Embryogeny and Phylogeny of the Human Posture 2. Anne Dambricourt Malasse
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Название: Embryogeny and Phylogeny of the Human Posture 2

Автор: Anne Dambricourt Malasse

Издательство: John Wiley & Sons Limited

Жанр: Биология

Серия:

isbn: 9781119887775

isbn:

СКАЧАТЬ The femurs were curved, more stocky.

      The curvature of the femurs gave the impression of a body in a forward bent position, which was accentuated on the La Chapelle-aux-Saints Man due to a congenital dislocation of the left hip, but which really did exist and was systematically found in Neanderthal patients. The general conformation of the skull with high neck and facial prognathism, as well as the slightly flexed profile of the thighs, gave a general cranio-spinal appearance intermediate between that of the great ape and Homo sapiens. Neanderthal Man thus appeared to be less vertical and less cerebralized than the Cro-Magnon Man. The appearance reflected an anatomy and cerebral development of an evolutionary stage preceding that of Homo sapiens. However, Boule did not venture to interpret the brain’s imprints in terms of cognitive capacities beyond what would be possible with analogies with pathological conditions of current Homo sapiens.

      1.3.2. Embryologists, geneticists and paleontology at the beginning of the 20th century

      Wilhelm Johannsen (1857–1927) was a Danish botanist. In 1909, he created the word gene as opposed to pangene or “gemmules” from Charles Darwin (see Volume 1). The gene is a discrete unit. In 1911, he proposed the terms genotype for germ cell lines, and phenotype for soma cell lines. Mendel’s laws, which had gone unnoticed since 1866, were rediscovered in botany and independently by the Dutchman Hugo de Vries (1848–1935), who created the word mutatio, the German Carl Correns (1864–1933) and the Austrian Erich von Tschermak (1871–1962). In France, genetics was very slow to develop. Lucien Cuénot (1866–1951) was one of the very few geneticists at the French University. Professor of Zoology since 1898 at the Faculty of Sciences of Nancy, his research took up Mendel’s laws and studied them in mammals for the first time, with crosses of gray and albino mice. In 1902, he confirmed the law of transmission for the variability of a characteristic, which was common to both plants and animals. Cuénot then became one of the main actors in the development of genetics.

      The nucleus of cells contains macromolecules called chromosomes, themselves composed of these discrete entities called genes, but their behavior during reproduction remained a black box. The first experimental studies aimed to produce mutations, and were carried out in 1908 by the American geneticist Herman Müller (1890–1967). He had the idea of exposing drosophila to X-rays and making them reproduce with unexposed drosophila. This invisible light was discovered at the University of Würzburg in November 1895 by the physicist Wilhelm Röntgen (1845–1923). The results were convincing since some drosophilas were born with malformed wings. X-rays made it possible to infer not only a role of sex cells in heredity, but also to understand that the memory of heredity was on the scale of X-rays, in other words, on the scale of the bonds between molecules, the scale of the forces of attraction that make up these radiations. Physicists did not yet know the structure of chromosomes, nor the nature of X-rays. These were photons, electromagnetic waves. In the future it would be confirmed that it is the segments of chromosomal macromolecules that are altered.

      The discovery of hereditary memory on the scale of electronic links brought back the great questions about generation that René Descartes himself pondered, incredulous about the infinite dimension beyond the smallest atoms, as well as Isaac Newton, for whom the beginning of any organization, whatever the scale of space-time, was a question of forces of attraction.

      The mutationist model of the drosophila did not correspond to the level of embryonic organization of the fly, since the fly is not transformed. These mutations did not correspond to the problem of the neuroaxis straightening, because simian embryogenesis was not a variety of the embryogenesis of a prosimian, it was its reorganization with a complexification of the central nervous system.

      The German embryologist Hans Spemann (1869–1941) thus resumed van Baer’s research on vertebrate embryogenesis since gastrulation. A Doctor of Medicine at the University of Heidelberg, he continued his research on the embryogenesis of batrachians, in order to isolate and better identify the mechanisms that preside over the differentiation of the three embryonic layers: the ectoderm (future nervous system and part of the dental germs), the mesoderm (from which the dorsal cord is formed) and the endoderm. In 1924, thanks to cell transplants, he revealed a very early territory in the cell cluster derived from the blastula, which he named the “organizing center” with mechanisms qualified as “induction”. The Nobel Prize in Physiology or Medicine was awarded to him in 1935 “for his discovery of the organizing effect in the development of embryos”. Such was the state of the question on the generation of the organizational plan of a species, when human paleontology and prehistory took off. That said, Neanderthal embryogenesis was not a subject for reflection and the orientation of its dorsal chord was not even conceptualized.

      1 1 Othniel Charles Marsh (1831–1899), nephew of the philanthropist George Peabody (1795–1869) was one of the first American paleontologists. He was the founder of the Yale Peabody Museum of Natural History (Yale University, New Haven, Connecticut).

      2 2 Large marine mammal, belonging to the dugongidae family.

      2

      Asia, The Cradle of Humanity

      2.1. Teilhard de Chardin, a destiny from Piltdown to the Muséum

      Marcellin Boule was in contact with French naturalists abroad. France had enjoyed concessions in China since 1860, ceded by the imperial power of the Qing Dynasty, notably in Tien-Tsin (Tianjin) in northeast China. It was a port city on the Yellow Sea, 100 km south of Beijing. Father Emile Licent (1876–1952), a naturalist from the French Jesuit mission, had taught there since 1914. He regularly went prospecting in northern China: the Tcheu-Ly plain, the Mongolian plains, the Yellow River basin or Hoang Ho, the province of Shaanxi and the Tibetan steps in Gansu. The year 1920 was promising. Licent came back from Gansu with 84 camels loaded with fossils collected in loess, as well as quartz stones that appeared to be cut. They were collected at the base of these same loess that marked the end of the Middle Pleistocene (120,000 years). Fossils were piling up at the Mission. Licent needed a museum, a laboratory and a collaborator to sort, identify and store them. He therefore contacted Marcellin Boule and sent him specimens, who entrusted them to a paleontologist who had just defended a particularly brilliant thesis, Pierre Teilhard de Chardin (1881–1955), also a Jesuit, like his colleague from Tien-Tsin.

      Pierre СКАЧАТЬ