Sedimentary rocks

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Sedimentary rocks

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Important Announcements  Midterm Update: Test Rescheduled! NEW DATE: March 5, (Wednesday, next week) • Midterm will cover: Prelude, Chapters 1-7 & Interludes A & B • To help you prepare, There will be another 10 pt/15 question quiz this Friday (Feb 28) Covering Chapters 5-7, & Interludes A & B •Test questions for Chapter (Metamorphic rocks will be based on lecture.) Today’s Lecture: Chapter 7: Sedimentary Rocks Origin and nature of sedimentary rocks: • Sedimentary environments • Place in rock cycle • Basic weathering processes • Basic erosion (transport) processes • Soils •Types of sedimentary rocks: Chemical Origin of Sedimentary Rocks - Derived through the weathering and erosion of pre-existing rocks - Form by the transport and accumulation of fragmental materials (sediments) or dissolved products, from a source region to a site of deposition - Sediments are constantly being produced at the Earth’s surface and sedimentary deposits are widespread - 75% of all rock outcrops on continents are sedimentary - Provide a record of past events and environments - Very important economically! Sedimentary Processes Two basic environments: ◆ On-land (continental) ◆ In the ocean (marine) Shorelines = “transitional” environments Physical & chemical weathering at source Erosion (transport) & local deposition Sedimentary environments & processes Deposition, burial, lithification Sedimentary Rocks and the Rock Cycle Older sedimentary rocks (conglomerate) being recycled into new sediments Clasts of many different types of older rocks in a conglomerate Sedimentary Rocks and the Rock Cycle Volcanic rocks (basalt flows on Hawaii) being turned into sediments Basalt flows Basalt gravels Older sedimentary rocks Younger dune sands Dune sands derived from nearby outcrops of older sedimentary rocks Black Sand Beach, Hawaii Basalt flows Basalt sands Sedimentary rocks Two Basic Types: ◆ Detrital (“Clastic) sedimentary rocks Mechanical/chemical breakup of rocks (weathering) produces by-products (sediment grains and dissolved salts) that are then moved (transported or eroded) to new location (a site of deposition) ➨ ◆ Chemical sedimentary rocks Materials dissolved by chemical weathering, eventually precipitate out by either organic or inorganic processes, forming chemical sediments ➨ Chemical Sedimentary Rocks ❖ Derived from material carried in solution to lakes/seas ❖Precipitation from solution forms “chemical sediments” ❖ Two types of precipitation: - inorganic - biological Halite Chemical Sediments: Dissolved materials derived by chemical weathering precipitate as “salts” Chemical Sedimentary Rocks Evaporites ❖ Water evaporates and dissolved materials are deposited ❖ Common environments: Arid marine shorelines, lakes/playas ❖ Examples: Salt, gypsum, potash Salt flats, Utah Death valley, Calif Chemical Sedimentary Rocks Chert Agate (hot subsurface water) ❖ Very fine-grained silica ❖ Also called flint, jasper, agate ❖ Deposited on the floor of lakes and the ocean, or from hot, subsurface waters ❖ Marine creatures remove silica from sea water and make shells which sink to seafloor or lake bottom ❖ Also occurs inorganically as layers (beds) & as nodules in limestone Chemical Sedimentary Rocks Limestone ❖ 10% of all sedimentary rocks (by volume) ❖ Most abundant chemical sedimentary rock ❖ Composed primarily of calcite (calcium carbonate CaCO3) ❖ Formed by marine organisms (corals, clams, algae) ❖ Some deposited directly out of ocean or other waters Chemical Sedimentary Rocks Limestone: A chemical sedimentary rock of “biochemical” origin ❖ Example: Coquina (rock of shell fragments) Sedimentary rocks contain fossils, the remains of once living organisms Much of our understanding of the evolution of our planet’s biosphere is based on this record Fig 7.32a Scripps Institution of Oceanography, University of California, Sand Diego Coral reef Ancient Reef Chemical Sediments: Limestones forming from coral reefs around a volcanic island Fig 7.31b W W Norton Eroded volcanic pipe Coral sands Chemical Sediments: Limestones forming as coral reefs around a volcanic island Coal seams Chemical Sedimentary Rocks Coal ❖ Made up of buried and compacted plant materials ❖ Different “grades” of coal, depending on burial pressure [...]... Soils are thickest in tropical and temperate climates Sedimentary rocks Two Basic Types: ◆ Detrital (“Clastic) sedimentary rocks Mechanical/chemical breakup of rocks (weathering) produces by-products (sediment grains and dissolved salts) that are then moved (transported or eroded) to new location (a site of deposition) ➨ ◆ Chemical sedimentary rocks Materials dissolved by chemical weathering, eventually... processes, forming chemical sediments ➨ Chemical Sedimentary Rocks ❖ Derived from material carried in solution to lakes/seas ❖Precipitation from solution forms “chemical sediments” ❖ Two types of precipitation: - inorganic - biological Halite Chemical Sediments: Dissolved materials derived by chemical weathering precipitate as “salts” Chemical Sedimentary Rocks Evaporites ❖ Water evaporates and dissolved... the physical break-up of rocks 1 Frost wedging freeze/thaw cycle (ice expands) 2 Unloading remove overlying rock: less pressure 3 Thermal Expansion hot/cold = expand/shrink 4 Organic Activity plants/animals/humans Fig 7.05a © Martin Miller Sheeting and exfoliation in granite Fig 7.05b Stephen Marshak Joints (natural fractures) Mechanical Weathering Ways to physically break up rocks: Fig 7.06a Frost... Water evaporates and dissolved materials are deposited ❖ Common environments: Arid marine shorelines, lakes/playas ❖ Examples: Salt, gypsum, potash Salt flats, Utah Death valley, Calif Chemical Sedimentary Rocks Chert Agate (hot subsurface water) ❖ Very fine-grained silica ❖ Also called flint, jasper, agate ❖ Deposited on the floor of lakes and the ocean, or from hot, subsurface waters ❖ Marine creatures... granite Fig 7.03 Dissolution Fig 7.07a W W Norton Fig 7.07b W W Norton Dissolution of limestone Fig 7.07c W W Norton Carbon dioxide dissolves in water to make a weak acid (carbonic) Attacks & dissolves rocks Carbonate is especially vulnerable W W Norton Fig 7.10c Stephen Marshak Spheroidal weathering of granite Fate of Weathering Products W W Norton Products of long-term weathering and erosion: Quartz

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