Biography Sergey Savelyev

Saveliev S. Sergey Savelyev: biography, books. Sergey Vyacheslavovich Savelyev - Russian scientist, embryologist, evolutionist, paleoenerologist, doctor of biological sciences, professor, head of the development of the nervous system of the Institute of Human Morphology of the Russian Academy of Sciences. Wikipedia was born: G. Sholokhova Sergey Vyacheslavovich Savelyev - Russian scientist, evolutionist, paleoenerologist, doctor of biological sciences, professor.

Member of the Creative Union of Artists of Russia, photographer. The author of more than 10 monographs, scientific articles and the world's first stereoscopic atlas of human brain.

Saveliev put forward a number of revolutionary ideas about the origin of the brain, the author of cerebral sorting, as a way of analyzing individual human abilities according to the structures of the brain through the development and use of high resolution tomograph. He believes that in the future a person will develop along the path of primitivization, that is, reducing the level of intelligence, improving physical characteristics.

Denies the validity of molecular methods in systematics. For more than 30 years, he has been engaged in research in the field of morphology and evolution of the brain, cytoarchitectonics of its cortex, studying the individual variability of architectonics and subcortical structures of the brain and the search for the morphological foundations of human giftedness conducted at the Institute of the brain of the Academy of Medical Sciences of the USSR.

He studied the molecular mechanisms of coding morphogenetic information in the embryonic nervous system. He presented the evolutionary theory of transitional environments as the basis for the development of neurobiological models of the origin of chordal, primary vertebum, amphibians, reptiles, birds and mammals, gave examples of the use of neurobiological laws to reconstruct routes of the evolution of vertebral and invertebrate animals.

Developed the basic principles of adaptive evolution of the nervous system and behavior. In his works he substantiated the positional theory of control of the early embryonic development of the brain of vertebrates, proving that in the early stages of development there is no strict genetic determination. That is, the fate of the cell is determined not by the genome, but by intercellular biomechanical interactions.

It revealed the basic principles of the occurrence of neurolation deviations of the development of the human nervous system and animals, its embryonic pathologies, as well as hidden signs of schizophrenia on the basis of the presence or absence of calculi and empty cavities in the pineal gland.