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Alkalic to tholeiitic magmatism near a mid-ocean ridge: petrogenesis of the KR1 Seamount Trail adjacent to the Australian-Antarctic Ridge
Coexisting alkalic and tholeiitic basalt lavas has been identified in a seamount chain located near the Australian-Antarctic spreading ridge. The KR1 Seamount Trail (KR1 ST) is a series of volcanic seamounts extending to the southeast in the spreading direction of the Australian-Antarctic Ridge (AAR...
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| Published in: | International geology review 2021-07, Vol.63 (10), p.1215-1235 |
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| creator | Yi, Sang-Bong Lee, Mi Jung Park, Sung-Hyun Nagao, Keisuke Han, Seunghee Yang, Yun Seok Choi, Hakkyum Baek, Jongmin Sumino, Hirochika |
| description | Coexisting alkalic and tholeiitic basalt lavas has been identified in a seamount chain located near the Australian-Antarctic spreading ridge. The KR1 Seamount Trail (KR1 ST) is a series of volcanic seamounts extending to the southeast in the spreading direction of the Australian-Antarctic Ridge (AAR). We herein report Sr, Nd and Pb isotopic compositions and (U-Th)/He and K-Ar geochronology for dredge samples from the KR1 ST in order to evaluate mantle processes and the role of enriched components for alkalic to tholeiitic magma generation in this region. The KR1 ST is a medium-sized seamount chain that extends for ~60 km, has a maximum height of ~1600 m above the seafloor, and consists of alkaline basalts and tholeiites with formation ages of ~0.4 Ma to ≤1.3 Ma. The isotopic characteristics of the alkaline basalts (
206
Pb/
204
Pb = 19.52-19.91;
87
Sr/
86
Sr = 0.7030-0.7033;
143
Nd/
144
Nd = 0.5128-0.5130) from the KR1 ST reflect a dominant 'PREMA (or FOZO)' mantle component represented by radiogenic Pb and mildly enriched Sr and Nd isotopic compositions. On the other hand, the weak PREMA (FOZO)-affinity (
206
Pb/
204
Pb = 18.89-18.93;
87
Sr/
86
Sr = 0.7028-0.7029;
143
Nd/
144
Nd = ~0.5130;
3
He/
4
He = 7.64 ± 0.13 (R/R
A
)) coupled with their enriched mid-ocean ridge basalt (E-MORB) characteristics of tholeiites from the KR1 ST largely overlap with the KR1 MORB composition. The potential source materials for the alkaline basalts are considered to be ancient, recycled oceanic crust (i.e. eclogite) as well as sub-KR1 depleted MORB mantle (DMM). Whereas the main source materials for the KR1 ST tholeiites are presumed to be the DMM-dominant lithology with minor recycled material. We interpret the KR1 ST as a submarine hotspot chain that was formed by asthenospheric upwelling and spreading processes that delivered fertile blobs of recycled oceanic crust to the sub-KR1 region. The fundamental reason for sub-KR1 upper mantle enrichment might be attributed to a mantle plume event that possibly occurred prior to the formation of the KR1 ST. |
| doi_str_mv | 10.1080/00206814.2020.1756002 |
| format | article |
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206
Pb/
204
Pb = 19.52-19.91;
87
Sr/
86
Sr = 0.7030-0.7033;
143
Nd/
144
Nd = 0.5128-0.5130) from the KR1 ST reflect a dominant 'PREMA (or FOZO)' mantle component represented by radiogenic Pb and mildly enriched Sr and Nd isotopic compositions. On the other hand, the weak PREMA (FOZO)-affinity (
206
Pb/
204
Pb = 18.89-18.93;
87
Sr/
86
Sr = 0.7028-0.7029;
143
Nd/
144
Nd = ~0.5130;
3
He/
4
He = 7.64 ± 0.13 (R/R
A
