Alison T. Henning scite author profile

Alison T. Henning

5Publications

61Citation Statements Received

80Citation Statements Given

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Rice University

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Exhumed upper mantle within the ocean‐continent transition on the northern West Iberia margin: Evidence from prestack depth migration and total tectonic subsidence analyses

2004

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[1] The West Iberia continental margin contains an enigmatic north-south ridge of serpentinized peridotite located within the ocean-continent transition. We used prestack depth migration and total tectonic subsidence analysis to constrain the basement type adjacent to the ridge in order to learn more about its emplacement. Prestack depth migration was performed on segments of the nine east-west lines from the Iberia Seismic Experiment (ISE 97), and total tectonic subsidence analyses were performed on the depth sections. The seismic data and subsidence analyses are consistent with exhumed upper mantle occurring immediately landward of the ridge, suggesting that the ridge is located within a broad zone of exhumed mantle that has been serpentinized. The subsidence analyses also provide minimum bounds on the thickness of the serpentinized layer, which extends from the zone of exhumed mantle landward under thinned continental crust. Exhumed upper mantle has previously been identified in the wider ocean-continent transition to the south in the southern Iberia Abyssal Plain, and we conclude that similar but narrower exposures occur to the north in the Galicia Bank area. While upper mantle appears to have been tectonically exhumed along all the ISE 97 lines, it does not always form a distinct basement ridge. There is no well-defined ridge on three seismic profiles in the middle of the ISE 97 survey. Where it is well-developed, the peridotite ridge parallels a deeply-penetrating, west-dipping normal fault, and the three middle lines appear to represent a transfer zone where this normal fault is not well-developed.

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A Data Rich Exercise for Discovering Plate Boundary Processes

Sawyer

Henning

Shipp

et al. 2005

Journal of Geoscience Education

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Data conditioning and seismic attribute analysis in the Eagle Ford Shale Play: Examples from Sinor Ranch, Live Oak County, Texas

Henning¹,

Martin²,

Paton³

et al. 2010

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Understanding Thin Beds Using 3D Seismic Analysis Workflows

Henning¹,

Paton²

2011

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Seismic analysis workflows can help improve vertical resolution and identify thin beds on seismic reflection data. Thin beds are events that fall below the level of seismic resolution and occur in all geologic settings. Thin bed analysis can help define pinch outs, internal bedding geometries, and other subtle stratigraphic features that are not initially visible on seismic data. We present workflows that include noise cancellation and spectral enhancement, as well as terrace, doublet, bed form, and instantaneous frequency attributes to enhance the vertical resolution of 3D seismic data. Geobodies are then extracted from these attributes to produce a three-dimensional view of data zones having shared characteristics. Examples from several 3D data sets from different geologic settings illustrate the wide applicability of these workflows.

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Investigation of near-vertical fluid escape feature above the Frampton anticline in the south-central Gulf of Mexico utilizing improved seismic imaging and 3D geobody extraction

Henning¹,

Rollins²,

Martin³

2013

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Alison T. Henning

Exhumed upper mantle within the ocean‐continent transition on the northern West Iberia margin: Evidence from prestack depth migration and total tectonic subsidence analyses

A Data Rich Exercise for Discovering Plate Boundary Processes

Data conditioning and seismic attribute analysis in the Eagle Ford Shale Play: Examples from Sinor Ranch, Live Oak County, Texas

Understanding Thin Beds Using 3D Seismic Analysis Workflows

Investigation of near-vertical fluid escape feature above the Frampton anticline in the south-central Gulf of Mexico utilizing improved seismic imaging and 3D geobody extraction

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