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Service Description: Large 3D mapped, east of the river, Lower Plaquemines. Results from LTRC project 18-3GT and Tran-SET Project No. 17GTLSU12 covering southeast Louisiana within the study area bounds. Details of fault plane projection to surface and 3D views of fault planes mapped using 3D seismic and are included in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. Outline layer Outline of study area in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. DTS layer Details of Down-to-the-South fault plane projection to surface and 3D views of fault planes mapped using 3D seismic and are included in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. DTN layer Details of Figure 3 depicting Down-to-the-North fault plane projection to surface and 3D views of fault planes mapped using 3D seismic and are included in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. Colors represent down to basin or down to land fault dip direction.

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Service Item Id: 906152ec016148ecbfc9acd4c23a791d

Copyright Text: Armstrong, C., Mohrig, D., Hess, T., George, T., and K. Straub (2014). Influence of growth faults on coastal fluvial systems: Examples from the late Miocene to recent Mississippi River delta. Sedimentary Geology, Vol. 301, pp. 120-132.

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Document Info:

Title: South_Plaquemines_East_Armstrong_et_al_2014
Author: The data available, including all Geographic Information Systems data, maps, tables, numbers, graphics, and text (hereinafter collectively referred to as the "Information"), is provided on an "As Is", "As Available" and "With All Faults" basis. Neither the authors of this research study The Culpepper Group, LLC nor any of its officials, employees, consultants or contractors (hereinafter collectively referred to as "The Culpepper Group") make any warranty of any kind for this information, express or implied, including but not limited to any warranties of merchantability or fitness for a particular purpose, nor shall the distribution of this information constitute any warranty. The spatial data research results/interpretations reflect the view of the research author(s) who is (are) responsible for the facts and the accuracy of the data presented herein. The spatial data research results/interpretations do not necessarily reflect the official views or policies of the Louisiana Transportation Research Center, the Louisiana Department of Transportation and Development, or the Federal Highway Administration (FHWA funded only). These spatial data research results do not constitute a standard, specification, or regulation. These spatial data research results do not represent a legal survey.
Comments: Large 3D mapped, east of the river, Lower Plaquemines. Results from LTRC project 18-3GT and Tran-SET Project No. 17GTLSU12 covering southeast Louisiana within the study area bounds. Details of fault plane projection to surface and 3D views of fault planes mapped using 3D seismic and are included in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. Outline layer Outline of study area in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. DTS layer Details of Down-to-the-South fault plane projection to surface and 3D views of fault planes mapped using 3D seismic and are included in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. DTN layer Details of Figure 3 depicting Down-to-the-North fault plane projection to surface and 3D views of fault planes mapped using 3D seismic and are included in a discussion of river channel position governed by faulting as seen in buried Modern, Pliocene, and Miocene sediment distribution systems. Colors represent down to basin or down to land fault dip direction.
Subject: Large 3D mapped, east of the river, Lower Plaquemines. Results from LTRC project 18-3GT and Tran-SET Project No. 17GTLSU12.
Category:
Keywords: LTRC,Active Faults,South Louisiana,Neotectonics,Seismic
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