subjects

Paleomagnetism, Paleontology, Fluvial, Oceanography, Southeast asian, Earth's magnetic field, Geologic time scale, Remanence, Ecology, Evolution, Behavior and Systematics, Geology, Magnetostratigraphy, Earth-Surface Processes, Chronology

Abstract

A paleomagnetic study has been conducted on the Miocene Chiang Muan Formation in northern Thailand, in order to provide a chronology for the earliest large-bodied Miocene hominoid in Southeast Asia. The Chiang Muan Formation is mainly composed of clay, silt and sand beds, indicating lacustrine and fluvial environments. Paleomagnetic samples were collected from 124 horizons along an approximately 150 m thick section from the Chiang Muan Formation at the opencast Chiang Muan Mine. Rock magnetic experiments and stepwise thermal demagnetizations revealed that the main carrier of the magnetization of the sediments is magnetite and the samples have stable magnetization. Exceptionally, stable magnetization is also carried by hematite, which is represented by red colored sediments. Characteristic remanent magnetization (ChRM) directions, calculated by the principal component analysis, revealed normal or reversed polarities of magnetization, which allow the application of the reversal test of McFadden and McElhinny [McFadden, P.L., McElhinny, M.W., 1990. Classification of the reverse test in paleomagnetism. Geophys. Int. 103, 725–729]. The mean paleomagnetic directions of the normal and reversed polarities passed the reversal test with a classification C, indicating that the Chiang Muan Formation preserved the primary magnetization. In total, five normal and four-reversed polarity zones are recognized from the studied section. Based on paleontological age constraints, this magnetostratigraphic column of the Chiang Muan Formation correlates best with Chron C5AAn-C5n of the geomagnetic polarity time scale (GPTS) from the geological time scale (GTS2004) developed by Gradstein et al. [Gradstein, F., Ogg, J., Smith, A. (Eds.) 2004. A Geological Time Scale 2004. Cambridge Univ. Press, Cambridge, UK, p. 589]. This correlation revealed that sedimentation of the Chiang Muan Formation began approximately at 13 Ma and continued until 9.8 Ma with a mean sedimentation rate of approximately 4.2 cm/ky. The age of the earliest Southeast Asian hominoid is between 12.4 and 13.0 Ma.

Published

2006

16. Tail loss in Proconsul heseloni

Author

Alan Walker, Masato Nakatsukasa, Mark F. Teaford, Naomichi Ogihara, Carol V. Ward, and Yutaka Kunimatsu

Subjects

biology, Proconsul (primate), Evolutionary biology, Anthropology, Biological anthropology, Zoology, Morphology (biology), Biological evolution, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

2004

17. Maxillae and associated gnathodental specimens of Nacholapithecus kerioi, a large-bodied hominoid from Nachola, northern Kenya

Author

Yutaka Kunimatsu, Hidemi Ishida, Katsuhiro Nakayama, Yoshihiko Nakano, Masato Nakatsukasa, and Yoshihiro Sawada

Subjects

biology, Fossils, Mandible, Postcrania, Hominidae, Anatomy, Classification, biology.organism_classification, Kenya, medicine.anatomical_structure, Proconsul (primate), Anthropology, Maxilla, medicine, East africa, Animals, Humans, Hard palate, Kenyapithecus, Tooth, Ecology, Evolution, Behavior and Systematics

Abstract

The middle Miocene large-bodied hominoid from Nachola, initially attributed to Kenyapithecus, was recently transferred to a new genus and species Nacholapithecus kerioi. The hypodigm of N. kerioi consists of numerous maxillae, mandibles, and isolated teeth, as well as a number of postcranial bones. A detailed description of the previously discovered postcranial material has already been presented. This article aims to give a detailed description of maxillary specimens (including some mandibular fragments associated with them) of N. kerioi collected by the Japan-Kenya Joint Project team during the field seasons of 1982, 1984, and 1986. The maxillary specimens of N. kerioi retain a set of primitive catarrhine features, such as a relatively shallow palate, low position of the anterior zygomatic root, and the lack of enlarged premolars. Yet, compared to the Early Miocene Proconsul, N. kerioi is derived in having a moderately elongated subnasal clivus that appears to have overlapped the hard palate.

