Klimaänderung; Global environmental change; Climatology; Global warming; Klimatologie The theory of the Earth's climate evolution based on universal chemical-physical laws of matter-energy transformation is presented in the book. It shows how the process of Earth's core separation has led to formation and evolution of the hydrosphere and atmosphere. Having analyzed the processes of heat transfer in the atmosphere, the writers developed the adiabatic theory of the greenhouse effect, which was applied for analysis of climatic changes on the Earth. The influence of changes in climate on formation of mineral deposits and development of life on Earth was considered and presented based on modeling of typical climatic regimes. It shows that the anthropogenic effect on the Earth's global temperature is negligible in comparison with the effect of global forces of nature. * Presents the theory of Earth's evolution based on the laws of chemical-density differentiation of the origin of the Earth
* Discusses the adiabatic theory of the greenhouse effect with quantitative estimates of the natural and anthropogenic influences on Earth's climates
* Describes the quantitative description of the evolution of the Earth's climate throughout geologic history and prediction of the future of the Earth's climate
* Investigates the global forces of nature driving the Earth's climate Introduction to the Global Evolution of the Barth Origin of the Barth and is Composition Formation of the Earth-Moon Double Planet Beginning of Tectonomagmatic Activity on Barth Separation of Barth’s Core (Main Factor Driving the Barth’s Global Evolution) Energy Balance of the Barth Tectonic Activity of Barth Evolution of the Chemical Composition of the Mantle Formation of Oceanic and Continental Lithospheric Plates 3egassing of Barth and Formation of Hydrosphere and Atmosphere Formation of Formation of Iron-bearing Deposits Nature of Global Transgressions Formation of the Barth’s Atmosphere Evolution of Partial Pressure of Nitrogen in the Atmosphere Evolution of Carbon Dioxide Partial Pressure Oxygen Accumulation in the Barth’s Atmosphere Generation of Abiogenic Methane ). Origin of the „Ozone Holes“ the Adiabatic Theory of Greenhouse Effect Introduction Geenhouse Effect Principal Characteristics of Present-day Atmosphere Key Points of the Adiabatic Theory of Greenhouse Effect Possible Directions of Generalizing the Adiabatic Theory Prognostic Atmospheric Temperature Estimates Impact of Anthropogenic Factor on the Earth’s Climate Influence of Oceans on the Atmospheric Content of Carbon Dioxide 9. Methane Emission Effect Evolution of Earth’s Climates . Introduction Chmatic Coohng during Cenozoic Nature of the Barth’s Glaciations Precession Cycles and the Earth’s Climate Influence of Climate on Formation of Mineral Deposits on Earth Introduction Plate Tectonics and Origins of Endogenic Mineral Deposits Barth’s Core Separation Determining the Geologie Evolution of Earth the Influence of Ocean and Climates of Earth on the Formation of Sedimentary Mineral Deposits Origin of Diamond-bearing Kimberlitic and Similar Rocks Origin of Exogenic Deposits of Minerals Plate Tectonics and Formation of Hydrocarbon Deposits Origin and Development of Life on Barth liqueness of Earth Uniqueness of Barth The Earth’s Climate and Origin of Life Influence of Geologie Processes on the Evolution of Barth’s Life Influence of Continental Drift and Marine Transgressions on Ecology during Phanerozoic Bon Future Development of Atmosphere and the Death of Earth Global Forces of Nature Driving the Earth’s Climate Solar Irradiation Reaching the Barth Orbital Deviations and the Earth’s Mass Redistribution The Barth’s Outgassing Global Chmatic Cooling due to Increase in CO2 Content Inner Sources of the Barth’s Energy Smoothing Role of World Ocean Microbial Activity at Barth’s Surface Glacial and Interglacial Periods Global Warming or Global Cooling? Continental Drift and the Climates of Earth
