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Formation of Sedimentary Rocks

Formation of Sedimentary Rocks. Formation of Sedimentary Rocks. Much of Earth’s surface is covered with sediments. Sediments are pieces of solid material that have been deposited on Earth’s surface. When sediments become cemented together, they form sedimentary rocks.

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Formation of Sedimentary Rocks

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  1. Formation of Sedimentary Rocks Formation of Sedimentary Rocks • Much of Earth’s surface is covered with sediments. • Sediments are pieces of solid material that have been deposited on Earth’s surface. • When sediments become cemented together, they form sedimentary rocks. • The formation of sedimentary rocks begins when weathering and erosion produce sediments.

  2. Formation of Sedimentary Rocks Lithification • Lithification includes the physical and chemical processes that transform sediments into sedimentary rocks. • The weight of overlying sediments forces the sediment grains closer together, causing the physical changes. • Layers of mud shrink as excess water is squeezed out.

  3. Formation of Sedimentary Rocks Lithification • Sand resists additional compaction during burial. • Grain-to-grain contacts in sand form a supporting framework that helps maintain open spaces between the grains.

  4. Formation of Sedimentary Rocks Cementation • Cementation occurs when mineral growth cements sediment grains together into solid rock.

  5. Formation of Sedimentary Rocks Features of Sedimentary Rocks • Bedding, or horizontal layering, is the primary feature of sedimentary rocks. • The type of bedding depends upon the method of transport. • The size of the grains and the material within the bedding depend upon many factors.

  6. Formation of Sedimentary Rocks Other Features of Sedimentary Rocks • Small sedimentary features such as ripple marks are also preserved in sedimentary rocks. • If a rippled surface is buried gently by more sediment without being disturbed, it might later be preserved in solid rock.

  7. Formation of Sedimentary Rocks Features of Sedimentary Rocks Evidence of Past Life • Fossils are probably the best-known features of sedimentary rocks. • Fossils are the preserved remains, impressions, or any other evidence of once-living organisms. • Fossils are of great interest to Earth scientists because fossils provide evidence of the types of organisms that lived in the distant past, the environments that existed in the past, and how organisms have changed over time.

  8. Types of Sedimentary Rocks Types of Sedimentary Rocks • The classification of sedimentary rocks is based on the materials they are made of. • There are three main groups of sedimentary rocks: clastic, organic, and chemical.

  9. Types of Sedimentary Rocks Types of Sedimentary Rocks

  10. Types of Sedimentary Rocks Clastic Sedimentary Rocks -They are the most common type of sedimentary rocks. - They are made from the fragments of previous rocks.

  11. Clastic Rock Examples • Big chunks- rock stew= Breccia  Small pebbles, clay and sand are glued together to make conglomerate.

  12. More Clastic Rocks • Small sand grains only is sandstone. • Clay particles in layers is shale.

  13. Types of Sedimentary Rocks Chemical Sedimentary Rocks • During chemical weathering, minerals can be dissolved and carried into lakes and oceans. • As water evaporates from lakes and oceans, the dissolved minerals are left behind. • The three most common evaporite minerals are calcite (CaCO3), halite (NaCl), and gypsum (CaSO4). • This is also how caves form.

  14. Types of Sedimentary Rocks Organic Sedimentary Rocks • They are formed from the remains of once-living things. • The most abundant organic sedimentary rock is limestone, which contains shells. • Coal forms from the remains of plant material.

  15. Types of Sedimentary Rocks Section Assessment 2. The following are which type of sedimentary rock? ___ coal ___ sandstone ___ limestone ___ shale ___ conglomerate ___ rock gypsum ___ breccia C A E A A B A A. clastic B.chemical C.organic D. A and B E. B and C

  16. End of Section 2

  17. Metamorphic Rocks • Heat, pressure and chemical changes can change any rock into a metamorphic rock. • Metamorphism is the changing of a solid rock from one type to another through heat, pressure, and/or chemical changes.

  18. Metamorphic Rocks Types of Metamorphism • Different combinations of temperature and pressure result in different types of metamorphism. • Large belts of regional metamorphism are produced when high temperature and pressure affect large regions of Earth’s crust.

