Introduction to geomorphology
Download as PPTX, PDF81 likes28,042 views
This document provides an introduction to the course GEE-221: Geomorphology-I. It defines geomorphology as the scientific study of landforms and the processes that shape them. It discusses the importance of geomorphology for understanding natural hazards, landforms, and landscapes. The document also outlines various geomorphic processes including weathering, erosion, deposition, mass movement, faulting, folding, volcanism, earthquakes, landslides, diastrophism and metamorphism. These processes are classified as terrestrial or extra-terrestrial, exogenetic or endogenetic. The key agents and products of geomorphic processes are also introduced.
![Geomorphic Process (Cont…)
Definition:
The geomorphic processes are all those physical and
chemical changes which effect a modification of the
earth’s surgical form [W. D. Thornbury (1968): Principles
of Geomorphology, pp. 34].
A process by which the earth’s land forms are changed or
maintained [Jim Gardner (1979): Physical Geology].
15](https://image.slidesharecdn.com/2-1chapter1-introtogeomorphology-161223162129/85/Introduction-to-geomorphology-15-320.jpg)
Introduction to geomorphology
- 1. WELCOME 1
- 2. GEE-221: GEOMORPHOLOGY- I (2 Credits) Introduction to Geomorphology Presented by Md. Nazir Hossain Lecturer Geography and Environment Shahjalal University of Science & Technology Sylhet-3114, Bangladesh nazirswapon@gmail.com 2
- 3. What we see on the earth’s natural surface? 3
- 5. Landforms? Which? & Where? How these features are formed? 5
- 6. Geomorphology The word Geomorphology derived from Greek: geo, "earth"; morfé, "form"; and logos, "study"; is the scientific study of landforms and the processes that shape them. It is a composite science, is the study of landforms including, in recent times especially, investigations into the processes that cause and alter the landforms. Geomorphology is practiced within physical geography, geology, geodesy, engineering geology, archaeology and geotechnical engineering. 6
- 7. Importance of Geomorphology To understand geomorphological processes of various environment. To detect natural and environmental hazards efficiently, e.g. earthquake, flooding, landslide, tsunami, volcanism etc. To identify various landform features and landscapes To identify various landform features from satellite images Coastal and river research Vulnerability studies 7
- 8. Application of Geomorphic Knowledge Understanding of geomorphology in the resolution of engineering, planning and environmental/resource management problems. The social relevance of geomorphology The study of the interactions between geomorphology and human activity.
- 9. Application of Geomorphic Knowledge (Cont.) According to H. Th. Verstappen (1983)… Topographic & thematic mapping of natural resources Surveying of natural hazards; e.g. landslides, avalanche, earthquake, land subsidence Rural development & planning emphasizing land utilization, channel manipulation, river basin management Urbanization, mining & construction Engineering design
- 11. Subject matter Origin of the earth Geomorphic process Tectonic aspect 11
- 12. Subject matter (Cont.) Interior of the earth: composition and structure Earth surface: composition and structure Landform features Erosion and deposition Geological time scale Geomorphological theory 12
- 13. What are the processes work behind the landforms? 13
- 14. Geomorphic Process The process responsible for the formation and alteration of the earth's surface. The physical and chemical interactions between the earth's surface and the natural forces acting upon it to produce landforms. The processes are determined by such natural environmental variables as geology, climate, vegetation and base level, to say nothing of human interference. 14
- 15. Geomorphic Process (Cont…) Definition: The geomorphic processes are all those physical and chemical changes which effect a modification of the earth’s surgical form [W. D. Thornbury (1968): Principles of Geomorphology, pp. 34]. A process by which the earth’s land forms are changed or maintained [Jim Gardner (1979): Physical Geology]. 15
- 16. Agents of Geomorphic Processes River -Humid Geomorphic Environment Wind - Arid Environment Glacier/ice - Polar Environments Wave - Coastal Environment 16 Agent, Process & products
- 17. Process Process includes three types of activities Erosion Transportation Deposition 17 Agent, Process & products
- 18. Products of Geomorphic Processes Process Erosion Transportation Deposition Erosional landform features Transportation Depositional landform features Products 18 Agent, Process & products
- 19. Agents of Change... Wind activitiesRiver activities Glaciers activities Wave activities 19
- 20. GEOMORPHIC PROCESSES Terrestrial Processes Extra-terrestrial Processes Exogenetic Processes Endogenetic Processes i. Weathering ii. Erosion/Degradation iii. Transportation iv. Deposition/Aggradation v. Mass movement i. Faulting and Folding ii. Volcanism iii. Earthquake iv. Landslide v. Diastrophism vi. Metamorphism •Physical Weathering •Chemical Weathering •Biological Weathering Denudation 20
- 21. Types of Geomorphic Processes Geomorphic Processes A. Terrestrial processes B. Extra-terrestrial processes, e.g. fall of meteorite (mass/rock from outer space). Terrestrial processes 1. Exogenetic / Exogenous Processes 2. Endogenetic / Endogenous Processes 21
- 22. Extra-terrestrial processes, e.g. fall of meteorite 22
- 23. Types of Geomorphic Processes (Cont…) Exogenetic/Exogenous Processes Outer geomorphological processes = exogenetic processes (solar radiation, wind, temperature changes, water) create relief sculptures, surface features. Exogenetic Processes Endogenetic Processes 23