)) coupled with their enriched mid-ocean ridge basalt (E-MORB) characteristics of tholeiites from the KR1 ST largely overlap with the KR1 MORB composition. The potential source materials for the alkaline basalts are considered to be ancient, recycled oceanic crust (i.e. eclogite) as well as sub-KR1 depleted MORB mantle (DMM). Whereas the main source materials for the KR1 ST tholeiites are presumed to be the DMM-dominant lithology with minor recycled material. We interpret the KR1 ST as a submarine hotspot chain that was formed by asthenospheric upwelling and spreading processes that delivered fertile blobs of recycled oceanic crust to the sub-KR1 region. The fundamental reason for sub-KR1 upper mantle enrichment might be attributed to a mantle plume event that possibly occurred prior to the formation of the KR1 ST.</description><identifier>ISSN: 0020-6814</identifier><identifier>EISSN: 1938-2839</identifier><identifier>DOI: 10.1080/00206814.2020.1756002</identifier><language>eng</language><publisher>Philadelphia: Taylor & Francis</publisher><subject>alkaline basalt ; Asthenosphere ; Basalt ; Chains ; Composition ; Eclogite ; Enrichment ; Fertility ; Geochronology ; Geochronometry ; Hot spots (geology) ; Isotopes ; KR1 Seamount Trail ; Lava ; Lead ; Lead isotopes ; Lithology ; Magma ; Mantle plumes ; Mid-ocean ridges ; Neodymium isotopes ; Ocean circulation ; Ocean floor ; Oceanic crust ; Petrogenesis ; PREMA (FOZO) ; Recycled materials ; recycled oceanic crust ; Seamount chains ; Seamounts ; Spreading ; Strontium 87 ; Strontium isotopes ; tholeiite ; Tholeiitic basalt ; Upper mantle ; Upwelling</subject><ispartof>International geology review, 2021-07, Vol.63 (10), p.1215-1235</ispartof><rights>2020 Informa UK Limited, trading as Taylor & Francis Group 2020</rights><rights>2020 Informa UK Limited, trading as Taylor & Francis Group</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-a474t-faf08f5341f4864066b03dbee2963b904d8e65e566dd0d61e91e1268e610c43b3</citedby><cites>FETCH-LOGICAL-a474t-faf08f5341f4864066b03dbee2963b904d8e65e566dd0d61e91e1268e610c43b3</cites><orcidid>0000-0002-4689-6231 ; 0000-0001-6253-5420</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27901,27902</link.rule.ids></links><search><creatorcontrib>Yi, Sang-Bong</creatorcontrib><creatorcontrib>Lee, Mi Jung</creatorcontrib><creatorcontrib>Park, Sung-Hyun</creatorcontrib><creatorcontrib>Nagao, Keisuke</creatorcontrib><creatorcontrib>Han, Seunghee</creatorcontrib><creatorcontrib>Yang, Yun Seok</creatorcontrib><creatorcontrib>Choi, Hakkyum</creatorcontrib><creatorcontrib>Baek, Jongmin</creatorcontrib><creatorcontrib>Sumino, Hirochika</creatorcontrib><title>Alkalic to tholeiitic magmatism near a mid-ocean ridge: petrogenesis of the KR1 Seamount Trail adjacent to the Australian-Antarctic Ridge</title><title>International geology review</title><description>Coexisting alkalic and tholeiitic basalt lavas has been identified in a seamount chain located near the Australian-Antarctic spreading ridge. The KR1 Seamount Trail (KR1 ST) is a series of volcanic seamounts extending to the southeast in the spreading direction of the Australian-Antarctic Ridge (AAR). We herein report Sr, Nd and Pb isotopic compositions and (U-Th)/He and K-Ar geochronology for dredge samples from the KR1 ST in order to evaluate mantle processes and the role of enriched components for alkalic to tholeiitic magma generation in this region. The KR1 ST is a medium-sized seamount chain that extends for ~60 km, has a maximum height of ~1600 m above the seafloor, and consists of alkaline basalts and tholeiites with formation ages of ~0.4 Ma to ≤1.3 Ma. The isotopic characteristics of the alkaline basalts (
