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Diagenetic Modifications and Reservoir Heterogeneity Associated with Magmatic Intrusions in the Devonian Khyber Limestone, Peshawar Basin, NW Pakistan
In the present study, an attempt has been made to establish the relationship between diagenetic alterations resulting from magmatic intrusions and their impact on the reservoir properties of the Devonian Khyber Limestone (NW Pakistan). Field observations, petrographic studies, mineralogical analyses...
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| Published in: | Geofluids 2021, Vol.2021, p.1-18 |
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| creator | Shah, Mumtaz M. Afridi, Saifullah Khan, Emad U. Rahim, Hamad Ur Mustafa, Muhammad R. |
| description | In the present study, an attempt has been made to establish the relationship between diagenetic alterations resulting from magmatic intrusions and their impact on the reservoir properties of the Devonian Khyber Limestone (NW Pakistan). Field observations, petrographic studies, mineralogical analyses, porosity-permeability data, and computed tomography were used to better understand the diagenetic history and petrophysical property evolution. Numerous dolerite intrusions are present in the studied carbonate successions, where the host limestone was altered to dolomite and marble, and fractures and faults developed due to the upwelling of the magmatic/hydrothermal fluids along pathways. Petrographic studies show an early phase of coarse crystalline saddle dolomite (Dol. I), which resulted from Mg-rich hydrothermal fluids originated from the dolerite dykes. Coarse crystalline marble formed due to contact metamorphism at the time of dolerite emplacement. The second phase of dolomitisation (Dol. II) postdates the igneous intrusions and was followed by dedolomitisation, dissolution, and cementation by meteoric calcite. Stable isotope studies likewise confirm two distinct dolomite phases. Dol. I exhibits more depleted δ18O (-15.8 to -9.1‰ V-PDB) and nondepleted δ13C (-2.05 to +1.85‰ V-PDB), whereas Dol. II shows a relatively narrow range of depleted δ18O (-13.9 to -13.8‰) signatures and nondepleted δ13C (+1.58 to +1.89‰ V-PDB). Dolomitic marble shows a marked depletion in δ18O and δ13C (-13.7 to -8.5‰ and -2.3 to 1.95‰, respectively). The initial phase of dolomitisation (Dol. I) did not alter porosity (5.4-6.6%) and permeability (0.0-0.1 mD) with respect to the unaltered limestone (5.6-6.9%; 0.1-0.2 mD). Contact metamorphism resulted in a decrease in porosity and permeability (3.3-4.7%; 0.1 mD). In contrast, an increase in porosity and permeability in Dol. II (7.7-10.5%; 0.8-2.5 mD) and dolomitic marble (6.6-14.7%; 8.2-13.3 mD) is linked to intercrystalline porosity and retainment of fracture porosity in dolomitic marble. Late-stage dissolution and dedolomitization also positively affected the reservoir properties of the studied successions. In conclusion, the aforementioned results reveal the impact of various diagenetic processes resulting from magmatic emplacement and their consequent reservoir heterogeneity. |
| doi_str_mv | 10.1155/2021/8816465 |
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Field observations, petrographic studies, mineralogical analyses, porosity-permeability data, and computed tomography were used to better understand the diagenetic history and petrophysical property evolution. Numerous dolerite intrusions are present in the studied carbonate successions, where the host limestone was altered to dolomite and marble, and fractures and faults developed due to the upwelling of the magmatic/hydrothermal fluids along pathways. Petrographic studies show an early phase of coarse crystalline saddle dolomite (Dol. I), which resulted from Mg-rich hydrothermal fluids originated from the dolerite dykes. Coarse crystalline marble formed due to contact metamorphism at the time of dolerite emplacement. The second phase of dolomitisation (Dol. II) postdates the igneous intrusions