The UPSC Civil Services Examination (CSE) offers Geology as a unique optional subject, ideal for candidates with a passion for Earth sciences. This interdisciplinary field delves into the Earth’s composition, structure, history, and the dynamic processes that shape it. From the formation of minerals and rocks to the majestic mountain ranges and the colossal forces of plate tectonics, Geology equips aspirants with a comprehensive understanding of our planet. This knowledge proves invaluable for tackling environmental challenges, managing natural resources effectively, and contributing to scientific advancements – all crucial aspects for a successful career in the Indian civil services.
Geology Paper 1
1. General Geology:
The Solar System, meteorites, origin and interior of the earth and age of earth; Volcanoes—causes and products, Volcanic belts. Earthquakes—causes, effects, seismic of zone of India; Island arcs, trenches and mid-ocean ridges; Continental drift; Seafloor spreading, plate tectonics. Isostasy.
2. Geomorphology and Remote Sensing:
Basic concepts of geomorphology. Weathering and soil formations; Landforms, slopes and drainage. Geomorphic cycles and their interpretation. Morphology and its relation to structures and lithology; Coastal geomorphology; Applications of geomorphology in mineral prospecting, civil engineering; hydrology and environmental studies; Geomorphology of Indian sub-continent.
Aerial photographs and their interpretation—merits and limitations; The Electromagnetic spectrum. Orbiting Satellites and Sensor Systems. Indian Remote Sensing Satellites. Satellite data products; Applications of remote sensing in geology; The Geographic Information System (GIS) and Global Positioning System (GPS)—its applications.
3. Structural Geology:
Principles of geologic mapping and map reading, projection diagrams, Stress and strain ellipsoid and stress-strain relationships of elastic, plastic and viscous materials; Strain markers in deformed rocks. Behaviour of minerals and rocks under deformation conditions. Folds and faults classification and mechanics; Structural analysis of folds, foliations, lineations, joints and faults, unconformities; Timerelationship between crystallization and deformation.
4. Paleontology:
Species—definition and nomenclature; Megafossils and Microfossils. Modes of preservation of fossils; Different kinds of microfossils; Application of microfossils in correlation, petroleum exploration, paleoclimatic and paleoceanographic studies; Evolutionary trend in Hominidae, Equidae and Proboscidae. Siwalik fauna.
Gondwana flora and fauna and its importance; Index fossils and their significance.
5. Indian Stratigraphy:
Classification of stratigraphic sequences: lithostrati-graphic, biostratigraphic, chrono-stratigraphic and magnetostratigraphic and their interrelationships; Distribution and classification of Precambrian rocks of India; Study of stratigraphic distribution and lithology of Phanerozoic rocks of India with reference to fauna, flora and economic importance. Major boundary problems—Cambrian/ Precambrian, Permian/Triassic, Cretaceous/Tertiary and Pliocene/Pleistocene; Study of climatic conditions, paleogeography and igneous activity in the Indian sub-continent in the geological past. Tectonic framework of India. Evolution of the Himalayas.
6. Hydrogeology and Engineering Geology:
Hydrologic cycle and genetic classification of water; Movement of subsurface water; Springs; Porosity, permeability, hydraulic conductivity, transmissivity and storage coefficient, classification of aquifers; Water-bearing characteristics of rocks; Groundwater chemistry. Salt water intrusion. Types of wells. Drainage basin morphometry; Exploration for groundwater; Groundwater recharge; Problems and management of groundwater; Rainwater harvesting; Engineering properties of rocks; Geological investigations for dams, tunnels highways, railway and bridges; Rock as construction material; Landslides
causes, prevention and rehabilitation; Earthquake-resistant structures.
Geology Paper 2
1. Mineralogy:
Classification of crystals into systems and classes of symmetry; International system of crystallographic notation; Use of projection diagrams to represent crystal symmetry; Elements of X-ray crystallography.
Physical and chemical characters of rock forming silicate mineral groups; Structural classification of silicates; Common minerals of igneous and metamorphic rocks; Minerals of the carbonate, phosphate, sulphide and halide groups; Clay minerals.
Optical properties of common rock forming minerals; Pleochroism, extinction angle, double refraction, birefringence, twinning and dispersion in minerals.
