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Theory of Radioisotopic and Chemical Homeostasis of Marine Ecosystems


Theory of Radioisotopic and Chemical Homeostasis of Marine Ecosystems


Springer Oceanography

von: Victor Egorov

96,29 €

Verlag: Springer
Format: PDF
Veröffentl.: 07.08.2021
ISBN/EAN: 9783030805791
Sprache: englisch

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Beschreibungen

<p>The book is dedicated to the study and mathematical definition of the biogeochemical patterns of organic and inorganic matter interaction with the marine environment's radioactive and chemical components. This book describes the radioisotope and mineral exchange theory between organic and inorganic matters in the marine environment on a time scale of metabolic processes and trophic interactions. The approach is parametrically compatible with modern techniques describing the matter and energy balance in aquatic ecosystems. The criteria for assessing the ecological capacity, biogeocenoses assimilation capacity, and water masses radio capacity, which form the basis of the theory of radioisotope and mineral homeostasis of marine ecosystems, are substantiated. </p>

This book presents methods to implement sustainable development of the Black Sea's critical and recreational zones according to the marine pollution factors. This book does that by regulating the balance between the consumption of water quality resources and their reproduction as a result of natural biogeochemical processes are proposed.<br><p></p><p></p>

<p>The book is of interest to scientists working in marine geology, marine ecology, biogeophysics, and biogeochemistry. This book is also necessary for professionals working in institutions and administrations coordinating maritime activities, environmental projects, and developing aquaculture technologies.<br></p>
1.- Introduction 2.- Biogeochemical mechanisms of interaction between living and inert<div>matter with radioactive and chemical components of marine environment 3.-&nbsp;</div><div>Semi-empirical theory of mineral and radioisotope exchange of living and inert matter in</div><div>the marine environment 4.-&nbsp; Theory of radioisotope and chemical homeostasis of marine</div><div>ecosystems.</div>
Victor Nikolaevich Egorov – Scientific Director of the RAS A.O. Kovalevsky Institute of Biology of the Southern Seas (IBSS) Federal Research Centre, Alumnus of the Department of Cybernetics and Computer Engineering of the Sevastopol National Technical University, Doctor of Biological Sciences, Professor, Honoured Scientist, and Engineer of the Autonomous Republic of Crimea, Academician of the National Academy of Sciences of Ukraine, and Academician of the Russian Academy of Sciences.<p></p>
<p>The book is dedicated to the study and mathematical definition of the biogeochemical patterns of organic and inorganic matter interaction with the marine environment's radioactive and chemical components. This book describes the radioisotope and mineral exchange theory between organic and inorganic matters in the marine environment on a time scale of metabolic processes and trophic interactions. The approach is parametrically compatible with modern techniques describing the matter and energy balance in aquatic ecosystems. The criteria for assessing the ecological capacity, biogeocenoses assimilation capacity, and water masses radio capacity, which form the basis of the theory of radioisotope and mineral homeostasis of marine ecosystems, are substantiated. </p>

This book presents methods to implement sustainable development of the Black Sea's critical and recreational zones according to the marine pollution factors. This book does that by regulating the balance between the consumption of water quality resources and their reproduction as a result of natural biogeochemical processes are proposed.<br><p></p><p></p>

<p>The book is of interest to scientists working in marine geology, marine ecology, biogeophysics, and biogeochemistry. This book is also necessary for professionals working in institutions and administrations coordinating maritime activities, environmental projects, and developing aquaculture technologies.<br></p>
Is the main biogeochemical interactions in the marine environment that are studied and defined mathematically Develops methods to assess the assimilation capacity of the marine environment Proposes for the first time a range of methods for environmental regulation of water areas from marine pollution

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