Course Details
Pedology and Irrigation
Academic Year 2023/24
BS004 course is part of 1 study plan
B-P-C-SI (N) / V Summer Semester 3rd year
Soil science in general, pedogenesis (pedogenetic factors and processes). Basic soil properties - physical, mechanical and chemical properties of soils. Hydropedology, soil moisture and soil moisture measurements.
Soil hydrostatics, adsorption, capillarity, swelling and soil water potential including methods of measurement. Principles of determination of irrigation water demand. History and importance of irrigation, reasons of drought, plant and water. Types of irrigatio, evapotranspiration, climatic irrigation. Sprinkle irrigation, irrigation facilities and machines. Micro-irrigation, water quality and treatment. Lawn irrigation (parks, sport turf). Automated irrigation systems.
Soil hydrostatics, adsorption, capillarity, swelling and soil water potential including methods of measurement. Principles of determination of irrigation water demand. History and importance of irrigation, reasons of drought, plant and water. Types of irrigatio, evapotranspiration, climatic irrigation. Sprinkle irrigation, irrigation facilities and machines. Micro-irrigation, water quality and treatment. Lawn irrigation (parks, sport turf). Automated irrigation systems.
Credits
5 credits
Language of instruction
Czech
Semester
summer
Course Guarantor
Institute
Forms and criteria of assessment
course-unit credit and examination
Entry Knowledge
Basic knowledge of physics, hydraulics and hydrology
Aims
Basic knowledge of soil science
Classification of soils in ČR
Basic knowledge of hydropedology
Basic soil analyses
Methods of irrigation
Calculation of water demand
Simple designs of used irrigation methods
Overview of irrigation products and systems used in CR
Basic knowledge of pedology and irrigation, basic principles of irrigation.
Classification of soils in ČR
Basic knowledge of hydropedology
Basic soil analyses
Methods of irrigation
Calculation of water demand
Simple designs of used irrigation methods
Overview of irrigation products and systems used in CR
Basic knowledge of pedology and irrigation, basic principles of irrigation.
Basic Literature
Kameníčková, I.: Vodní hospodářství krajiny I. Skriptum. BRNO 2005, 138 p. (cs)
Zoubková, L. Návody k laboratorním cvičením z pedologie. Univerzita J. E. Purkyně v Ústí n. Labem, Fakulta životního prostředí, 2014. ISBN 978-80-7414-842-2. (cs)
Kutílek, M. Vodohospodářská pedologie. 2., přeprac. vyd. Praha: Státní nakladatelství technické literatury, 1978.
Zbíral, J., Čižmárová, E., Obdržálková, E., Rychlý, M. Analýza půd I: jednotné pracovní postupy. - 4. vydání. Ústřední kontrolní a zkušební ústav zemědělský, Brno, 2016. ISBN: 978-80-7401-123-8.
KULHAVÝ, František a Zbyněk KULHAVÝ. Navrhování hydromelioračních staveb. Praha: ČKAIT, 2008. ISBN 978-80-87093-83-2.
ŠÁLEK, Jan. Závlahové stavby. 2. vyd. Brno: Vysoké učení technické, 1993. Učební texty vysokých škol. ISBN 80-214-0497-3.
Zoubková, L. Návody k laboratorním cvičením z pedologie. Univerzita J. E. Purkyně v Ústí n. Labem, Fakulta životního prostředí, 2014. ISBN 978-80-7414-842-2. (cs)
Kutílek, M. Vodohospodářská pedologie. 2., přeprac. vyd. Praha: Státní nakladatelství technické literatury, 1978.
Zbíral, J., Čižmárová, E., Obdržálková, E., Rychlý, M. Analýza půd I: jednotné pracovní postupy. - 4. vydání. Ústřední kontrolní a zkušební ústav zemědělský, Brno, 2016. ISBN: 978-80-7401-123-8.
KULHAVÝ, František a Zbyněk KULHAVÝ. Navrhování hydromelioračních staveb. Praha: ČKAIT, 2008. ISBN 978-80-87093-83-2.
ŠÁLEK, Jan. Závlahové stavby. 2. vyd. Brno: Vysoké učení technické, 1993. Učební texty vysokých škol. ISBN 80-214-0497-3.
Syllabus
1. Introduction to hydropedology, soil forming process
2. - 3. Soil forming factors and processes
4. Physical, mechanic and chemical properties of soils
5. Hydropedology - soil moisture and soil moisture measurements
6. Soil hydrostatics - adsorption, capillarity, swelling, soil water potential
7. History of irrigation, role and importance of irrigation, irrigation water demand, reasons of drought, plant and water, types of irrigatio, evapotranspiration, climatic irrigation
8. Sprinkle irrigation, irrigation facilities and machines
9. Irrigation systems layout
10. Micro-irrigation, water quality and treatment
11. Lawn irrigation (parks, sport turf)
12. Automated irrigation systems
2. - 3. Soil forming factors and processes
4. Physical, mechanic and chemical properties of soils
5. Hydropedology - soil moisture and soil moisture measurements
6. Soil hydrostatics - adsorption, capillarity, swelling, soil water potential
7. History of irrigation, role and importance of irrigation, irrigation water demand, reasons of drought, plant and water, types of irrigatio, evapotranspiration, climatic irrigation
8. Sprinkle irrigation, irrigation facilities and machines
9. Irrigation systems layout
10. Micro-irrigation, water quality and treatment
11. Lawn irrigation (parks, sport turf)
12. Automated irrigation systems
Prerequisites
Basic knowledge of physics, hydraulics and hydrology
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Introduction to hydropedology, soil forming process
2. - 3. Soil forming factors and processes
4. Physical, mechanic and chemical properties of soils
5. Hydropedology - soil moisture and soil moisture measurements
6. Soil hydrostatics - adsorption, capillarity, swelling, soil water potential
7. History of irrigation, role and importance of irrigation, irrigation water demand, reasons of drought, plant and water, types of irrigatio, evapotranspiration, climatic irrigation
8. Sprinkle irrigation, irrigation facilities and machines
9. Irrigation systems layout
10. Micro-irrigation, water quality and treatment
11. Lawn irrigation (parks, sport turf)
12. Automated irrigation systems
2. - 3. Soil forming factors and processes
4. Physical, mechanic and chemical properties of soils
5. Hydropedology - soil moisture and soil moisture measurements
6. Soil hydrostatics - adsorption, capillarity, swelling, soil water potential
7. History of irrigation, role and importance of irrigation, irrigation water demand, reasons of drought, plant and water, types of irrigatio, evapotranspiration, climatic irrigation
8. Sprinkle irrigation, irrigation facilities and machines
9. Irrigation systems layout
10. Micro-irrigation, water quality and treatment
11. Lawn irrigation (parks, sport turf)
12. Automated irrigation systems
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Soil texture - sieve analysis
2. Bulk density and current moisture
3. The apparent density of soil particles
4. Casagrande's test
5. Andrian's test
6. Soil reaction, determination CaCO3, test
7. - 12. Project of field irrigation in South Moravia
2. Bulk density and current moisture
3. The apparent density of soil particles
4. Casagrande's test
5. Andrian's test
6. Soil reaction, determination CaCO3, test
7. - 12. Project of field irrigation in South Moravia