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L Eckes 《Gegenbaurs morphologisches Jahrbuch》1976,122(6):826-863
The ability to adapt to extreme conditions is a continously working principle of man's evolution, in a permanent orientation to an optimal equilibrium between man and environment. A paradigm of biological adaptation is the condition of hypoxia at high altitudes, as one of the few environment constellations to which a pure biological and thus genetically based answer could be possible. The majority of adaptations are influenced by technological actions, which partially modify the environment in compensating unfavourable constellations (heating, clothing, housing, etc.). It is discussed, how far the adaptation to high altitudes produces transitory or permanent alterations with reference to constitution, perseverance, cold-sensitivity, diseases, duration of life, fertility, course of pregnancy, adaptations at the organ- and tissue-level, blood-composition, fluid-equilibrium of the body etc., which guarantee the survival of the individual and its successful reproduction with regard to the continuance of a mendel population. The elucidation of the question on genetic determination of features characteristic for high altitude inhabitants is difficult because we know next to nothing about the genetic determination of physiologic parameters. Studies on ethnic marker-genes (Ethiopia, South-America) give no reference to population differences. Remarkable is a striking prevalence of the blood-group O for all populations of high altitudes, but one must consider the effects of isolation in terms of the increase in the homozygote recessive alleles. We can propose, that in the primary settlement at high altitudes a "hard selection" was working, a kind of biological assortation-process from the beginning, which eliminated those individuals, who proved to be (for genetic reasons?) not adaptable. A good example for this are observations of cattle, from which 50% do not develop pulmonary hypertension when exposed to altitude, that means they already have a higher initial fitness. The non-adaptable animals have to be returned to the lowlands. In the F1-generation only 2% of the animals remaining at high altitude, develop "brisket disease". Possibly that means a sort of "out-mendeling" of "pulmonary-hypertension-genes", which may manifest themselves in the condition of hypoxia. Also the good adaptation of llamas is partially due to the fact that the camelids per se possess an outstanding O2 affinity and morphologically different red blood cells, which predispose this species to inhabit high altitudes. Parallel to considerations like these it could be imaginable, that e.g. the indianids of mongoloids in general, are genetically composed as fit to inhabit lowlands as well as highlands, in contrast to caucasoids and negroids. The largest mountain areas of the world (the Andes: 12 X 10(6)), the Himalayas 12 X 10(6)) are inhabited by populations of mongoloid ancestry, for about 10,000 years, a period, which ought to be long enough to make possible genetic specialisation, although it is not yet possible to prove it... 相似文献
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The study of polytene chromosomes of Chironomus plumosus from Rybinsk reservoir, its inflows and surrounding water bodies allow to mark out two type's of population. Terminal populations--presented by karyoforms with concrete limited composition of genotype combinations and zygotic arm combinations, which adapted to specific complex of the habitat factors. The immediate exchange of genes between different terminal populations is absent (even they placed in nearness) from allochronie of life cycles and impossibility of larvae-immigrants to finish ontogenesis in unfit for they habitat conditions. Interstitial populations inhabit the biotopes, where the karyoforms of two or more terminal populations can to finish ontogenesis and to reproduce. The genetic exchange between terminal population implement through interstitial populations. 相似文献
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Three new species of Phlebotomine sandflies belonging to the genus Sergentomyia Fran?a & Parrot are described from Madagascar: Sergentomyia sclerosiphon n. sp. S. namo n. sp. and S. anka n. sp. The taxa are created on the basis of the morphology of females. The males of S. sclerosiphon n. sp. and of S. anka n. sp. have been associated to the females according to the homologies of a fragment of the mtDNA cytochrome b sequences. The original morphology of the spermathecae and the sclerification of a part of the individual spermathecal ducts allow the creation of a new subgenus, Vattieromyia subg. nov., which includes these three new species. 相似文献
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James V. Neel was one of the leaders who developed human genetics into a predominant field of 20th-century science. Neel was originally trained in basic biology, and this fact was clearly reflected in the evolutionary, population perspective of his life's work. His interests were in the amount and burden of mutation in human populations. He studied this problem in clinical samples, survivors of the atomic bombings in Hiroshima and Nagasaki, and minimally acculturated indigenous populations in Amazonia. Because his perspective was populational, he cautioned that the most serious health problems faced by our species should not be approached as if they have a genetic solution. 相似文献
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