Atmospheric Chemistry and Climate Change
Course: Meteorology
Structural unit: heohrafichnyi fakultet
Title
Atmospheric Chemistry and Climate Change
Code
ОК 6.
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2023/2024
Semester/trimester when the component is delivered
1 Semester
Number of ECTS credits allocated
4
Learning outcomes
Know the features of natural and anthropogenic systems and objects of the Earth's geospheres; know the laws of occurrence and development of physical and chemical processes in the Earth's atmosphere at different spatial and temporal scales (PLO-1).
Be able to communicate with specialists and experts of different levels of other fields of knowledge, including in the international context, in the global information environment (PLO-3).
To know modern methods of research of the Earth and its geospheres and be able to apply them in production and research activities; to know modern concepts, methods and technologies of meteorological and climatic research and be able to apply them to study atmospheric processes, weather forecasting, development of climate change scenarios, specialized meteorological support of economic sectors (PLO-7).
Identify and classify atmospheric processes, identify their new properties and features (PLO-13)
Form of study
Full-time form
Prerequisites and co-requisites
1) Knowledge of theoretical foundations of chemistry, physics, physical geography, ability to establish cause and effect relationships between phenomena and processes occurring in the natural environment;
2) Intermediate level of English;
3) Knowledge of methods of synthesis and analysis of information.
Course content
The discipline is devoted to the study of the processes of formation and transformation of the chemical composition of the Earth's atmosphere and climate under the influence of natural and anthropogenic factors.
The course consists of two content modules.
The first module considers the structure and functioning of the global climate system, the relationship between the atmosphere, hydrosphere, cryosphere, geosphere and biosphere), natural (tectonic activity, mountain formation, geocosmic factors, solar radiation) and anthropogenic (anthropogenic greenhouse effect, gas-aerosol radiation forcing) mechanisms of climate change.
The second module considers the processes of chemicals entering the troposphere from various sources (combustion of fossil fuels, biomass burning, aviation and astronautics, wetlands, intestinal fermentation in animals, processes in soils and aquatic systems, solvents and refrigerants, volcanoes) and their transformation in the troposphere and stratosphere, peculiarities of the formation of the chemical composition of the stratosphere with an emphasis on the mechanisms of formation and destruction of ozone, its climatic effect. The influence of global atmospheric circulation on the transport of pollutants in the atmosphere is analyzed. The main environmental problems and threats to humanity associated with climate change and atmospheric pollution are analyzed in detail. In studying this module, the results of the latest scientific research obtained by the international scientific community and available in English-language scientific publications are actively used.
Recommended or required reading and other learning resources/tools
1. Smerdon J. Climate Change: The Science of Global Warming and Our Energy Future. 1st Edition. Columbia University Press. 2009.
2. Jacobson M. Air Pollution and Global Warming: History, Science, and Solutions. 2nd Edition. Cambridge University Press. 2012
3. Manahan S. Environmental Chemistry 10th Edition.CRC Press. 2017.
4. Ritchie G. Atmospheric Chemistry: From The Surface To The Stratosphere (Essential Textbooks in Chemistry) 1st Edition. World Scientific.2016.
5.Aguado E., Burt J.E. Understanding Weather and Climate. – Pearson, 7th edition, 2014. – 608 p.
Planned learning activities and teaching methods
Lectures, seminars, independent work
Assessment methods and criteria
Control is carried out by a module-rating system. The maximum score is 100 points, 60 of which the student can gain during the semester control and 40 points - at the test.
The content module 1 (CM1) includes topics 1-2, the content module 2 (CM2). The knowledge of the laws of the Earth's climate evolution in connection with the evolution of the chemical composition of the Earth's atmosphere (5th semester), as well as the main environmental problems of the planet related to the chemical composition of the atmosphere (global warming, smog and photochemical smog, ozone holes, etc.) (6th semester) is mandatory for the exam.
Language of instruction
English
Lecturers
This discipline is taught by the following teachers
Sergiy
Ivanovych
Snizhko
Meteorology and сlimatology
heohrafichnyi fakultet
heohrafichnyi fakultet
Departments
The following departments are involved in teaching the above discipline
Meteorology and сlimatology
heohrafichnyi fakultet