206
Pb/
204
Pb = 19.52-19.91;
87
Sr/
86
Sr = 0.7030-0.7033;
143
Nd/
144
Nd = 0.5128-0.5130) from the KR1 ST reflect a dominant 'PREMA (or FOZO)' mantle component represented by radiogenic Pb and mildly enriched Sr and Nd isotopic compositions. On the other hand, the weak PREMA (FOZO)-affinity (
206
Pb/
204
Pb = 18.89-18.93;
87
Sr/
86
Sr = 0.7028-0.7029;
143
Nd/
144
Nd = ~0.5130;
3
He/
4
He = 7.64 ± 0.13 (R/R
A
)) coupled with their enriched mid-ocean ridge basalt (E-MORB) characteristics of tholeiites from the KR1 ST largely overlap with the KR1 MORB composition. The potential source materials for the alkaline basalts are considered to be ancient, recycled oceanic crust (i.e. eclogite) as well as sub-KR1 depleted MORB mantle (DMM). Whereas the main source materials for the KR1 ST tholeiites are presumed to be the DMM-dominant lithology with minor recycled material. We interpret the KR1 ST as a submarine hotspot chain that was formed by asthenospheric upwelling and spreading processes that delivered fertile blobs of recycled oceanic crust to the sub-KR1 region. The fundamental reason for sub-KR1 upper mantle enrichment might be attributed to a mantle plume event that possibly occurred prior to the formation of the KR1 ST.</description><subject>alkaline basalt</subject><subject>Asthenosphere</subject><subject>Basalt</subject><subject>Chains</subject><subject>Composition</subject><subject>Eclogite</subject><subject>Enrichment</subject><subject>Fertility</subject><subject>Geochronology</subject><subject>Geochronometry</subject><subject>Hot spots (geology)</subject><subject>Isotopes</subject><subject>KR1 Seamount Trail</subject><subject>Lava</subject><subject>Lead</subject><subject>Lead isotopes</subject><subject>Lithology</subject><subject>Magma</subject><subject>Mantle plumes</subject><subject>Mid-ocean ridges</subject><subject>Neodymium isotopes</subject><subject>Ocean circulation</subject><subject>Ocean floor</subject><subject>Oceanic crust</subject><subject>Petrogenesis</subject><subject>PREMA (FOZO)</subject><subject>Recycled materials</subject><subject>recycled oceanic crust</subject><subject>Seamount chains</subject><subject>Seamounts</subject><subject>Spreading</subject><subject>Strontium 87</subject><subject>Strontium isotopes</subject><subject>tholeiite</subject><subject>Tholeiitic basalt</subject><subject>Upper mantle</subject><subject>Upwelling</subject><issn>0020-6814</issn><issn>1938-2839</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNp9UMtKxDAUDaLg-PgEIeC6Y9KmsXXlIL5QEHysw53mZszYJmOSQfwE_9rU0a2re8_hPOAQcsTZlLOGnTBWMtlwMS3zM-WntczMFpnwtmqKsqnabTIZNcUo2iV7MS4zlELyCfma9W_Q244mT9Or79HalNEAiwGSjQN1CIECHawufIfgaLB6gWd0hSn4BTqMNlJvshnp3SOnTwiDX7tEnwPYnoJeQocZ_uQjna1jCrkQXDFzCUI3tj2OkQdkx0Af8fD37pOXq8vni5vi_uH69mJ2X4A4FakwYFhj6kpwIxopmJRzVuk5YtnKat4yoRuUNdZSas205Nhy5KXMJGedqObVPjne5K6Cf19jTGrp18HlSlXWouSiFIxnVb1RdcHHGNCoVbADhE_FmRpXV3-rq3F19bt69p1vfNYZHwb48KHXKsFn74MJ4DobVfV_xDf8S4k2</recordid><startdate>20210703</startdate><enddate>20210703</enddate><creator>Yi, Sang-Bong</creator><creator>Lee, Mi Jung</creator><creator>Park, Sung-Hyun</creator><creator>Nagao, Keisuke</creator><creator>Han, Seunghee</creator><creator>Yang, Yun Seok</creator><creator>Choi, Hakkyum</creator><creator>Baek, Jongmin</creator><creator>Sumino, Hirochika</creator><general>Taylor & Francis</general><general>Taylor & Francis Ltd</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7ST</scope><scope>7TN</scope><scope>7UA</scope><scope>C1K</scope><scope>F1W</scope><scope>H96</scope><scope>L.G</scope><scope>SOI</scope><orcidid>https://orcid.org/0000-0002-4689-6231</orcidid><orcidid>https://orcid.org/0000-0001-6253-5420</orcidid></search><sort><creationdate>20210703</creationdate><title>Alkalic to tholeiitic magmatism near a mid-ocean ridge: petrogenesis of the KR1 Seamount Trail adjacent to the Australian-Antarctic Ridge</title><author>Yi, Sang-Bong ; Lee, Mi Jung ; Park, Sung-Hyun ; Nagao, Keisuke ; Han, Seunghee ; Yang, Yun Seok ; Choi, Hakkyum ; Baek, Jongmin ; Sumino, Hirochika</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a474t-faf08f5341f4864066b03dbee2963b904d8e65e566dd0d61e91e1268e610c43b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2021</creationdate><topic>alkaline basalt</topic><topic>Asthenosphere</topic><topic>Basalt</topic><topic>Chains</topic><topic>Composition</topic><topic>Eclogite</topic><topic>Enrichment</topic><topic>Fertility</topic><topic>Geochronology</topic><topic>Geochronometry</topic><topic>Hot spots (geology)</topic><topic>Isotopes</topic><topic>KR1 Seamount Trail</topic><topic>Lava</topic><topic>Lead</topic><topic>Lead isotopes</topic><topic>Lithology</topic><topic>Magma</topic><topic>Mantle plumes</topic><topic>Mid-ocean ridges</topic><topic>Neodymium isotopes</topic><topic>Ocean circulation</topic><topic>Ocean floor</topic><topic>Oceanic crust</topic><topic>Petrogenesis</topic><topic>PREMA (FOZO)</topic><topic>Recycled materials</topic><topic>recycled oceanic crust</topic><topic>Seamount chains</topic><topic>Seamounts</topic><topic>Spreading</topic><topic>Strontium 87</topic><topic>Strontium isotopes</topic><topic>tholeiite</topic><topic>Tholeiitic basalt</topic><topic>Upper mantle</topic><topic>Upwelling</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Yi, Sang-Bong</creatorcontrib><creatorcontrib>Lee, Mi Jung</creatorcontrib><creatorcontrib>Park, Sung-Hyun</creatorcontrib><creatorcontrib>Nagao, Keisuke</creatorcontrib><creatorcontrib>Han, Seunghee</creatorcontrib><creatorcontrib>Yang, Yun Seok</creatorcontrib><creatorcontrib>Choi, Hakkyum</creatorcontrib><creatorcontrib>Baek, Jongmin</creatorcontrib><creatorcontrib>Sumino, Hirochika</creatorcontrib><collection>CrossRef</collection><collection>Environment Abstracts</collection><collection>Oceanic Abstracts</collection><collection>Water Resources Abstracts</collection><collection>Environmental Sciences and Pollution Management</collection><collection>ASFA: Aquatic Sciences and Fisheries Abstracts</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 2: Ocean Technology, Policy & Non-Living Resources</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Professional</collection><collection>Environment Abstracts</collection><jtitle>International geology review</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Yi, Sang-Bong</au><au>Lee, Mi Jung</au><au>Park, Sung-Hyun</au><au>Nagao, Keisuke</au><au>Han, Seunghee</au><au>Yang, Yun Seok</au><au>Choi, Hakkyum</au><au>Baek, Jongmin</au><au>Sumino, Hirochika</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Alkalic to tholeiitic magmatism near a mid-ocean ridge: petrogenesis of the KR1 Seamount Trail adjacent to the Australian-Antarctic Ridge</atitle><jtitle>International geology