Quaternary geochronology

Objectives:

The objective of the course is to introduce the principles and applications of key methods used to determine the rates and dates of Quaternary geological and paleoclimate events. The course aims to train MSc students in critical evaluation of existing geochronological data and how to apply Quaternary dating techniques in their own projects.

In the course, MSc students can work on data they have produced in their own projects, and/or on previously published data that is relevant for their projects.

Contents:

The course addresses the theory and methods for a range of dating techniques, including Radiocarbon, Uranium-series, in situ cosmogenic nuclides, and luminescence. The course emphasises the practical applications of these dating methods, critical evaluation of their results, and relevant good practices in Quaternary Science.

Learning Outcomes

On completion of the course the student should have the following learning outcomes defined in terms of knowledge, skills and general competence:

Knowledge

The student

• can explain the principal terms, definitions, and theory relevant to Quaternary geochronology (e.g., geologic time, radioactivity, precision and accuracy, uncertainty)
• can explain and compare method-specific principles, their theoretical foundations, advantages, and limitations
• can critically evaluate the results obtained using different numeric, relative and correlation dating methods with respect to geochronologic and geologic context

Skills

The student

• can argue for which method(s) to use to determine the rates and dates of geological/paleoclimate events for a given material and/or a given scientific question
• can perform simple calculations for dating of geological samples, using spreadsheets, open access method-specific codes, and web-based resources
• can identify geological processes that have method-specific implications, examine these with respect to how they affect the results, and appraise how interpretations can be biased
• can illustrate observations, data, analyses, and results graphically

General competence

The student

• can apply precise terminology to demonstrate and summarise geological processes, geochronological archives, material, and methods
• can integrate, analyse, interpret, and critically evaluate geochronological data to test scientific hypotheses
• can use libraries and open access scientific databases to retrieve relevant information

Autumn 2023, the course will run as GEOV228 for the last time.

Spring. The course is only given if 5 or more students enrol.