Sedimentary Rocks Geology 200 Geology for Environmental Scientists Major Concepts • Sedimentary rocks form by the processes of weathering, g, erosion,, transportation, p , and deposition, or by chemical precipitation. • Two main types – clastic: pieces of older rocks (clasts) – chemical: h i l precipitated i i d or formed f d in i place l • Sedimentary structures are critical to interpreting sedimentary rocks. The Rock Cycle Major Concepts • Major sedimentary environments: – – – – – – – – fluvial and alluvial eolian li glacial delta shoreline organic reefs shallow marine deep marine Major Concepts Sedimentary rock layers are hierarchically grouped or subdivided into both: – rockk stratigraphic i hi units i – time stratigraphic g p units We’ll cover this in the section on stratigraphic t ti hi correlation. l ti Clastic Sedimentary Rocks • • • • • • Produced by weathering of rocks. Breccia - large, large angular grains Conglomerate - large, rounded grains Sandstone - sand sized grains Siltstone - silt sized grains Shale and Mudstone - silt and clay sized grains Grain Size • Grain size can be an indicator of the energy of the environment. environment • Generally speaking, higher energy water or wind i d currents are required i d to move larger grain sizes. Grain Size, Size cont cont’dd S e ranges: Size a ges: small s a too large a ge • boulders, >256 mm (>1 ft.) • cobbles, bbl >64 >64mm (>3 iin.)) • pebbles, >4mm • granules, 2-4mm • sand, sand 1/8 1/8-22 mm • silt, >1/256 mm • clay, l <1/256 1/2 6 mm Fig. 5.4. Grain size ranges for classification of common clastic sedimentary rocks Grain Sorting • Grain sorting can also be an indicator of the energy of the environment. • Well-sorted W ll d sediments di are deposited d i d in i high energy environments. Currents sort the grains by size. • Poorly Poorly-sorted sorted sediments may indicate weak currents, or transport by glaciers. Well sorted sand g grains and an outcrop p of well-sorted sandstone. Poorly sorted glacial deposit ranging from cobbles to mud-sized particles. particles Conglomerate Conglomerate deposited as an alluvial f fan, Cretaceous C t off Utah Ut h Sandstone Sh l Shale Chemical Sedimentary Rocks • Produced by chemical precipitation. • Evaporites - formed by evaporation of seawater – Salt, NaCl – Gypsum, CaSO4 • Carbonates – Limestone, CaCO3 – Dolostone, CaMg(CO3)2 Gypsum yp Limestone Fossiliferous F ilif Limestone Carbonates • Typically, carbonates form in warm, clear water free of clastic sediment. • Carbonate grainstone - composed of sand-sized grains from invertebrate skeletons k l t or oolites. lit • Carbonate mudstone - clayy and siltsized grains from pellets and calcareous algae. Carbonate Grainstone: Oolitic Limestone Oolite Shoals Carbonate Mudstone: Micritic Limestone Carbonate Mud Banks in Florida Bay Investigating Carbonate Mud Banks in Fl id Bay Florida B Investigating Carbonate Mud Banks in Fl id Bay Florida B Coal • Classified as a chemical rock by most textbooks But it is not a chemical textbooks. precipitate. Instead it forms from plant debris not consumed by bacteria and other organisms. It is an organic rock. • Takes about 10 ft. of peat to form 1 ft. of bituminous o b u ous co coal.. Types of coal: peat lignite bituminous anthracite th it Upper Freeport Coal, Preston County, WV Examples of Sedimentary Structures Sedimentary Structures • Provide clues to depositional environments Some examples: environments. • Cross bedding - rivers, dunes, tidal channels h l • Graded beddingg - storms and turbidites • Ripple marks - lower energy • Mud cracks - subaerial exposure Bedding planes are primary sedimentary structures. structures Modern Sedimentary Structures: Mudcracks on a flood plain plain. Ancient Sedimentary Structures: years old. mudcracks in rocks 1 billion y Modern Sedimentary Structures: Current ripples on a modern beach. beach Beach in Ireland at low tide Sedimentary Structures: Current ripples on an ancient beach,, 400 MY old. The p processes by y which symmetrical y and current ripples are formed. Geometry of sand dunes, both eolian and aquatic. TOP BOTTOM Fig. 5.9. Large scale cross-bedding formed by eolian dune migration. Flow direction and top of bed indicated. Wind blown dune deposits. p Mississippian cross beds near Altoona, PA Mississippian pp cross beds near Altoona, PA Jurassic Navaho Sandstone, Zion National Park, wind-blown cross-bedding cross-bedding. Marine Cross Beds in Ste. Genevieve Ls., Indiana Tidal Cross Beds in Ste. Genevieve Ls., Indiana Smaller cross