review</jtitle><date>2021-07-03</date><risdate>2021</risdate><volume>63</volume><issue>10</issue><spage>1215</spage><epage>1235</epage><pages>1215-1235</pages><issn>0020-6814</issn><eissn>1938-2839</eissn><abstract>Coexisting alkalic and tholeiitic basalt lavas has been identified in a seamount chain located near the Australian-Antarctic spreading ridge. The KR1 Seamount Trail (KR1 ST) is a series of volcanic seamounts extending to the southeast in the spreading direction of the Australian-Antarctic Ridge (AAR). We herein report Sr, Nd and Pb isotopic compositions and (U-Th)/He and K-Ar geochronology for dredge samples from the KR1 ST in order to evaluate mantle processes and the role of enriched components for alkalic to tholeiitic magma generation in this region. The KR1 ST is a medium-sized seamount chain that extends for ~60 km, has a maximum height of ~1600 m above the seafloor, and consists of alkaline basalts and tholeiites with formation ages of ~0.4 Ma to ≤1.3 Ma. The isotopic characteristics of the alkaline basalts (
206
Pb/
204
Pb = 19.52-19.91;
87
Sr/
86
Sr = 0.7030-0.7033;
143
Nd/
144
Nd = 0.5128-0.5130) from the KR1 ST reflect a dominant 'PREMA (or FOZO)' mantle component represented by radiogenic Pb and mildly enriched Sr and Nd isotopic compositions. On the other hand, the weak PREMA (FOZO)-affinity (
206
Pb/
204
Pb = 18.89-18.93;
87
Sr/
86
Sr = 0.7028-0.7029;
143
Nd/
144
Nd = ~0.5130;
3
He/
4
He = 7.64 ± 0.13 (R/R
A
)) coupled with their enriched mid-ocean ridge basalt (E-MORB) characteristics of tholeiites from the KR1 ST largely overlap with the KR1 MORB composition. The potential source materials for the alkaline basalts are considered to be ancient, recycled oceanic crust (i.e. eclogite) as well as sub-KR1 depleted MORB mantle (DMM). Whereas the main source materials for the KR1 ST tholeiites are presumed to be the DMM-dominant lithology with minor recycled material. We interpret the KR1 ST as a submarine hotspot chain that was formed by asthenospheric upwelling and spreading processes that delivered fertile blobs of recycled oceanic crust to the sub-KR1 region. The fundamental reason for sub-KR1 upper mantle enrichment might be attributed to a mantle plume event that possibly occurred prior to the formation of the KR1 ST.</abstract><cop>Philadelphia</cop><pub>Taylor & Francis</pub><doi>10.1080/00206814.2020.1756002</doi><tpages>21</tpages><orcidid>https://orcid.org/0000-0002-4689-6231</orcidid><orcidid>https://orcid.org/0000-0001-6253-5420</orcidid><oa>free_for_read</oa></addata></record> |
| fulltext | fulltext |
| identifier | ISSN: 0020-6814 |
| ispartof | International geology review, 2021-07, Vol.63 (10), p.1215-1235 |
| issn | 0020-6814 1938-2839 |
| language | eng |
| recordid | cdi_crossref_primary_10_1080_00206814_2020_1756002 |
| source | Taylor and Francis Science and Technology Collection |
| subjects | alkaline basalt Asthenosphere Basalt Chains Composition Eclogite Enrichment Fertility Geochronology Geochronometry Hot spots (geology) Isotopes KR1 Seamount Trail Lava Lead Lead isotopes Lithology Magma Mantle plumes Mid-ocean ridges Neodymium isotopes Ocean circulation Ocean floor Oceanic crust Petrogenesis PREMA (FOZO) Recycled materials recycled oceanic crust Seamount chains Seamounts Spreading Strontium 87 Strontium isotopes tholeiite Tholeiitic basalt Upper mantle Upwelling |
| title | Alkalic to tholeiitic magmatism near a mid-ocean ridge: petrogenesis of the KR1 Seamount Trail adjacent to the Australian-Antarctic Ridge |
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