and was followed by dedolomitisation, dissolution, and cementation by meteoric calcite. Stable isotope studies likewise confirm two distinct dolomite phases. Dol. I exhibits more depleted δ18O (-15.8 to -9.1‰ V-PDB) and nondepleted δ13C (-2.05 to +1.85‰ V-PDB), whereas Dol. II shows a relatively narrow range of depleted δ18O (-13.9 to -13.8‰) signatures and nondepleted δ13C (+1.58 to +1.89‰ V-PDB). Dolomitic marble shows a marked depletion in δ18O and δ13C (-13.7 to -8.5‰ and -2.3 to 1.95‰, respectively). The initial phase of dolomitisation (Dol. I) did not alter porosity (5.4-6.6%) and permeability (0.0-0.1 mD) with respect to the unaltered limestone (5.6-6.9%; 0.1-0.2 mD). Contact metamorphism resulted in a decrease in porosity and permeability (3.3-4.7%; 0.1 mD). In contrast, an increase in porosity and permeability in Dol. II (7.7-10.5%; 0.8-2.5 mD) and dolomitic marble (6.6-14.7%; 8.2-13.3 mD) is linked to intercrystalline porosity and retainment of fracture porosity in dolomitic marble. Late-stage dissolution and dedolomitization also positively affected the reservoir properties of the studied successions. In conclusion, the aforementioned results reveal the impact of various diagenetic processes resulting from magmatic emplacement and their consequent reservoir heterogeneity.</description><identifier>ISSN: 1468-8115</identifier><identifier>EISSN: 1468-8123</identifier><identifier>DOI: 10.1155/2021/8816465</identifier><language>eng</language><publisher>Chichester: Hindawi</publisher><subject>Analysis ; Calcite ; Calcite crystals ; Carbonates ; Cementation ; Computed tomography ; Crystal structure ; Crystallinity ; Depletion ; Devonian ; Diagenesis ; Dissolution ; Dissolving ; Dolomite ; Dolostone ; Fault lines ; Fluids ; Fractures ; Fruits ; Heterogeneity ; Hydrocarbons ; Hydrothermal fluids ; Igneous intrusions ; Investigations ; Isotope studies ; Isotopes ; Limestone ; Marble ; Metamorphism ; Metamorphism (Geology) ; Mineralogy ; Ocean circulation ; Permeability ; Porosity ; Properties ; Quartz ; Reservoirs ; Rocks, Metamorphic ; Stable isotopes ; Tomography ; Upwelling</subject><ispartof>Geofluids, 2021, Vol.2021, p.1-18</ispartof><rights>Copyright © 2021 Mumtaz M. Shah et al.</rights><rights>COPYRIGHT 2021 John Wiley & Sons, Inc.</rights><rights>Copyright © 2021 Mumtaz M. Shah et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. https://creativecommons.org/licenses/by/4.0</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c481t-2f99820cc92207dc38a8a3bb29ad8b06c95efdf223c2e220cc7eaecea25b326e3</citedby><cites>FETCH-LOGICAL-c481t-2f99820cc92207dc38a8a3bb29ad8b06c95efdf223c2e220cc7eaecea25b326e3</cites><orcidid>0000-0001-6045-650X ; 0000-0002-1763-4152 ; 0000-0002-6742-6650</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,4024,27923,27924,27925</link.rule.ids></links><search><contributor>Gomez-Rivas, Enrique</contributor><contributor>Enrique Gomez-Rivas</contributor><creatorcontrib>Shah, Mumtaz M.</creatorcontrib><creatorcontrib>Afridi, Saifullah</creatorcontrib><creatorcontrib>Khan, Emad U.</creatorcontrib><creatorcontrib>Rahim, Hamad Ur</creatorcontrib><creatorcontrib>Mustafa, Muhammad R.</creatorcontrib><title>Diagenetic Modifications and Reservoir Heterogeneity Associated with Magmatic Intrusions in the Devonian Khyber Limestone, Peshawar Basin, NW Pakistan</title><title>Geofluids</title><description>In the present study, an attempt has been made to establish the relationship between diagenetic alterations resulting from magmatic intrusions and their impact on the reservoir properties of the Devonian Khyber Limestone (NW Pakistan). Field observations, petrographic studies, mineralogical analyses, porosity-permeability data, and computed tomography were used to better understand the diagenetic history and petrophysical property evolution. Numerous dolerite intrusions are present in the studied carbonate successions, where the host limestone was altered to dolomite and marble, and fractures and faults developed due to the upwelling