PředmětyPředměty(verze: 945)
Předmět, akademický rok 2023/2024
   Přihlásit přes CAS
Introduction to soil science, soil organic matter dynamics, and related laboratory techniques - MO550P25
Anglický název: Introduction to soil science, soil organic matter dynamics, and related laboratory techniques
Zajišťuje: Ústav pro životní prostředí (31-550)
Fakulta: Přírodovědecká fakulta
Platnost: od 2022
Semestr: zimní
E-Kredity: 3
Způsob provedení zkoušky: zimní s.:
Rozsah, examinace: zimní s.:1/1, Z+Zk [HT]
Počet míst: neomezen
Minimální obsazenost: neomezen
4EU+: ne
Virtuální mobilita / počet míst pro virtuální mobilitu: ne
Stav předmětu: vyučován
Jazyk výuky: angličtina
Poznámka: povolen pro zápis po webu
Garant: Gerrit Angst, Dr. rer. nat.
Vyučující: Gerrit Angst, Dr. rer. nat.
Třída: NIR spectrometr
Anotace -
Poslední úprava: RNDr. Jolana Tátosová, Ph.D. (27.09.2021)
This year (2021/2022) - the course will not be held - the teacher is abroad.

This lecture will deal with the basics of soil science, including soil development and classification, soil chemistry and soil physics. Special focus will be put on soil organic matter dynamics and organic carbon storage in soil with links to climate change and rising atmospheric CO2 concentrations. A part of the course will be taking place in the field, where the students will classify a soil profile and take volumetric soil samples. These samples will then be used to analyse basic soil properties in the laboratory, such as pH value, water content, density, or particle size.
Soil organic matter related laboratory methods taught will be the measurement of heterotrophic respiration and organic carbon contents, and the separation of the soil into fractions relatable to different stabilization
mechanisms of soil organic carbon.

The subject is intended primarily for doctoral studies, requires knowledge of pedology, biogeochemistry and basics of analytical chemistry.
Cíl předmětu -
Poslední úprava: RNDr. Jolana Tátosová, Ph.D. (29.03.2019)
Course outcome:
After the course, the students should be able to

  • understand basic processes acting in and on soils with special emphasis on carbon storage and soil organic matter dynamics
  • classify soil profiles according to genetic horizons and take soil samples in the field
  • perform laboratory analyses to determine basic soil properties and measures of soil organic carbon/matter stability

Sylabus -
Poslední úprava: RNDr. Jolana Tátosová, Ph.D. (29.03.2019)
Tentative syllabus
1.Introduction

  • What is soil
  • Components of soil
  • Soil development and mineralogy

2. Soil chemistry

  • Acidity/Basicity
  • CEC
  • Buffer capacity of soils

3. Soil physics

  • Particle/pore size
  • Soil structure
  • Soil water

4. Soil organic matter

  • Introduction
  • Nutrients in soil

5. Soil classifications and geographical distribution of soil types

6. Deep delve into soil organic matter (SOM) dynamics

  • Pathways of SOM formation
  • Stabilization mechanisms
  • Analytical techniques

7. Field day

8. Laboratory course

 
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