DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES

The origin and evolution of fault-controlled, high temperature dolomitization (HTD) have been widely studied and documented throughout the geological records. Their formation is relatively well understood; however, little is known about what controls their transition and termination into the host li...

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Bibliographic Details
Main Author: Koeshidayatullah, Ardiansyah
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: 2019
Subjects:
Maestrat Basin
Dolomite
Dolomitization
Reaction Fronts
Fault-controlled
Hydrothermal
Western Canada
Western Morocco
Derbyshire Platform
canada basin
Online Access:https://research.manchester.ac.uk/en/studentTheses/7d8e924e-3e9c-4c6d-8cd0-f48fcba394fb
https://pure.manchester.ac.uk/ws/files/188959043/FULL_TEXT.PDF
id ftumanchesterpub:oai:pure.atira.dk:studenttheses/7d8e924e-3e9c-4c6d-8cd0-f48fcba394fb
record_format openpolar
spelling ftumanchesterpub:oai:pure.atira.dk:studenttheses/7d8e924e-3e9c-4c6d-8cd0-f48fcba394fb 2023-11-12T04:15:34+01:00 DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES Koeshidayatullah, Ardiansyah 2019-12-31 application/pdf https://research.manchester.ac.uk/en/studentTheses/7d8e924e-3e9c-4c6d-8cd0-f48fcba394fb https://pure.manchester.ac.uk/ws/files/188959043/FULL_TEXT.PDF eng eng Maestrat Basin Dolomite Dolomitization Reaction Fronts Fault-controlled Hydrothermal Western Canada Western Morocco Derbyshire Platform doctoralThesis 2019 ftumanchesterpub 2023-10-30T09:15:53Z The origin and evolution of fault-controlled, high temperature dolomitization (HTD) have been widely studied and documented throughout the geological records. Their formation is relatively well understood; however, little is known about what controls their transition and termination into the host limestone (i.e. genesis of dolomitization fronts). This is compounded by the lack of agreement on how the HTD can form extensive dolostone bodies and what is the actual source of magnesium. This study attempts to resolve some of these issues and the main findings of this research are summarized in four different chapters in this thesis. Chapter three highlights the occurrence of shallow burial, high-temperature fault-controlled dolomitization in the Middle Cambrian Western Canada Basin (WCSB) as the mechanism responsible for creating large-scale HTD dolostone bodies in the Mount Whyte Formation. Chapter four proposes a dynamic self-limiting dolomitization in the form of sudden depletion of Mg/Ca ratio at the head of dolomitizing fluids and decreased in permeability close to fluid source as the main governing processes in controlling the extent of dolomitization. Chapter five hypothesizes that the Jurassic dolomitization fronts were developed before fracturing due to changes in fluid chemistry and the fracture preferentially developed along the dolomitization fronts because it provides a zone of mechanical contrast between dolostone and limestone. Chapter six documents the different styles of dolomitization fronts from the four study locations and proposes, for the first time, a genetic classification of dolomitization fronts that should be applicable to different scales and across geological records. The new insights provided in this study may help to unravel different long-standing problems in dolomite research, including: (i) how to determine multiphase HTD dolomitization; (ii) how the porosity is formed and where to find it within the dolostone bodies Ultimately, this research contributes to our overall understanding ... Doctoral or Postdoctoral Thesis canada basin The University of Manchester: Research Explorer
institution Open Polar
collection The University of Manchester: Research Explorer
op_collection_id ftumanchesterpub
language English
topic Maestrat Basin
Dolomite
Dolomitization
Reaction Fronts
Fault-controlled
Hydrothermal
Western Canada
Western Morocco
Derbyshire Platform
spellingShingle Maestrat Basin
Dolomite
Dolomitization
Reaction Fronts
Fault-controlled
Hydrothermal
Western Canada
Western Morocco
Derbyshire Platform
Koeshidayatullah, Ardiansyah
DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES
topic_facet Maestrat Basin
Dolomite
Dolomitization
Reaction Fronts
Fault-controlled
Hydrothermal
Western Canada
Western Morocco
Derbyshire Platform
description The origin and evolution of fault-controlled, high temperature dolomitization (HTD) have been widely studied and documented throughout the geological records. Their formation is relatively well understood; however, little is known about what controls their transition and termination into the host limestone (i.e. genesis of dolomitization fronts). This is compounded by the lack of agreement on how the HTD can form extensive dolostone bodies and what is the actual source of magnesium. This study attempts to resolve some of these issues and the main findings of this research are summarized in four different chapters in this thesis. Chapter three highlights the occurrence of shallow burial, high-temperature fault-controlled dolomitization in the Middle Cambrian Western Canada Basin (WCSB) as the mechanism responsible for creating large-scale HTD dolostone bodies in the Mount Whyte Formation. Chapter four proposes a dynamic self-limiting dolomitization in the form of sudden depletion of Mg/Ca ratio at the head of dolomitizing fluids and decreased in permeability close to fluid source as the main governing processes in controlling the extent of dolomitization. Chapter five hypothesizes that the Jurassic dolomitization fronts were developed before fracturing due to changes in fluid chemistry and the fracture preferentially developed along the dolomitization fronts because it provides a zone of mechanical contrast between dolostone and limestone. Chapter six documents the different styles of dolomitization fronts from the four study locations and proposes, for the first time, a genetic classification of dolomitization fronts that should be applicable to different scales and across geological records. The new insights provided in this study may help to unravel different long-standing problems in dolomite research, including: (i) how to determine multiphase HTD dolomitization; (ii) how the porosity is formed and where to find it within the dolostone bodies Ultimately, this research contributes to our overall understanding ...
format Doctoral or Postdoctoral Thesis
author Koeshidayatullah, Ardiansyah
author_facet Koeshidayatullah, Ardiansyah
author_sort Koeshidayatullah, Ardiansyah
title DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES
title_short DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES
title_full DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES
title_fullStr DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES
title_full_unstemmed DETERMINATION OF THE PROCESSES GOVERNING THE TERMINATION OF FAULT-CONTROLLED DOLOSTONE BODIES
title_sort determination of the processes governing the termination of fault-controlled dolostone bodies
publishDate 2019
url https://research.manchester.ac.uk/en/studentTheses/7d8e924e-3e9c-4c6d-8cd0-f48fcba394fb
https://pure.manchester.ac.uk/ws/files/188959043/FULL_TEXT.PDF
genre canada basin
genre_facet canada basin
_version_ 1782332827644198912

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