A Level Geology WJEC

This subject is broken down into 21 topics in 4 modules:

  1. Basic Geological Principles 6 topics
  2. Geological Investigation 5 topics
  3. Geological Themes 7 topics
  4. Geological Practical Techniques 3 topics
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  • 4
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  • 21
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  • 8,393
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  • 1+
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This page was last modified on 28 September 2024.

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Geology

Basic Geological Principles

The structure of the Earth and plate tectonics

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The structure of the Earth and plate tectonics

Structure of the Earth

  • The Earth is composed of four main layers: the inner core, the outer core, the mantle, and the crust.
  • Each layer has unique properties, the inner core is a solid ball of metal, primarily iron and nickel. The outer core, which borders the inner core, is mostly composed of liquid iron and nickel.
  • The mantle, the thickest layer, is composed of hot, semi-solid rock, and it drives plate tectonics through convection currents.
  • The crust is the outermost layer, a thin shell where life exists. There are two types of crust: the denser, thinner oceanic crust, and the less dense, thicker continental crust.
  • The boundary between the mantle and the crust is called the Mohorovičić discontinuity (Moho), and differences in seismic wave speeds demarcate this boundary.

Plate Tectonics

  • The Earth's lithosphere (the crust and uppermost mantle) is broken into several large and small sections known as tectonic plates, which float on the semi-fluid part of the mantle, called the asthenosphere.
  • There are two types of tectonic plates: oceanic plates which underlie the oceans and continental plates which underlie the continents and their shallow seabed.
  • Plate boundary is the region where two tectonic plates are in contact. Plate boundaries may be divergent, convergent, or transform based on their motion relative to each other.
  • Divergent boundaries occur when two tectonic plates move away from each other. Emergence of new crust is a common phenomena here.
  • Convergent boundaries are formed when tectonic plates move towards each other and one plate is forced beneath the other in a process called subduction.
  • At Transform boundaries, tectonic plates slide past each other horizontally.
  • Tectonic plate movement is driven by convection currents in the Earth's mantle caused by the heat from the core.
  • Tectonic plate movement causes earthquakes, volcanic activity, the creation of mountain ranges and oceanic trenches, which has a huge impact on the geographical features on the Earth's surface.
  • The modern theory of plate tectonics has evolved from the early continental drift hypothesis proposed by Alfred Wegener and the concept of seafloor spreading.

Understanding these topics and fundamental geological principles will help explain the various physical phenomena around us and will support further studies of Earth's systems, resources, and history.

Course material for Geology, module Basic Geological Principles, topic The structure of the Earth and plate tectonics

Geology

Geological Themes

Regional geology

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Regional geology

Regional Geology Overview

  • Regional geology involves the study of geological structures at a regional scale, often across numerous stratigraphic periods.
  • This field of study focuses on a comprehensive understanding of the geologic history, structural architecture, and the tectonic evolution of a specific region.
  • Understanding regional geology allows geologists to predict where resources like oil, gas, and minerals can most likely be found.

Geological Structures

  • Folds, faults, and joint systems are key structures studied in regional geology.
  • The formation of these structures generally involves tectonic forces and can be indicators of the past movements in the Earth's crust.
  • Folds are formed when originally flat layers of rock are bent or curved.
  • Faults are planes of weakness in the Earth's crust where the rock on one side has moved relative to the other.
  • Joints are breaks in the rock where there has been no movement parallel to the wall of the joint unlike faults.

Stratigraphy and Tectonic Events

  • A study of stratigraphy involves analysis of the sequence, age, and distribution of rock strata or layers.
  • Tectonic events such as metamorphism, deformation, and plate movements often disrupt or complicate this sequence, forming inconformities and leading to the creation of specific geological structures.

Plate Tectonics

  • Regional geology is greatly influenced by plate tectonics, the theory explaining the large-scale motions of Earth's lithosphere.
  • Different types of plate boundaries (convergent, divergent, and transform) can lead to various geologic manifestations on a regional scale.
  • These can include the formation of mountains, basins, rift valleys, and other landforms.

Regional Rock Assemblages

  • Understanding the relationship of various rock types within a region is essential
  • This can reveal information about past environmental conditions and geological processes.
  • Rock assemblages can indicate sedimentary environments, volcanic activity, and metamorphic conditions.

Palaeogeography

  • Palaeogeography is essential in the study of ancient landscapes and past geographic conditions of a region.
  • It utilizes evidence from fossil records, sediment types, rock structures, and more, to reconstruct past environments and their geological contexts.

Economic Geology

  • Understanding regional geology can aid in the extraction of Earth's natural resources.
  • Resources like minerals, fossil fuels, and groundwater operate on a geological scale and their distribution often mirrors tectonic boundaries and geological structures.
  • Economic geology seeks to understand these resources within their regional geological context.

Remember, a proper grasp of regional geology comes from a comprehensive understanding of many different geological themes and how they interact and manifest on a larger scale.

Course material for Geology, module Geological Themes, topic Regional geology

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