2. Igneous and Metamorphic Petrology:
Generation and crystallisation of magmas. Crystallisation of albite—anorthite, diopside—anorthite and diopside—wollastonite—silica systems. Bowen’s Reaction Principle; Magmatic differentiation and assimilation. Petrogenetic significance of the textures and structures of igneous rocks. Petrography and petrogenesis of granite, syenite, diorite, basic and ultrabasic groups, charnockite, anorthosite and alkaline rocks. Carbonatites. Deccan volcanic province.
Types and agents of metamorphism. Metamorphic grades and zones; Phase rule. Facies of regional and contact metamorphism; ACF and AKF diagrams; Textures and structures of metamorphic rocks. Metamorphism of arenaceous, argillaceous and basic rocks; Minerals assemblages. Retrograde metamorphism; Metasomatism and granitisation, migmatites. Granulite terrains of India.
3. Sedimentary Petrology:
Sediments and Sedimentary rocks: Processes of formation; digenesis and lithification; Clastic and non-clastic rocks-their classification, petrography and depositional environment; Sedimentary facies and provenance. Sedimentary structures and their significance. Heavy minerals and their significance. Sedimentary basins of India.
4. Economic Geology:
Ore, ore mineral and gangue, tenor of ore. Classification of ore deposits; Processes of formation of mineral deposits; Controls of ore localisation; Ore texures and structures; Metallogenic epochs and provinces; Geology of the important Indian deposits of aluminium, chromium, copper, gold, iron, lead, zinc, manganese, titanium, uranium and thorium and industrial minerals; Deposits of coal and petroleum in India, National Mineral Policy; Conservation and utilization of mineral resources. Marine mineral resources and Law of Sea.
5. Mining Geology:
Methods of prospecting—geological, geophysical, geochemical and geobotanical; Techniques of sampling. Estimation of reserves of ore; Methods of exploration and mining-metallic ores, industrial minerals, marine mineral resources and building stones. Mineral beneficiation and ore dressing.
6. Geochemistry and Environmental Geology:
Cosmic abundance of elements. Composition of the planets and meteorites. Structure and composition of earth and distribution of elements. Trace elements. Elements of crystal chemistry-types of chemical bonds, coordination number. Isomorphism and polymorphism. Elementary thermodynamics.
Natural hazards—floods, mass wasting, costal hazards, earthquakes and volcanic activity and mitigation; Environmental impact of urbanization, mining, industrial and radioactive waste disposal, use of fertilizers, dumping of mine waste and fly-ash. Pollution of ground and surface water, marine pollution. Environment protection—legislative measures in India; Sea level changes: causes and impact.
Frequently Asked Questions (FAQs)
- What are the minerals that form rocks?
Rocks are composed of one or more minerals. Minerals are naturally occurring, inorganic, crystalline solids with a definite chemical composition and a specific atomic arrangement. Common rock-forming minerals include quartz, feldspar, mica, pyroxene, amphibole, calcite, and clay minerals.
- What is the difference between igneous, sedimentary, and metamorphic rocks?
- Igneous rocks: Form from the cooling and solidification of magma (molten rock underground) or lava (molten rock above ground).
- Sedimentary rocks: Form from the accumulation and lithification (sediment turning into rock) of sediments derived from weathering and erosion of pre-existing rocks.
- Metamorphic rocks: Form from the transformation of pre-existing igneous, sedimentary, or even other metamorphic rocks due to intense heat, pressure, or chemical activity.
- What are the causes of earthquakes?
Earthquakes are caused by the sudden movement of tectonic plates (large slabs of Earth’s crust). This movement can be triggered by the buildup and release of stress within the plates, volcanic activity, or even the gravitational pull of the moon and sun.
- What are the different types of fossils and their significance?
There are two main types of fossils:
- Body fossils: Preserved remains of hard parts of organisms like bones, shells, or teeth.
- Trace fossils: Indirect evidence of an organism’s activity like footprints, burrows, or bite marks.
Fossils provide crucial evidence for understanding the history of life on Earth, past climates, and the evolution of species.
- What are the economic benefits of studying geology?
Geology plays a vital role in finding and extracting natural resources like minerals, metals, fossil fuels, and groundwater. It also helps in geohazard mitigation (reducing risks from earthquakes, landslides, etc.) and understanding soil properties for agriculture.
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