Seasonal biorhythms kardiopulmonalna of system of runners on average distances in the conditions of the concentrated development locally-regional muscular endurance on the territory of the midlands in the macrocycle of training
Автор: Ehrlich V.V.
Журнал: Человек. Спорт. Медицина @hsm-susu
Рубрика: Интегративная физиология
Статья в выпуске: 2 т.13, 2013 года.
Бесплатный доступ
Studying of rhythms organ a blood-groove remains insufficiently studied in a range of system hemodynamics and especially its relative indicators. The cardiopulmonary system plays an important providing role in an organism of the athlete during influence by big training loadings. Seasonal rhythms depend on environmental influences (climatic, their change in connection with moving, influences of factors of middle mountains, included ¼ times of process of preparation, applications of new technologies of the preparation including restoration). It is necessary that a system assessment of integrative activity of an organism in the extreme conditions arising owing to sports activities and a living environment (megalopolis), the gas-polluted air environment, pollution of the soil, the water, a natural radiation background cause in aggregate the additional tension of a dynamic homeostasis. All above demands receiving the express of information on a functional condition of an organism of sportswomen. Diagnostics allow to reveal strong and weak links of systemically forming functions of a dynamic homeostasis. Integrative activity of breath and blood circulation is reflected in the book of A.N. Gayton’s, J.E. Holla’s [1]. However researches in sports taking into account age and qualification characteristics of athletes in the conditions of new technologies of preparation the insufficient.
Relative units, cardiopulmonary system, gas exchange, respiratory coefficient, seasonal tension, competitive stress, homeostasis, weak and strong links of a homeostasis, blood-groove, percentage relations, intensity
Короткий адрес: https://sciup.org/147153124
IDR: 147153124