beds deposited in a river or stream. A meandering stream with a sandy point bar on the inside curve, and a cut bank on the outside curve. The ppoint bar dips p toward the stream channel. St Stream Channel Ch l U d Underwater sand d ddunes, Fl Florida id Keys K Graded Bedding – formed by storms or turbidite deposition Another example of a graded bed Sedimentary Environments or Environments of Deposition Color of Sedimentaryy Rocks • Color can be useful in the interpretation of depositional environments. • Black color - indicates deposition in the absence of oxygen in either the ocean, lakes, or swamps. • Red color - indicates deposition in the ppresence of abundant oxygen yg in a warm, humid terrestrial environment. Black Shale, Anoxic Environment Sideling Hill Outcrop, I-68. What is the depositional environment of the black layer? Red Beds, Oxygenated Environment Environments of Deposition • • • • 3 Major Environments C i Continental l or Terrestrial T i l Marine Transitional Continental or Terrestrial Environments • • • • Glacial - both Alpine and Continental Alluvial Fans - at the base of mountains Lakes Rivers and Floodplains = Fluvial and alluvial deposits • Swamps • Deserts M i Environments Marine E i • Continental Shelf - most common marine environment in the rock record • Shelf Edge • Slope • Ocean Floor Transitional Environments • • • • • • Beaches Barrier Islands Tidal Flats Lagoons and Bays Estuaries River Deltas Fig. 5.13. Major sedimentary environments. Alluvial Fan deposits Fluvial and floodplain deposits What is the depositional environment? What is the depositional environment? Eolian deposits A modern swamp in Louisiana A strip coal mine in the western U.S. -an ancient swamp environment A strip coal mine in the western U.S. -an ancient swamp environment Beach deposits Barrier Islands, bays, y , and continental shelf on the New Jersey coast. Barrier Islands, bays, and continental shelf on the Gulf Coast: Mobile Bay Seneca Rocks – Paleozoic barrier island deposits 2004 G200 class on top of Seneca Rocks 2005 G200 class on top of Seneca Rocks Transitional or Marginal Marine Environments, Tid l Inlets, Tidal I l Marshes, M h andd Lagoons L Marginal g Marine Environments,, Tidal Inlets between Barrier Islands Marginal Marine Environments, a Barrier Island Marginal Marine Environments, a prograding Spit on a Barrier Island Transitional Environment: The Mississippi River delta Transitional Environment: The Mississippi River delta Fig. 12.32. Historic flow of the Mississippi The Nile Delta. Shaped p like the Greek letter delta. delta Sedimentary Facies • Facies - general appearance or aspect of sedimentary rocks. Often correspondd to t formations. f ti • A reflection of the depositional p environment. • Lithofacies - defined by lithologic features • Biofacies - defined by organic features Sedimentary Facies • Facies occur laterally adjacent to one another just as do their depositional environments. • Two different diff facies f i can have h similar i il lithofacies but different biofacies, or vice-versa. Sedimentary Facies • Facies migrate laterally with changes in sea level. level • Rising sea level = transgression. Marine i facies f i overlie li nonmarine i facies. • Falling sea level = regression. Nonmarine facies overlie marine facies. Facies changes produced by Marine Transgression Transgression, regression, and stratigraphic cycles. Figure 5.26 5 26 Causes of Changes in Sea Level • Changing ice volumes at the poles. • Thermal expansion or contraction of the oceanic crust. • Continental tectonics or subsidence. • Shoreline progradation from river and deltaic sedimentation. Pennsylvanian Sedimentary Rocks in the Appalachians Pennsylvanian P l i point i t bar b deposits d it on WV Rt. 19 near Oak Hill. coal seam point bar surfaces A meandering stream with a sandy point bar on the inside curve, and a cut bank on the outside curve. The ppoint bar dips p toward the stream channel. Stream Deposits p at Exit 7, I-68 by Glenmark Centre Depositional Model for Coal formation Upper Freeport Coal, Preston County, WV Upper Freeport Coal with overlying fluvial sandstones d d deposited i d by b meandering d i river. i Coal outcrop at the Morgantown Mall An idealized cyclothem sequence. Rarely found in West Vi i i Virginia Pennsylvanian Cyclothems in Kentucky 6 5 4 3 2 1 A modern marine transgression is exposing Holocene peat deposits on the Louisiana coastline. Change of the Louisiana Coastline Middle Pennsylvanian, Kanawha Fm., Rt 19, Rt. 19 Nicholas Co Co., WV