Search results for "Australopithecine"

showing 3 items of 3 documents

Chromosomes and the origins of apes and australopithecins

1996

Comparison of molecular data suggests that the higher apes (Gorilla, Pan) and humankind (Homo) are closely related and that they diverged from the common ancestor through two speciation events situated very closely together in time. Examination of the chromosomal formulas of the living species reveals a paradox in the distribution of mutated chromosomes which can only be resolved by a model of trichotomic diversification. This new model of divergence from the common ancestor is characterized by the transition from (1) a monotypic phase to (2) a polytypic phase of three sub-species — pre-gorilla, pre-chimpanzee and preaustralopithecine. The quadruped ancestors ofAustralopithecus appear to ha…

Chimpanzee–human last common ancestorbiologyAustralopithecusPhylogenesisAnthropologybiology.animalZoologyContext (language use)AustralopithecineGorillaSubspeciesbiology.organism_classificationAncestorHuman Evolution
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Quantification de révolution morphologique du crâne des Hominidés et hétérochronies

1998

Abstract Comparisons of adult skulls of various species of great apes, fossil hominids and modern humans in the sagittal, Francfort and ortho-sagittal planes reveal a series of three separate organisation plans: ‘Great Ape’, ‘Australopithecine’ and ‘Homo’, the latter including primitive men ( Homo ergaster-erectus-neandertalensis ) and modern humans ( Homo sapiens ). Morphological changes between these plans are quantified for the first time here by vector fields. This study confirms the existence of cranio-facial contraction, which occurs as a series of leaps. The juvenile morphology of the great ape skull is broadly preserved in adult Homo sapiens, suggesting that numerous heterochronies …

Skullmedicine.anatomical_structurebiologyHomo sapiensOntogenymedicineZoologyOcean EngineeringAustralopithecinebiology.organism_classificationEcology Evolution Behavior and SystematicsComptes Rendus de l'Académie des Sciences - Series IIA - Earth and Planetary Science
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Chromosomes and the origins of Apes and Australopithecines

1996

International audience; Comparison of molecular data suggests that the higher apes (Gorilla, Pan) and humankind (Homo) are closely related and that they diverged from the common ancestor through two speciation events situated very closely together in time. Examination of the chromosomal formulas of the living species reveals a paradox on the distribution of mutated chromosomes which can only be re-solved by a model of trichotomic diversification. This new model of divergence from the common ancestor is characterized by the transition from (1) a monotypic phase to (2) a polytypic phase of three sub-species - pre-gorilla, pre-chimpanzee and pre-australopithecine. The quadruped ancestors of Au…

[SDV.GEN]Life Sciences [q-bio]/Genetics[SHS.ARCHEO] Humanities and Social Sciences/Archaeology and Prehistory[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory[ SHS.ARCHEO ] Humanities and Social Sciences/Archaeology and PrehistoryApes[SDV.GEN] Life Sciences [q-bio]/Geneticsspeciation modelEvolution chromosomes[ SDV.GEN ] Life Sciences [q-bio]/Geneticsclimatological modelAustralopithecines
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