Are polygonal faults the keystone for better understanding the timing of fluid migration in sedimentary basins?

The initial sediment lithification starts with complex interactions involving minerals, surface water, decomposing organic matter and living organisms. This is the eogenesis domain (0 to 2 km below the seafloor) in which the sediments are subject to physical, chemical and mechanical transformations...

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Bibliographic Details
Published in:EPJ Web of Conferences 2017-01, Vol.140, p.12009
Main Author: Gay, Aurélien
Format: Article
Language:English
Subjects:
Clay minerals
Earth Sciences
Fluids
Fractured reservoirs
Geothermal energy
Hydrocarbons
Migration
Organic chemistry
Sciences of the Universe
Sediments
Stratigraphy
Surface water
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Summary:The initial sediment lithification starts with complex interactions involving minerals, surface water, decomposing organic matter and living organisms. This is the eogenesis domain (0 to 2 km below the seafloor) in which the sediments are subject to physical, chemical and mechanical transformations defining the early fabric of rocks. This interval is intensively prospected for its energy/mining resources (hydrocarbons, metal deposits, geothermal energy). In most basins worldwide it is composed of very fine-grained sediments and it is supposed to play the role of a seal for fluids migration. However, it is affected by polygonal faulting due to a volume loss during burial by contraction of clay sediments with a high smectite content. This process is of high interest for fractured reservoirs and/or cover integrity but it is not well constrained giving an uncertainty as this interval can either promote the migration of deeper fluids and the mineralized fluids intensifies diagenesis in the fracture planes, rendering this interval all the more impermeable. The next challenge will be to define where, when and how does this polygonal fault interval occur and this can only be done by understanding the behavior of clay grains and fluids during early burial.
ISSN:2100-014X
2101-6275
2100-014X
DOI:10.1051/epjconf/201714012009