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Fluvial style is primarily controlled by specific stream power (W m-2) and bed ... flow stage, and undergo submergence and rapid modification during high discharge ... – PowerPoint PPT presentation

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Title: Contents


1
Contents
  • Introduction
  • Sedimentology concepts
  • Fluvial environments
  • Deltaic environments
  • Coastal environments
  • Offshore marine environments
  • Sea-level change
  • Sequence stratigraphy concepts
  • Marine sequence stratigraphy
  • Nonmarine sequence stratigraphy
  • Basin and reservoir modeling
  • Reflection

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Fluvial environments
  • Channel patterns (fluvial styles) of alluvial
    rivers are commonly classified as
  • Braided rivers
  • Meandering rivers
  • Straight rivers
  • Anastomosing rivers
  • Fluvial style is primarily controlled by specific
    stream power (W m-2) and bed-load grain size, but
    also by bank stability and the amount of bed load
    (but not the proportion of suspended load!)
  • ?fluid density Qdischarge sslope (gradient)
    wchannel width

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Animation
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Fluvial environments
  • Channel patterns (fluvial styles) of alluvial
    rivers are commonly classified as
  • Braided rivers
  • Meandering rivers
  • Straight rivers
  • Anastomosing rivers
  • Fluvial style is primarily controlled by specific
    stream power (W m-2) and bed-load grain size, but
    also by bank stability and the amount of bed load
    (but not the proportion of suspended load!)
  • ?fluid density Qdischarge sslope (gradient)
    wchannel width

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Fluvial environments
  • Bars are sandy or gravelly macroforms in channels
    that are emergent, mostly unvegetated features at
    low flow stage, and undergo submergence and rapid
    modification during high discharge
  • Point bars form on inner banks and typically
    accrete laterally, commonly resulting in
    lateral-accretion surfaces mid-channel or braid
    bars accrete both laterally and downstream
  • Bars are always associated with channels a
    genetically related bar/bar complex and
    channel/channel complex is known as a storey

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Fluvial environments
  • Bars are sandy or gravelly macroforms in channels
    that are emergent, mostly unvegetated features at
    low flow stage, and undergo submergence and rapid
    modification during high discharge
  • Point bars form on inner banks and typically
    accrete laterally, commonly resulting in
    lateral-accretion surfaces mid-channel or braid
    bars accrete both laterally and downstream
  • Bars are always associated with channels a
    genetically related bar/bar complex and
    channel/channel complex is known as a storey

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Fluvial environments
  • Lateral accretion involves higher-order bounding
    surfaces dipping perpendicular to paleoflow
    direction and associated lower-order bounding
    surfaces in the case of downstream accretion
    higher-order bounding surfaces dip parallel to
    paleoflow direction
  • Braided rivers are characterized by a dominance
    of braid bars exhibiting both lateral and
    downstream accretion meandering rivers primarily
    contain point bars with lateral accretion in
    straight (and most anastomosing) rivers bars are
    commonly almost absent

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Fluvial environments
  • Lateral accretion involves higher-order bounding
    surfaces dipping perpendicular to paleoflow
    direction and associated lower-order bounding
    surfaces in the case of downstream accretion
    higher-order bounding surfaces dip parallel to
    paleoflow direction
  • Braided rivers are characterized by a dominance
    of braid bars exhibiting both lateral and
    downstream accretion meandering rivers primarily
    contain point bars with lateral accretion in
    straight (and most anastomosing) rivers bars are
    commonly almost absent

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Fluvial environments
  • Facies successions in sandy to gravelly channel
    deposits typically fine upward, from a coarse
    channel lag, through large-scale to small-scale
    cross stratified sets (commonly with decreasing
    set height), and finally overlain by muddy
    overbank deposits
  • Facies successions produced by different fluvial
    styles can be extremely similar!
  • The geometry and three-dimensional arrangement of
    architectural elements therefore provides a much
    better means of inferring fluvial styles from the
    sedimentary record

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Fluvial environments
  • Facies successions in sandy to gravelly channel
    deposits typically fine upward, from a coarse
    channel lag, through large-scale to small-scale
    cross stratified sets (commonly with decreasing
    set height), and finally overlain by muddy
    overbank deposits
  • Facies successions produced by different fluvial
    styles can be extremely similar!
  • The geometry and three-dimensional arrangement of
    architectural elements therefore provides a much
    better means of inferring fluvial styles from the
    sedimentary record

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Fluvial environments
  • Channel belts consist of channel-bar and
    channel-fill deposits the proportion of the two
    generally decreases markedly from braided rivers
    to anastomosing rivers
  • The geometry of a channel belt (width/thickness
    ratio) is a function of the channel width and the
    degree of lateral migration values are typically
    much higher for braided systems (gtgt100) than for
    straight or anastomosing systems (lt25)
  • Sheets have width/thickness ratios of gt50
  • Ribbons have width/thickness ratios of lt15
  • Residual-channel deposits are predominantly muddy
    (occasionally organic) deposits that accumulate
    in an abandoned channel where flow velocities are
    extremely small

