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Title: Sedimentary Rocks and the Origin of Sedimentary Strata


1
Sedimentary Rocks and the Origin of Sedimentary
Strata
  • Basins to Bedding

2
Sedimentary Rocks
  • Sedimentary rocks are those rocks which form at
    or near the earth's surface primarily through
  • Deposition of weathered silicate material by
    water, wind, or ice (detrital, clastic,
    terrigenous)
  • Direct inorganic chemical precipitation from
    water
  • Precipitation by organic processes

3
Sedimentary Rocks
  • Three end-member types
  • TTerrigenous
  • Residual and secondary weathering products
    (siliciclastic)
  • Allogenic (extra-basinal) origin
  • A Allochemical
  • Chemical or biochemical particles, shell
    fragments
  • Authigenic (form within basin) but locally
    reworked
  • O Orthochemical
  • Primary chemical precipitation from dissolved
    ions
  • Authigenic (form within basin of deposition), no
    reworking

IO Impure orthochemical IA Impure allochemical
4
Sedimentary Rocks
  • T Terrigenous
  • Most mudrocks, sandstones, and conglomerates
  • 65 to 75 of sedimentary strata
  • IA Impure Allochemical
  • Very fossiliferous shale, sandy fossiliferous or
    oolitic limestones
  • 10-15 of sedimentary strata
  • IO Impure Orthochemical
  • Clay-rich microcrystalline limestones
  • 2-5 of sedimentary strata
  • A Allochemical rocks
  • Fossiliferous, oolitic, pellet, or intraclastic
    limestone or dolomite
  • 10-15 of sedimentary strata
  • O Orthochemical Rocks
  • Microcrystalline limestone, chert, anhydrite,
    crystalline dolomite
  • 2-8 of sedimentary strata

5
Sedimentary Rocks Terrigenous
  • Terrigenous (clastic, detrital) sediments and
    rocks
  • Also called siliciclastic since most particles
    are silicate mineral grains
  • Grains created by weathering
  • Transported by surface processes
  • Water, wind, ice
  • Deposited as horizontal, stratified layers in
    sedimentary basins
  • Buried and lithified by
  • Compaction
  • Cementation

6
Sedimentary Rocks Allochemical
  • Allochemical (mainly carbonate) sediments and
    rocks
  • Dominantly biologic origin (shells or bones)
  • Carbonate systems develop where siliciclastic
    sourcelands are low and/or very distant
  • The water is shallow marine
  • Climates are tropical to subtropical

7
Sedimentary Rocks Orthochemical
  • Orthochemical (chemical precipitate) sediments
    and rocks
  • Dominated by limestones and dolostones of
    precipitate origin
  • Also includes evaporites, chert, and iron
    formations
  • Precipitate from marine or non-marine waters due
    to chemical changes

8
Sedimentary Depositional Environments
  • In geology depositional environments are defined
    by processes and products
  • Physical processes determine
  • Grain size, sorting, rounding
  • Bedding style (including sedimentary structures)
    and geometry
  • Biological processes determine
  • Fossil content
  • Biological disruption of original stratification
  • Chemical processes determine
  • Types of minerals formed at the site of
    deposition and during burial
  • Study of modern depositional environments used to
    infer how ancient rocks formed (present is key
    to past)

9
Sedimentary Depositional Environments Main Types
  • Continental (above sea level)
  • Fluvial (stream) stream channel and floodplain
  • Glacial direct deposits and outwash
  • Lacustrine (lake)
  • Transitional (Continental and Marine)
  • Delta
  • Estuary and lagoon
  • Beach
  • Marine (below sea level)
  • Shallow sea (shelf) and reefs
  • Submarine canyons (submarine deltas)
  • Pelagic environments abyssal plains

10
Sedimentary Basins
  • Sedimentary rocks form in basins
  • Areas of the earths surface subject to long term
    (millions to tens of millions of years)
    subsidence resulting in space to accommodate
    sediment (not subject to erosion)

11
Sedimentary Basins
  • Basins occur in a wide range of tectonic settings
  • Cratonic settings
  • Michigan basin
  • Convergent plate setting and active plate
    boundaries
  • Puget trough
  • Divergent plate boundaries
  • Passive Atlantic coast basin
  • Rift Basins East African Rift

Terrigenous Clastic Basin
Carbonate Basin
12
Simple model and classification
Sedimentary Basins and Rocks


13
Siliciclastic Rocks Components
  • F-M-C-P
  • Framework Grains
  • gt0.05 mm allogenic mineral grains, rock fragments
  • Residual from weathering
  • Detrital Matrix
  • lt0.05 mm (clay, quartz, feldspar, carbonates,
    organics, oxides)
  • Chemical weathering products
  • Cement
  • Authigenic, post-depositional orthochemical
    component
  • Precipitated from circulating pore fluids
    (silica, carbonate, Fe-oxide, clay, feldspar,
    other oxides, zeolite, salts)
  • Pores
  • Primary (40) or secondary due to
    leaching/dissolution
  • Classification based on (1) texture, (2)
    composition

14
Siliciclastic Rocks Texture
  • Descriptive Textural Classification
  • Grain Size
  • Uden-Wentworth grain size scale
  • Phi -log2 (grain diameter in mm)
  • naturally occurring groups
  • Gravel rock fragments
  • Sand individual mineral grains (particulate
    residues)
  • Mud particulate residues /- chemical
    weathering products
  • Clay chemical weathering products (clay
    minerals, etc.)

