Gwybodaeth Modiwlau

This module builds on the material covered in the first year EA12520 Earth Materials course. In this module more advanced material is covered.

In the mineralogy section the structure and chemistry of the major mineral groups will be described. The optical properties of rock-forming minerals will be described and students will gain practical experience with the petrological microscope. The link between major ore minerals and economic mineral deposits will be outlined.

In the igneous section of the course a wide range of igneous rocks will be examined. The generation and evolution of magmas will be discussed. In the practical component of this section students will gain experience in numerical/graphical representation of geochemical data to describe magma evolution and the behaviour of key trace elements in igneous systems. The generation of economic mineral deposits from igneous systems will be emphasized through specific case studies.

The sedimentary section of this course will encompass unconsolidated material as well as sedimentary rocks. Unconsolidated material will be described using both petrological and engineering classification systems. The link between unconsolidated material and the production of bulk materials will be emphasized. The consolidated sedimentary rocks will be studied in practical classes and advanced techniques (which might include: the quantitative assessment of pore volumes; the study of contaminated ‘soils’; contaminant flow through surficial deposits) will be taught. The links between sedimentary rocks and groundwater will be introduced. Sedimentary rocks will be considered in a stratigraphic context.

The metamorphic section of this course will focus on the link between metamorphism and materials of economic value. In the practical part of the course the link between bulk rock chemistry and metamorphic mineralogy will be explored.

The start of the course will cover advanced aspects of mineralogy in both lectures and practicals. This section will include the detailed structure of mineral groups and the link between structure and chemistry. The practical element of this section will consider both rock-forming and economic minerals. The petrological microscope will be used to conduct advanced tests on rock-forming minerals such as the use of optical tests to determine mineral composition. The hand specimen identification of minerals will be encouraged through the use of short, formative tests and quizzes.

The igneous section of the course will introduce the full range of igneous rock compositions and cover both magma generation and evolution. The behaviour of major and trace elements in igneous systems will be described in lectures and practical experience will be gained in displaying such data through the use of variation and phase diagrams. The important link between igneous rocks, tectonic setting and the generation of major mineral deposits will be covered.

The sedimentary section of the course is a major component of this module. It will consider unconsolidated sediments using both the geological and engineering description/classification systems. This section will emphasise the importance of unconsolidated sediments as economic materials. The processes which convert unconsolidated sediments into sedimentary rocks will be described in the lecture component of the course and studied in the practical element of the module. Advanced techniques will be introduced in the practicals. This section of the course will introduce the concepts of groundwater and its flow through porous materials.

The metamorphic section of the course will cover the link between rock geochemistry/mineralogy and different metamorphic grades. This section of the course will demonstrate the important link between tectonic processes and metamorphism. In the practical section metamorphic rocks will be studied and the use of diagrams to explain the link between rock composition and mineralogy will be examined.