Salt tectonics and sequence stratigraphy of central offshore Louisiana, Gulf of Mexico /

Integrated seismic and well data interpretation and mapping

Bibliographic Details
Main Author: Zhang, Jie, 1961-
Format: Thesis Book
Language:English
Published: [Place of publication not identified] : [publisher not identified] ; 1994.
Subjects:
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Description
Summary:Integrated seismic and well data interpretation and mapping
in the central offshore Louisiana show that salt tectonics,
growth faulting and sedimentation are inter-related
processes. Six types of salt structures have been identified
in the area: salt pillows, rollers, ridges, pods, sheets, and
stocks. Salt withdrawal results in five types of sedimentary
basins. Developments of intrasalt basins include a slope,
shelf-edge, and shelf stage. Salt sheets are primary
allochthonous salt bodies formed by combined vertical and
horizontal movement of autochthonous salt, i.e., the Louann
salt pierced upper Jurassic and lower Miocene strata and then
intruded laterally into middle and upper Miocene sediments.
Differential sediment loading is the major driving forces for
salt movement in the area. Normal faults are either down-to-
the-basin growth faults, or counter-regional growth faults.
Fault shape varies along strike in plan-view. Fault groups
usually become progressively younger basinward and coincide
with paleoshelf breaks while active. Listric faults sole
onto salt structures or merge with regional detachment
surfaces that are believed to be related to once extensive
but now largely evacuated allochthonous salt sheets.
Progradational loading initiates allochthonous salt sheet
withdrawal and progressive seaward development of growth
faults. Isochron maximas correspond to the depocenters that
are closely related to sedimentary fairways and paleoshelf
breaks. The isochron patterns show that depocenters and
sediment fairways shifted during Plio-Pleistocene. The
integration of major growth fault trends, isochron maxima,
increased regional dip, and the outer neritic to upper
bathyal paleoecologic zones shows the paleoshelf edge
prograded seaward during PlioPleistocene. The present outer
shelf and upper slope, central offshore Louisiana was a slope
environment characterized by six major intrasalt basins
during the deposition of PlioPleistocene sediments. I have
identified nine 4th order sequences in the section by
integration of seismic, well log, and nannofossil data. The
seismic and well log characteristics vary from sequence to
sequence. between systems tracts, as well as from structural
highs to salt withdrawal basins. Lowstand sediments onlap
flanks of salt structures and consist of sand-prone portion
of sequences. Transgressive systems tracts, highstand
systems tracts, and partial progradational wedges may locally
drape the top of salt structures. A new sequence
stratigraphic model that includes salt tectonics, growth
faulting and refined systems tract ten-ninology developed for
the study area may play an important rule in future petroleum
exploration and development in this region.
Item Description:Vita.
"Major Subject: Oceanography".
Physical Description:xiv, 160 leaves : illustrations, maps ; 28 cm.
Issued also on microfiche from University Microfilms Inc.
Bibliography:Includes bibliographical references.