15
Siliciclastic Rocks Texture
  • Grain size and sorting
  • Statistical/graphic presentation of texture
  • Quantitative assessment of the of different
    grain sizes in a clastic rock
  • Mean average particle size
  • Mode most abundant class size

16
Siliciclastic Rocks Texture
  • Grain size, sorting, and roundness
    interpretation
  • Textural Maturity
  • Kinetic energy during transport and reworking
  • Transport history
  • Dispersal patterns
  • Beware
  • Mixed sources
  • Biogenic reworking

17
Siliciclastic Rock Classification
  • Descriptive textural classification based on
    proportions of
  • S (sand 0.063-2mm) - S (silt 0.004-0.063 mm) -
    C (clay lt0.004 mm)
  • Sandstones, siltstones, and shales
  • G (gravel gt2 mm) - S (sand) - M (matrix lt0.063
    mm)
  • Conglomerates and breccias
  • gt30 gravel indicates high transport energy
  • Further classification based on composition

18
Siliciclastic Rocks Sandstone
  • Basic classification based on proportions of
  • Mineral grains (dominantly quartz)
  • Matrix (clay to silt-sized clastic material
    filling spaces between grains
  • Arenite lt5-15 matrix
  • Clean sandstone
  • Depositional agents that sort sediment well
  • Wacke gt15 matrix
  • Dirty sandstone

19
Siliciclastic Rocks Sandstone
  • Many classification schemes, but most based on
    relative proportions of framework grains
  • Relative abundance a function of mineral grains
  • Availability, Chemical Stability, Mechanical
    Durability
  • Anything Possible, most common
  • Quartz
  • monocrystalline, polycrystalline ig, met, or sed
    source
  • mechanically chemically stable, abundant
  • Feldspar
  • K-spar (sandine, microcline), Plag (Na-Ca)
  • Abundant and somewhat stable (often altered)
  • Rock (Lithic) Fragments
  • All kinds (including limestone/dolomite RFs)
  • Abundant, less stable (depending on dep
    conditions)
  • Also accessory (minor abundance) heavy minerals

20
Siliciclastic Rocks Sandstone
  • Classification based on normalized (relative
    proportions) of
  • Q q/qfr
  • F f/qfr
  • R (or L) r/qfr
  • 7 types of normal sandstones
  • Others mineral arenite, i.e. mica-arenite,
    magnetite-arenite

21
Siliciclastic Rocks Sandstone
  • Sandstone composition is tied to source area and
    tectonic setting
  • Ternary System for Sandstone classification

22
Siliciclastic Rocks Mudrocks
  • Most abundant of all sedimentary rocks
  • Composed of silt clay-sized particles
  • Dominated by clay minerals (kaolinite, smectite,
    illite)
  • Also quartz, feldspar, carbonate, organic matter,
    others
  • Composition modified by diagenetic processes
  • Variable color
  • Gray-black presence of organic matter
  • Red-brown-yellow-green oxidation state of Fe

23
Siliciclastic Rocks Mudrocks

24
Siliciclastic Rocks Conglomerates
  • Coarse-grained siliciclastic rock with muddy or
    sandy matrix
  • Gravel gt30 of grains
  • Provenance easily determined by composition of
    clasts
  • Main types
  • Conglomerate rounded clasts in sandy matrix
  • Breccia angular clasts in sandy matrix
  • Diamictite clasts in muddy matrix

25
Terrigenous ClasticDepositional Environments
  • Long systems
  • Complex association of depositional environments
    through which clastic sediment is transported and
    in which some sediment is deposited
  • End product is relatively mature sediment
  • Sediments are chemically and mechanically stable
    in composition (high temp, unstable minerals are
    not present)
  • Sediments are well sorted into the end member
    sizes of sand and clay.
  • Sandstones at the end of the long system are
    mature quartz arenites

26
Terrigenous ClasticDepositional Environments
  • Short systems
  • The siliciclastic source land is proximal to
    (close to) the basin
  • Commonly observed in tectonically active regions
  • Sediments across the entire system are
    mineralogically and texturally immature
  • They are generally poorly sorted and range in
    size from gravel to coarse sand

27
Carbonates
  • Make up 10-15 of sedimentary rocks
  • Excellent indicators of depositional
    environments integral to study of past
    environments and earth history
  • Important reservoirs for oil and gas
  • Carbonates (gt50 primary carbonate minerals)
  • Limestone (CaCO3)
  • Chemical
  • biochemical
  • Dolomite (CaMg(CO3)2)
  • Chemical