- 24. Types of Geomorphic Processes (Cont…) Endogenetic Processes Inner geomorphological processes = endogenetic processes (earthquakes, volcanoes, folding and faulting) create rough features of the Earth´s relief. e.g. oceanic basins, mountain ranges, oceanic ridges and trenches, rift valleys, folds, faults and volcanoes, etc. Exogenetic Processes Endogenetic Processes 24
- 25. Basic difference between the two process Processes that are caused by forces from within the Earth are endogenous processes. By contrast, exogenous processes come from forces on or above the Earth's surface. Endogenic Processes Exogenic Processes Originate in the interior of the earth. Originate on the surface of the earth. Causes sudden or rapid movements Causes slow movements. Eg: Earthquake, faulting, diastrophism Eg: Erosional and Depositional 25
- 26. Types of Exogenetic / Exogenous Processes i. Weathering ii. Erosion/ Degradation iii. Transportation iv. Deposition/Aggradation v. Mass movement 26
- 27. Denudation It means to make the things exposed. The processes by which the rocks on the earth’s surface are broken into pieces through the application of external physical forces and the debris are transported elsewhere is known as denudation. This denudation work is performed through three processes such as weathering, erosion and transportation. Denudation= Weathering + Erosion + Transportation 27
- 29. Weathering The weathering is a process by which the rocks on the surface of the earth is broken mechanically into pieces due to snow or frost, the variation of temperature and pressure or due to chemical (dissolution) action on the materials. Even the rocks are dislodged by the animals. But the rocks weathered this way, are not transported elsewhere. 29
- 30. Erosion Erosion and transportation are accomplished together. The process by which the rocks of the earth’s crust are eroded by the river, wind, glacier, ocean currents etc. are transported elsewhere is known as erosion. 30
- 31. Degradation Degradation is the lowering of a bottomland surface through the process of erosion; Conceptually it is the opposite of the vertical component of aggradation and is most frequently applied to sediment removed from a channel bed or other low-lying parts of a stream channel. 31
- 32. Weathering vs. Erosion Weathering = process of disintegration or decomposition of rocks which stay then in the same place. Erosion = process of disintegration or decomposition of rocks which are transported somewhere else. 32
- 33. Deposition Deposition is the constructive process of accumulation into beds or irregular masses of loose sediment or other rock material by any natural agent; 33
- 34. Aggradation Aggradation is the raising or elevating of a bottomland surface through the process of alluvial deposition; Conceptually it is the vertical component of accretion and is most frequently applied to sediment deposition on a channel bed, bar or other near-channel surfaces, flood plain, or, less often, low- lying alluvial terrace. 34
- 35. Sedimentation Sedimentation is the process by which sediment is mechanically deposited from suspension within a fluid, generally water, or ice, thereby accumulating as layers of sediment that are segregated owing to differences in size, shape, and composition of the sediment particles. 35
- 36. Mass movement/Mass Wasting Mass movement is any downslope transfer, through gravitational and generally water-facilitated (viscous) processes, of near-surface soil and rock material; Rates of mass movement range from very slow creep to nearly instantaneous slope failure. 36
- 37. GEOMORPHOLOGICAL PROCESSES Terrestrial Processes Extra-terrestrial Processes Exogenetic Processes Endogenetic Processes i. Weathering ii. Erosion/Degradation iii. Transportation iv. Deposition/Aggradation v. Mass movement i. Faulting and Folding ii. Volcanism iii. Earthquake iv. Landslide v. Diastrophism vi. Metamorphism •Physical Weathering •Chemical Weathering •Biological Weathering Denudation 37
- 38. Faulting Fault is a planar or gently curved fracture in the rocks of the earth’s crust, where compressional or tensional forces cause relative displacement of the rocks on the opposite sides of the fracture. 38
- 39. Folding Fold is an undulation or waves in the stratified rocks of the earth’s crust. A fold occurs when one or a mass of originally flat and planar surfaces, such as sedimentary strata, are bent or curved as a result of permanent deformation. 39
- 40. Volcanism Volcanism is the phenomenon of eruption of molten rock (magma) onto the surface of the earth, where lava and volcanic gases erupt through a break in the surface called a vent. Eruption of the volcanoes or the magma is the main sources of igneous rocks on the surface of the earth. 40
- 41. Earthquake An earthquake is a vibration or oscillation of the surface of the earth caused by sudden release of enormous pressure. 41
- 42. Landslide A landslide, also known as a landslip, which includes a wide range of ground movements, such as rock fall, deep failure of slopes and shallow debris flows, which can occur in offshore, coastal and onshore environments. 42
- 43. Diastrophism Diastrophism is also called tectonism, large-scale deformation of earth’s crust by natural processes, which leads to the formation of continents and ocean basins, mountain systems, plateaus, rift valleys, and other features by mechanisms such as plate movement, volcanic loading, or folding. Internal forces active here 43
- 44. Metamorphism Metamorphism is the change in rock structure, minerals or geologic structure. It is a process of change in the physical structure of rock as a result of long-term heat, pressure and introduction of chemically active fluids, especially a change that increases the rock's hardness and crystalline structure. The change occurs primarily due to heat, pressure, and the introduction of chemically active fluids. 44
- 45. Geomorphological Processes at a glance 45
- 46. Next Lecture Erosion & Deposition 46
- 47. Thanks To All 47