Published

2004

18. Nacholapithecus skeleton from the Middle Miocene of Kenya

Author

Masato Nakatsukasa, Yoshihiko Nakano, Hidemi Ishida, Tomo Takano, and Yutaka Kunimatsu

Subjects

Male, Arboreal locomotion, Body proportions, biology, Fossils, Postcrania, Hominidae, Anatomy, biology.organism_classification, Kenya, Skeleton (computer programming), Anthropology, Physical, body regions, Hispanopithecus, Proconsul (primate), Anthropology, Animals, Dentition, Humans, Pierolapithecus, Kenyapithecus, Locomotion, Skeleton, Ecology, Evolution, Behavior and Systematics

Abstract

An almost entire skeleton of a male individual of Nacholapithecus kerioi (KNM-BG 35250) was discovered from Middle Miocene (approximately 15 Ma) sediments at Nachola, northern Kenya. N. kerioi exhibits a shared derived subnasal morphology with living apes. In many postcranial features, such as articular shape, as well as the number of the lumbar vertebrae, N. kerioi resembles Proconsul heseloni and/or P. nyanzae, and lacks suspensory specializations characteristic of living apes. Similarly, N. kerioi shares some postcranial characters with Kenyapithecus spp. However, despite the resemblance, N. kerioi and Proconsul spp. are quite different in their body proportions and some joint morphologies. N. kerioi has proportionally large forelimb bones and long pedal digits compared to its hindlimb bones and lumbar vertebrae. Its distinctive body proportions suggest that N. kerioi was more derived for forelimb dominated arboreal activities than P. nyanzae and P. heseloni. On the other hand, it exhibits a mixture of derived and primitive cranio-dental and postcranial features relative to the contemporaneous Kenyapithecus and Early MioceneMorotopithecus. While the phylogenetic position of N. kerioi is unsettled, it seems necessary to posit parallel evolution of cranio-dental and/or postcranial features in fossil and living apes.

Published

2004

19. A newly discovered skeleton and its implications for the evolution of positional behavior in Miocene East African hominoids

Author

Mastao Nakatsukasa, Atsushi Yamanaka, Yutaka Kunimatsu, Daisuke Shimizu, and Hidemi Ishida

Subjects

biology, Hominidae, biology.organism_classification, Neogene, Skeleton (computer programming), Theria, Paleontology, Eutheria, Anthropology, East africa, Kenyapithecus, Cenozoic, Ecology, Evolution, Behavior and Systematics, Geology

Published

1998

20. Functional morphology and anatomy of cervical vertebrae in Nacholapithecus kerioi, a middle Miocene hominoid from Kenya

Author

Daisuke Shimizu, Hiroshi Tsujikawa, Tomo Takano, Naomichi Ogihara, Hidemi Ishida, Yoshihiko Nakano, Masato Nakatsukasa, Yasuhiro Kikuchi, and Yutaka Kunimatsu

Subjects

Male, Posture, stomatognathic system, Extant taxon, Eutheria, biology.animal, Functional morphology, medicine, Animals, Primate, Ecology, Evolution, Behavior and Systematics, Anterior tubercle, biology, Fossils, Vertebral morphology, Hominidae, Anatomy, musculoskeletal system, biology.organism_classification, Kenya, Vertebra, medicine.anatomical_structure, Anthropology, Cervical Vertebrae, Female, Locomotion, Cervical vertebrae

Abstract

This paper describes the morphology of cervical vertebrae in Nacholapithecus kerioi , a middle Miocene primate species excavated from Nachola, Kenya in 1999–2002. The cervical vertebrae in Nacholapithecus are larger than those of Papio cynocephalus . They are more robust relative to more caudal vertebral bones. Since Nacholapithecus had large forelimbs, it is assumed that strong cervical vertebrae would have been required to resist muscle reaction forces during locomotion. On the other hand, the vertebral foramen of the lower cervical vertebrae in Nacholapithecus is almost the same size as or smaller than that of P. cynocephalus . Atlas specimens of Nacholapithecus resemble those of extant great apes with regard to the superior articular facet, and they have an anterior tubercle trait intermediate between that of extant apes and other primate species. Nacholapithecus has a relatively short and thick dens on the axis, similar to those of extant great apes and the axis body shape is intermediate between that of extant apes and other primates. Moreover, an intermediate trait between extant great apes and other primate species has been indicated with regard to the angle between the prezygapophyseal articular facets of the axis in Nacholapithecus . Although the atlas of Nacholapithecus is inferred as having a primitive morphology (i.e., possessing a lateral bridge), the shape of the atlas and axis leads to speculation that locomotion or posture in Nacholapithecus involved more orthograde behavior similar to that of extant apes, and, in so far as cervical vertebral morphology is concerned, it is thought that Nacholapithecus was incipiently specialized toward the characteristics of extant hominoids.