28
Carbonate Sediment Origin
  • Most primary carbonate sediments form as biogenic
    particles in shallow marine environments
    (secreted as shells of invertebrates and algae)
  • Warm water (tropical 30oN to 30oS latitude)
  • Shallow shelf within the photic zone (mostly
    lt10-20 m)
  • Also accumulate in deep water (pelagic oozes)
  • Inorganic precipitates from sea water also occur
  • Can form in continental settings (lacustrine,
    desert, soil, springs)

29
Carbonate Rock Constituents
  • Carbonate rocks mainly composed of
  • Micrite
  • Lime mud (lt0.004 mm)
  • Largely fragmental algae remains, also chemical
    precipitate
  • Sparite
  • Crystalline carbonate material (gt0.004 mm)
  • Forms by precipitation (often as cement) or
    recrystallization
  • Allochems
  • Transported chemical or biochemical precipitates
    (fragmental material)
  • Include intraclasts, ooliths, peloids, and
    bioclasts
  • Biolithic elements
  • Formed by organisms in situ
  • Bound together by precipitated material

30
Carbonate Rock Constituents
  • Micrite
  • Microcrystalline calcite particles of clay (lt1-4
    micron) size (subtranslucent matrix) formed by
  • Chemical or biochemical ppt
  • Abrasion of allochems
  • Implies deposition in a low energy environment
    just like in terrigenous mudstone

31
Carbonate Rock Constituents
  • Sparite (cement)
  • Clear granular (sugary) carbonate crystalline
    orthochemical material
  • Formed in interstitial pore spaces of carbonate
    sediment
  • Cement in pores indicates original void space
  • Also commonly forms during diagenesis
  • Recrystallized allochems or micrite

32
Carbonate Rock Constituents
  • Allochems Intraclasts
  • Reworked, early lithified carbonate fragments
  • irregularly-shaped grains that form by
    syndepositional erosion of partially lithified
    sediment

33
Carbonate Rock Constituents
  • Allochems Ooliths
  • Concentrically laminated carbonate structures
  • Oolites - lt2 mm in diameter
  • Thought to be abiogenic in origin
  • Layers precipitated onto a grain during wave
    agitation
  • Pisolites - same as oolites, but gt2 mm
  • Oncolites - spheroidal stromatolites (gt 1-2 cm)

34
Carbonate Rock Constituents
  • Allochems Pelloids
  • silt to fine grained, sand-sized carbonate
    particles with no distinctive internal structure
  • most thought to be fecal pellets

35
Carbonate Rock Constituents
  • Allochems Skeletal particles (bioclasts)
  • whole microfossils, whole megafossils, broken
    shell fragments
  • Marine invertebrates algae, forams, corals,
    bryozoans, brachiopods, gastropods, mollusks,
    ostracods, etc.
  • Standard microfacies (fossil fragment type -gt
    environment)

36
Carbonate Rock Classification
  • Based on depositional texture (mainly proportion
    of allochems)
  • Two main classification schemes
  • Folk
  • and type of allochem
  • Micrite vs sparite matrix
  • Dunham
  • Abundance of allochems (ratio grainsmud)
  • Original components bound together
  • Both overlook some types of carbonates

37
Carbonate Rock Classification Dunham
  • Dunham Classification
  • Texture and allochem type incorporated into
    classification
  • Sediment deposited in calm vs agitated waters
  • Mud-bearing vs mud-free sediment
  • Grain vs mud support
  • Original components bound (biologically)
  • Depositional texture recognizable

38
Carbonate Rock Classification Dunham
  • Presence or absence of lime mud is there any mud
    at all. Calm waters allow for the accumulation of
    lime mud and indicates the absence of current
    induced agitation
  • Grain Support self supporting framework
  • fluid circulation, diagenesis
  • Grain kind standard microfacies types
  • Grain size, rounding, and coating hydrologic
    interpretations
  • Biogenically ppt masses bound at time of
    deposition
  • Boundstone
  • organic framework
  • laminations not consistent with gravity
    (stromatolite)
  • roof over sediment filled cavities

39
Carbonate Depositional Systems
  • In the warm, clear, shallow water organisms
    create sediment
  • Calcareous algae flourish and generate micrite
  • Invertebrate animal skeletons accumulate as
    sedimentary particles (bioclasts)
  • Also, particles created indirectly by biological
    or chemical activity
  • Oolitic, pelletal, and intraclastic allochems are
    also produced locally, depending on conditions

40
Carbonate Depositional Environments
  • Generic rimmed carbonate shelf platform basin
    margin

41
Collaborative Activity
  • You have two sandstones (Table, handout)
  • A. Plot the normalized proportions of Q, F, and L
    on the ternary diagram.
  • B. For each sandstone
  • Classify it (give it a compositional name and
    indicate arenite vs wacke)
  • Determine the most likely tectonic setting from
    which it originated, and give your evidence
  • Determine the depositional environment (general -
    long system, short system be more specific if
    you can) in which it most likely formed, and give
    your evidence
  • You have three carbonates (handout)
  • Based on the description, for each carbonate
  • Give it a compositional classification under both
    the Folk and Dunham schemes (and indicate
    allochemical vs orthochemical)
  • Describe the depositional environment as best you
    can and give your evidence
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