Environmental Monitoring and Data Assimilation Methods

Garant předmětu:

Michal Sněhota

Přednášející:

Jana Nábělková, Michal Sněhota, David Stránský, Martin Šanda

Cvičící:

Jana Nábělková, Michal Sněhota, David Stránský, Martin Šanda

Předmět zajišťuje:

katedra hydromeliorací a krajinného inženýrství

Anotace:

Předmět je vyučován v anglickém jazyce

1. Introduction to environmental monitoring and data assimilation

2. Data acquisition techniques (on-site, remote sensing; real-time, on-line, off-line)

3. Monitoring of meteorological characteristics (precipitation, temperature, wind, air humidity)

4. Methods of isotope hydrology (including analysis of stable isotopes)

5. Monitoring of flow characteristics (urban infrastructure, urban streams)

6. Monitoring of water quality characteristics (incl. sediment)

7. Monitoring of ecological characteristics (biological communities, stream eco-morphology)

8. Monitoring of soil hydrological quantities (water content, water potential)

9. Assessment of soil hydraulic properties (retention curve, hydraulic conductivity)

10. Non-invasive imaging of soil (x-ray tomography, neutron imaging, magnetic resonance imaging)

11. Uncertainty analysis and propagation of monitoring (uncertainty sources, uncertainty analysis methods, propagation methods)

12. Time series analysis

13. Case studies

Požadavky:

none

Osnova přednášek:

Předmět je vyučován v anglickém jazyce

1. Introduction to environmental monitoring and data assimilation

2. Data acquisition techniques (on-site, remote sensing; real-time, on-line, off-line)

3. Monitoring of meteorological characteristics (precipitation, temperature, wind, air humidity)

4. Methods of isotope hydrology (including analysis of stable isotopes)

5. Monitoring of flow characteristics (urban infrastructure, urban streams)

6. Monitoring of water quality characteristics (incl. sediment)

7. Monitoring of ecological characteristics (biological communities, stream eco-morphology)

8. Monitoring of soil hydrological quantities (water content, water potential)

9. Assessment of soil hydraulic properties (retention curve, hydraulic conductivity)

10. Non-invasive imaging of soil (x-ray tomography, neutron imaging, magnetic resonance imaging)

11. Uncertainty analysis and propagation of monitoring (uncertainty sources, uncertainty analysis methods, propagation methods)

12. Time series analysis

13. Case studies

Osnova cvičení:

Předmět je vyučován v anglickém jazyce

1. Introduction to environmental monitoring and data assimilation

2. Data acquisition techniques (on-site, remote sensing; real-time, on-line, off-line)

3. Monitoring of meteorological characteristics (precipitation, temperature, wind, air humidity)

4. Methods of isotope hydrology (including analysis of stable isotopes)

5. Monitoring of flow characteristics (urban infrastructure, urban streams)

6. Monitoring of water quality characteristics (incl. sediment)

7. Monitoring of ecological characteristics (biological communities, stream eco-morphology)

8. Monitoring of soil hydrological quantities (water content, water potential)

9. Assessment of soil hydraulic properties (retention curve, hydraulic conductivity)

10. Non-invasive imaging of soil (x-ray tomography, neutron imaging, magnetic resonance imaging)

11. Uncertainty analysis and propagation of monitoring (uncertainty sources, uncertainty analysis methods, propagation methods)

12. Time series analysis

13. Case studies

Cíle studia:

Předmět je vyučován v anglickém jazyce

The goal of this course to present various methods of data aquisition for environmental studies and services and teach adequate data assimilation methods.

Studijní materiály:

!Burden, F.R., Donnert, D., Godisg, T. and McKelvie, I. (2002). Environmental Monitoring Handbook. McGraw-Hill. ISBN 978-3-510-65386

!Dirksen, C. (1999). Soil physics measurements. Reiskirchen: Catena-Verl. ISBN-13: 978-3923381432

!Hillel, D. (1998). Environmental soil physics. San Diego, CA: Academic Press. ISBN: 9780123485250

!Kendall, C. (2006). Isotope tracers in catchment hydrology. Amsterdam.: Elsevier. ISBN 978-0-444-81546-0

!Ott W.R.(1995). Environmental Statistics and Data Analysis. CRC Press LLC. ISBN: 9780873718486

Poznámka:

Rozvrh na zimní semestr 2024/2025:

Rozvrh není připraven

Rozvrh na letní semestr 2024/2025:

	06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Po	místnost TH:B-686 10:00–11:50 (přednášková par. 1) Thákurova 7 (budova FSv) B686
Út
St	místnost TH:B-686 09:00–11:50 (přednášková par. 1 paralelka 101) Thákurova 7 (budova FSv) B686
Čt
Pá

Předmět je součástí následujících studijních plánů:

• Water and Environmental Engineering, spec. Hydraulic Engineering (povinně volitelný předmět)
• Water and Environmental Engineering, spec. Water Management (povinně volitelný předmět)
• Water and Environmental Engineering, spec. Environmental Engineering and Science (PS)