Published

2011

21. An exploratory study on the combined effects of external and internal morphology on load dissipation in primate capitates: its potential for an understanding of the positional and locomotor repertoire of early hominins

Author

Gabriele A. Macho, Yutaka Kunimatsu, Iain R. Spears, Masato Nakatsukasa, Yong Jiang, Daniel J. McColl, Richard L. Abel, and Meave G. Leakey

Subjects

biology, Repertoire, Exploratory research, Morphology (biology), Hominidae, Anatomy, biology.organism_classification, Biological Evolution, Biomechanical Phenomena, Capitate Bone, Trabecular bone, Species Specificity, biology.animal, Animals, Animal Science and Zoology, Primate, Neuroscience, Australopithecus afarensis, Ecology, Evolution, Behavior and Systematics, Locomotion

Abstract

This pilot study explored whether the redirection of stress through trabeculae within morphologically constrained capitates provides information about habitual/positional behaviours unavailable from the study of external morphology alone. To assess this possibility, an experimental finite element approach was taken, whereby no attempt was made to reconstruct the actual magnitudes and loading conditions experienced by the capitates in vivo. Rather, this work addressed fundamental biological questions relating to bone plasticity, i.e. internal versus external bone morphology. The capitates of 7 species with different and – in the case of fossils – inferred locomotor behaviours were selected. Virtual models of capitates were created, scaled to the same size and subjected to the same theoretical load. In the first set of analyses, models were assigned the material properties of bone throughout, whereas in the second set, models were assigned 11 different material properties representing the trabecular architecture derived from high-resolution CT. Species with arboreal behaviours consistently redirected loads towards the ulnar aspect of the capitate when trabeculae were introduced, while terrestrial species, and the bipedal Homo, redirected stress towards the radial side. From these preliminary analyses, it is tentatively concluded that Australopithecus anamensis habitually engaged in arboreal behaviours, whereas Australopithecus afarensis did not.

Published

2010

22. Vertebral morphology of Nacholapithecus kerioi based on KNM-BG 35250

Author

Yoshihiko Nakano, Yutaka Kunimatsu, Hidemi Ishida, and Masato Nakatsukasa

Subjects

musculoskeletal diseases, Male, Vertebral artery, Lumbar vertebrae, Morotopithecus, Lumbar, Atlas (anatomy), medicine.artery, medicine, Animals, Ecology, Evolution, Behavior and Systematics, biology, Fossils, Vertebral morphology, Hominidae, Anatomy, musculoskeletal system, biology.organism_classification, Biological Evolution, Kenya, Spine, Vertebra, medicine.anatomical_structure, Anthropology, Female, Cervical vertebrae

Abstract

This paper describes the morphology of the vertebral remains of the KNM-BG 35250 Nacholapithecus kerioi individual from the Middle Miocene of Kenya. Cervical vertebrae are generally large relative to presumed body mass, suggesting a heavy head with large jaws and well-developed neck muscles. The atlas retains the lateral and posterior bridges over the vertebral artery. The axis has a robust dens and a large angle formed by superior articular surfaces. The thoracic vertebral specimens include the diaphragmatic vertebra and one post-diaphragmatic vertebra. The thoracic vertebral bodies are much smaller that those of male Papio cynocephalus, whereas many of the dorsal elements are large and robust, exceeding those of male P. cynocephalus. Lumbar vertebral bodies are small relative to body mass, craniocaudally moderately long, and have a median ventral keel. The transverse process is craniocaudally long and arises from the widest part of the body cranially and the pedicle above the inferior vertebral notch caudally. Anapophyses are present in one of the preserved lumbar vertebrae. The postzygapophyses are thick dorsoventrally. These lumbar features are broadly shared with Proconsul. However, the base of the spinous process is longer and more caudally positioned in N. kerioi compared to Proconsul, and is more similar to the condition in Pongo. They are not dorsally (or moderately caudally) directed as is seen in P. nyanzae, Pan, and most other extant primates. A caudally directed spinous process does not permit a broad range of spinal dorsiflexion. The presumed stiff back in N. kerioi suggests a different locomotor repertoire than in Proconsul. Morotopithecus bishopi, although not possessing the same features, exhibits another morphological suite of characters for lumbar stiffness. Diverse functional adaptations of the lumbar spine were present in African hominoids during the Early to Middle Miocene.

Published

2005

23. Definitive evidence for tail loss in Nacholapithecus, an East African Miocene hominoid

Author

Tomo Takano, Yutaka Kunimatsu, Yoshihiko Nakano, Daisuke Shimizu, Hiroshi Tsujikawa, Hidemi Ishida, and Masato Nakatsukasa

Subjects

Tail, Fossils, Interpretation (philosophy), Morphology (biology), Hominidae, Biological evolution, Anatomy, Biology, Biological Evolution, Spine, Vertebra, Paleontology, Position (obstetrics), medicine.anatomical_structure, Anthropology, Africa, medicine, Animals, Humans, Ecology, Evolution, Behavior and Systematics

Published

2003