of the magmatic/hydrothermal fluids along pathways. Petrographic studies show an early phase of coarse crystalline saddle dolomite (Dol. I), which resulted from Mg-rich hydrothermal fluids originated from the dolerite dykes. Coarse crystalline marble formed due to contact metamorphism at the time of dolerite emplacement. The second phase of dolomitisation (Dol. II) postdates the igneous intrusions and was followed by dedolomitisation, dissolution, and cementation by meteoric calcite. Stable isotope studies likewise confirm two distinct dolomite phases. Dol. I exhibits more depleted δ18O (-15.8 to -9.1‰ V-PDB) and nondepleted δ13C (-2.05 to +1.85‰ V-PDB), whereas Dol. II shows a relatively narrow range of depleted δ18O (-13.9 to -13.8‰) signatures and nondepleted δ13C (+1.58 to +1.89‰ V-PDB). Dolomitic marble shows a marked depletion in δ18O and δ13C (-13.7 to -8.5‰ and -2.3 to 1.95‰, respectively). The initial phase of dolomitisation (Dol. I) did not alter porosity (5.4-6.6%) and permeability (0.0-0.1 mD) with respect to the unaltered limestone (5.6-6.9%; 0.1-0.2 mD). Contact metamorphism resulted in a decrease in porosity and permeability (3.3-4.7%; 0.1 mD). In contrast, an increase in porosity and permeability in Dol. II (7.7-10.5%; 0.8-2.5 mD) and dolomitic marble (6.6-14.7%; 8.2-13.3 mD) is linked to intercrystalline porosity and retainment of fracture porosity in dolomitic marble. Late-stage dissolution and dedolomitization also positively affected the reservoir properties of the studied successions. In conclusion, the aforementioned results reveal the impact of various diagenetic processes resulting from magmatic emplacement and their consequent reservoir heterogeneity.</description><subject>Analysis</subject><subject>Calcite</subject><subject>Calcite crystals</subject><subject>Carbonates</subject><subject>Cementation</subject><subject>Computed tomography</subject><subject>Crystal structure</subject><subject>Crystallinity</subject><subject>Depletion</subject><subject>Devonian</subject><subject>Diagenesis</subject><subject>Dissolution</subject><subject>Dissolving</subject><subject>Dolomite</subject><subject>Dolostone</subject><subject>Fault lines</subject><subject>Fluids</subject><subject>Fractures</subject><subject>Fruits</subject><subject>Heterogeneity</subject><subject>Hydrocarbons</subject><subject>Hydrothermal fluids</subject><subject>Igneous intrusions</subject><subject>Investigations</subject><subject>Isotope studies</subject><subject>Isotopes</subject><subject>Limestone</subject><subject>Marble</subject><subject>Metamorphism</subject><subject>Metamorphism (Geology)</subject><subject>Mineralogy</subject><subject>Ocean circulation</subject><subject>Permeability</subject><subject>Porosity</subject><subject>Properties</subject><subject>Quartz</subject><subject>Reservoirs</subject><subject>Rocks, Metamorphic</subject><subject>Stable isotopes</subject><subject>Tomography</subject><subject>Upwelling</subject><issn>1468-8115</issn><issn>1468-8123</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>DOA</sourceid><recordid>eNqNks1uEzEUhUcIJEphxwNYYknS-mc841mGFmjUFCoEYjm6Y18nDo3d2k6jvAjPW09TdYmQF7auvnN0j3Wq6j2jJ4xJecopZ6dKsaZu5IvqiNWNmirGxcvnN5OvqzcprSllrVD8qPp77mCJHrPT5CoYZ52G7IJPBLwhPzBhvA8ukgvMGMNIurwns5SCdpDRkJ3LK3IFyw2MFnOf4zY96p0neYXkHO-Dd-DJ5Wo_YCQLt8GUg8cJuca0gh1E8gmS8xPy7Te5hj8uZfBvq1cWbhK-e7qPq19fPv88u5guvn-dn80WU10rlqfcdp3iVOuOc9oaLRQoEMPAOzBqoI3uJFpjOReaIx_BFgE1ApeD4A2K42p-8DUB1v1tdBuI-z6A6x8HIS57iCXYDfZYt5zVGiUDrK0durqxRmlsJTNyAFO8Phy8bmO425aQ_Tpsoy_r91zytlOU1k2hTg7UEoqp8zbkCLocgxuny79YV-azpms6RqVQ_y1QtWiF6GQRTA4CHUNKEe1zLkb7sSf92JP-qScF_3jAV84b2Ll_0w-9eb79</recordid><startdate>2021</startdate><enddate>2021</enddate><creator>Shah, Mumtaz M.</creator><creator>Afridi, Saifullah</creator><creator>Khan, Emad U.</creator><creator>Rahim, Hamad Ur</creator><creator>Mustafa, Muhammad R.