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Fluvial environments
  • Channel belts consist of channel-bar and
    channel-fill deposits the proportion of the two
    generally decreases markedly from braided rivers
    to anastomosing rivers
  • The geometry of a channel belt (width/thickness
    ratio) is a function of the channel width and the
    degree of lateral migration values are typically
    much higher for braided systems (gtgt100) than for
    straight or anastomosing systems (lt25)
  • Sheets have width/thickness ratios of gt50
  • Ribbons have width/thickness ratios of lt15
  • Residual-channel deposits are predominantly muddy
    (occasionally organic) deposits that accumulate
    in an abandoned channel where flow velocities are
    extremely small

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Fluvial environments
  • Overbank environments are dominated by
    fine-grained facies (predominantly muds)
  • Natural-levee deposits are wedges (wings) of
    sediment that form adjacent to the channel,
    dominated by fine sand and silt exhibiting planar
    stratification or (climbing) ripple cross
    stratification
  • Crevasse-splay deposits are usually cones of
    sandy to silty facies with both coarsening-upward
    and fining-upward successions, and are formed by
    small, secondary channels during peak flow
  • Flood-basin deposits are the most distal facies,
    consisting entirely of muddy sediments deposited
    from suspension, and are volumetrically very
    important (mainly in low-energy fluvial settings)

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Fluvial environments
  • Paleosols (well drained conditions) and
    occasional peats (poorly drained conditions)
    occur frequently in overbank environments and are
    important indicators of variations of clastic
    aggradation rates and the position relative to
    active channels (proximal vs. distal)
  • The pedofacies concept refers to the maturity of
    a paleosol, irrespective of the specific set of
    pedogenic processes operating, in the case of
    floodplains mainly controlled by distance to the
    active channel
  • Lacustrine deposits can be important in overbank
    environments characterized by high water tables,
    and are also found in distal settings they are
    more likely to contain primary sedimentary
    structures (horizontal lamination) than their
    frequently bioturbated subaerial counterparts

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Fluvial environments
  • Paleosols (well drained conditions) and
    occasional peats (poorly drained conditions)
    occur frequently in overbank environments and are
    important indicators of variations of clastic
    aggradation rates and the position relative to
    active channels (proximal vs. distal)
  • The pedofacies concept refers to the maturity of
    a paleosol, irrespective of the specific set of
    pedogenic processes operating, in the case of
    floodplains mainly controlled by distance to the
    active channel
  • Lacustrine deposits can be important in overbank
    environments characterized by high water tables,
    and are also found in distal settings they are
    more likely to contain primary sedimentary
    structures (horizontal lamination) than their
    frequently bioturbated subaerial counterparts

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Fluvial environments
  • Facies models highlight conspicuous differences
    between different fluvial styles
  • Channel-belt width/thickness ratio (braided
    high meandering intermediate
    straight/anastomosing low)
  • Channel-deposit proportion (braided high
    meandering intermediate straight/anastomosing
    low)
  • Overbank-deposit proportion (braided low
    meandering intermediate straight/anastomosing
    high)
  • Overbank-deposit geometry (meandering
    wedge-shaped straight/anastomosing highly
    irregular due to numerous crevasse channels)
  • Overbank facies (meandering well-drained
    paleosols common straight/anastomosing peats
    and lacustrine deposits common)

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Fluvial environments
  • Avulsion is the sudden diversion of a channel to
    a new location on the floodplain, leading to the
    abandonment of a channel belt and the initiation
    of a new one
  • Avulsions are the inevitable consequence of the
    increase of cross-valley slope (typically through
    a crevasse channel) relative to down-valley slope
    along the channel, associated with the growth of
    an alluvial ridge
  • An avulsion belt constitutes an extensive network
    of rapidly aggrading, narrow, crevasse-like
    channels with genetically associated overbank
    deposits, that may surround the new channel belt

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Fluvial environments
  • Alluvial architecture refers to the
    three-dimensional arrangement of channel-belt
    deposits and overbank deposits in a fluvial
    succession
  • The nature of alluvial architecture (e.g., the
    proportion of channel-belt to overbank deposits)
    is dependent on fluvial style, aggradation rate,
    and the frequency of avulsion
  • When alluvial architecture is dominated by
    channel-belt deposits, the separation of channel
    belts from storeys can be extremely difficult

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Fluvial environments
  • Alluvial architecture refers to the
    three-dimensional arrangement of channel-belt
    deposits and overbank deposits in a fluvial
    succession
  • The nature of alluvial architecture (e.g., the
    proportion of channel-belt to overbank deposits)
    is dependent on fluvial style, aggradation rate,
    and the frequency of avulsion
  • When alluvial architecture is dominated by
    channel-belt deposits, the separation of channel
    belts from storeys can be extremely difficult

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Fluvial environments
  • Alluvial architecture refers to the
    three-dimensional arrangement of channel-belt
    deposits and overbank deposits in a fluvial
    succession
  • The nature of alluvial architecture (e.g., the
    proportion of channel-belt to overbank deposits)
    is dependent on fluvial style, aggradation rate,
    and the frequency of avulsion
  • When alluvial architecture is dominated by
    channel-belt deposits, the separation of channel
    belts from storeys can be extremely difficult
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