  19. Metamorphic Rocks Types of Metamorphism • Geologists have divided the regional metamorphic belt that has been mapped in the northeastern United States belt into zones based upon the mineral groups found in the rocks.

  20. Metamorphic Rocks Types of Metamorphism • A local effect called contact metamorphism occurs when molten rocks, such as those in an igneous intrusion, come in contact with solid rock. • High temperature and moderate-to-low pressure form the mineral assemblages that are characteristic of contactmetamorphism.

  21. Metamorphic Rocks Metamorphic Textures • Metamorphic rocks are classified into two textural groups: foliated and nonfoliated. • Foliated metamorphic rocks have parallel layers or bands of minerals. • Examples are schist and gneiss.

  22. Slate Gneiss Foliated Rocks

  23. Metamorphic Rocks Metamorphic Textures • Unfoliated rocks do not have parallel layers or bands. • Quartzite and marble are two common examples of nonfoliated rocks.

  24. Parent and Daughter Rocks A parent is the existing rock that metamorphoses into the new daughter rock. Here are examples: ParentDaughter Shale-------- Slate Shale-------- Schist Granite------ Gneiss Sandstone- Quartzite Limestone-- Marble

  25. End of Section 3

  26. Chapter Resources Menu Chapter Resources Menu Study Guide Section 6.1 Section 6.2 Section 6.3 Chapter Assessment Image Bank

  27. Section 6.1 Study Guide Section 6.1 Main Ideas • The processes of weathering, erosion, deposition, burial, and lithification form sedimentary rocks. • Clastic sediments are rock and mineral fragments produced by weathering and erosion. They are classified based on particle size. • Sediments are lithified into rock by the processes of compaction and cementation. • Sedimentary rocks can contain depositional features such as horizontal bedding, cross-bedding, and ripple marks. • Fossils are the remains or other evidence of once-living things that are preserved in sedimentary rocks.

  28. Section 6.2 Study Guide Section 6.2 Main Ideas • There are three main classes of sedimentary rocks: clastic, which are formed from clastic sediments; chemical, which are formed from minerals precipitated from water; and organic, which are formed from the remains of once-living things. • Clastic sedimentary rocks are classified by particle size and shape. • Evaporites are chemical sedimentary rocks that form primarily in restricted ocean basins in regions with high evaporation rates. • Limestone, composed primarily of calcite, is the most abundant organic sedimentary rock. Coal is another organic sedimentary rock. • Sedimentary rocks provide geologists with information about surface conditions that existed in Earth’s past.

  29. Section 6.3 Study Guide Section 6.3 Main Ideas • Metamorphic rocks are formed when existing rocks are subjected to high temperature and pressure, which cause changes in the rocks’ textures, mineralogy, and composition. • The three main types of metamorphism are regional, contact, and hydrothermal. • Metamorphic rocks are divided into two textural groups: foliated and nonfoliated. • During metamorphism, minerals change into new minerals that are stable under the conditions of temperature and pressure at which they formed. • The rock cycle is the set of processes whereby rocks continuously change into other types of rock.

  30. Chapter Assessment Multiple Choice 1. What is it called when sediments are laid down on the ground or sink to the bottoms of bodies of water? a. erosion c. deposition b. transport d. lithification Erosion is the removal of surface. Transport is the movement of eroded materials from one location to another. Lithification is the chemical and physical processes that transform sediments into sedimentary rocks.

  31. Chapter Assessment Multiple Choice 4. Which of the following is an example of a nonfoliated metamorphic rock? a. schist c. gneiss b. slate d. quartzite Unlike foliated rocks, nonfoliated metamorphic rocks lack mineral grains with long axis in one direction. Schist, slate, and gneiss are all foliated rocks.

  32. Chapter Assessment Multiple Choice 5. What is the horizontal layering that is a primary characteristic in sedimentary rocks called? a. bedding c. metamorphism b. cementation d. ripple marks Bedding can range from a millimeter thick layer of shale to sandstone deposits several meters thick. The type of bedding depends upon the method of transport.

  33. Image Bank Chapter 6 Images

  34. Image Bank Chapter 6 Images

  35. Image Bank Chapter 6 Images

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