</creator><general>Hindawi</general><general>John Wiley & Sons, Inc</general><general>Hindawi Limited</general><general>Hindawi-Wiley</general><scope>RHU</scope><scope>RHW</scope><scope>RHX</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TG</scope><scope>7UA</scope><scope>AFKRA</scope><scope>BENPR</scope><scope>BHPHI</scope><scope>BKSAR</scope><scope>C1K</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>F1W</scope><scope>H96</scope><scope>HCIFZ</scope><scope>KL.</scope><scope>L.G</scope><scope>PCBAR</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>DOA</scope><orcidid>https://orcid.org/0000-0001-6045-650X</orcidid><orcidid>https://orcid.org/0000-0002-1763-4152</orcidid><orcidid>https://orcid.org/0000-0002-6742-6650</orcidid></search><sort><creationdate>2021</creationdate><title>Diagenetic Modifications and Reservoir Heterogeneity Associated with Magmatic Intrusions in the Devonian Khyber Limestone, Peshawar Basin, NW Pakistan</title><author>Shah, Mumtaz M. ; 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Field observations, petrographic studies, mineralogical analyses, porosity-permeability data, and computed tomography were used to better understand the diagenetic history and petrophysical property evolution. Numerous dolerite intrusions are present in the studied carbonate successions, where the host limestone was altered to dolomite and marble, and fractures and faults developed due to the upwelling of the magmatic/hydrothermal fluids along pathways. Petrographic studies show an early phase of coarse crystalline saddle dolomite (Dol. I), which resulted from Mg-rich hydrothermal fluids originated from the dolerite dykes. Coarse crystalline marble formed due to contact metamorphism at the time of dolerite emplacement. The second phase of dolomitisation (Dol. II) postdates the igneous intrusions and was followed by dedolomitisation, dissolution, and cementation by meteoric calcite. Stable isotope studies likewise confirm two distinct dolomite phases. Dol. I exhibits more depleted δ18O (-15.8 to -9.1‰ V-PDB) and nondepleted δ13C (-2.05 to +1.85‰ V-PDB), whereas Dol. II shows a relatively narrow range of depleted δ18O (-13.9 to -13.8‰) signatures and nondepleted δ13C (+1.58 to +1.89‰ V-PDB). Dolomitic marble shows a marked depletion in δ18O and δ13C (-13.7 to -8.5‰ and -2.3 to 1.95‰, respectively). The initial phase of dolomitisation (Dol. I) did not alter porosity (5.4-6.6%) and permeability (0.0-0.1 mD) with respect to the unaltered limestone (5.6-6.9%; 0.1-0.2 mD). Contact metamorphism resulted in a decrease in porosity and permeability (3.3-4.7%; 0.1 mD). In contrast, an increase in porosity and permeability in Dol. II (7.7-10.5%; 0.8-2.5 mD) and dolomitic marble (6.6-14.7%; 8.2-13.3 mD) is linked to intercrystalline porosity and retainment of fracture porosity in dolomitic marble. Late-stage dissolution and dedolomitization also positively affected the reservoir properties of the studied successions. In conclusion, the aforementioned results reveal the impact of various diagenetic processes resulting from magmatic emplacement and their consequent reservoir heterogeneity.</abstract><cop>Chichester</cop><pub>Hindawi</pub><doi>10.1155/2021/8816465</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0001-6045-650X</orcidid><orcidid>https://orcid.org/0000-0002-1763-4152</orcidid><orcidid>https://orcid.org/0000-0002-6742-6650</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Analysis Calcite Calcite crystals Carbonates Cementation Computed tomography Crystal structure Crystallinity Depletion Devonian Diagenesis Dissolution Dissolving Dolomite Dolostone Fault lines Fluids Fractures Fruits Heterogeneity Hydrocarbons Hydrothermal fluids Igneous intrusions Investigations Isotope studies Isotopes Limestone Marble Metamorphism Metamorphism (Geology) Mineralogy Ocean circulation Permeability Porosity Properties Quartz Reservoirs Rocks, Metamorphic Stable isotopes Tomography Upwelling |
| title | Diagenetic Modifications and Reservoir Heterogeneity Associated with Magmatic Intrusions in the Devonian Khyber Limestone, Peshawar Basin, NW Pakistan |
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