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Ultrafast oceanic spreading of the Marsili Basin, southern Tyrrhenian Sea; evidence from magnetic anomaly analysis
Spectral analysis of both shipborne and airborne magnetic maps of the southern Tyrrhenian Sea reveals seven subparallel positive-negative magnetic anomaly stripes over the flat-lying deep floor of the Marsili oceanic basin. This represents the first evidence of oceanic magnetic anomalies in the Tyrr...
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| Published in: | Geology (Boulder) 2006-09, Vol.34 (9), p.717-720 |
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| Main Authors: | , , |
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| Language: | English |
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| cites | cdi_FETCH-LOGICAL-a414t-be2a8317def44ac8c349a6d43067f191d70f2cadece05da8b334c2cd24b0d7703 |
| container_end_page | 720 |
| container_issue | 9 |
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| container_title | Geology (Boulder) |
| container_volume | 34 |
| creator | Nicolosi, Iacopo Speranza, Fabio Chiappini, Massimo |
| description | Spectral analysis of both shipborne and airborne magnetic maps of the southern Tyrrhenian Sea reveals seven subparallel positive-negative magnetic anomaly stripes over the flat-lying deep floor of the Marsili oceanic basin. This represents the first evidence of oceanic magnetic anomalies in the Tyrrhenian Sea. The central positive stripe is along the Marsili seamount, a superinflated spreading ridge located at the basin axis. The stratigraphy of Ocean Drilling Program Site 650 and K/Ar ages from the Marsili seamount suggest that the Marsili Basin opened at the remarkable full-spreading rate of ∼19 cm/ yr between ca. 1.6 and 2.1 Ma about the Olduvai subchron. This is the highest spreading rate ever documented, including that observed at the Cocos-Pacific plate boundary. Renewed but slow spreading during the Brunhes chron (after 0.78 Ma), coupled with huge magmatic inflation, gave rise to the Marsili volcano. Our new data and interpretation show that backarc spreading of the Tyrrhenian Sea was episodic, with sudden rapid pulses punctuating relatively long periods of tectonic quiescence. |
| doi_str_mv | 10.1130/G22555.1 |
| format | article |
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This represents the first evidence of oceanic magnetic anomalies in the Tyrrhenian Sea. The central positive stripe is along the Marsili seamount, a superinflated spreading ridge located at the basin axis. The stratigraphy of Ocean Drilling Program Site 650 and K/Ar ages from the Marsili seamount suggest that the Marsili Basin opened at the remarkable full-spreading rate of ∼19 cm/ yr between ca. 1.6 and 2.1 Ma about the Olduvai subchron. This is the highest spreading rate ever documented, including that observed at the Cocos-Pacific plate boundary. Renewed but slow spreading during the Brunhes chron (after 0.78 Ma), coupled with huge magmatic inflation, gave rise to the Marsili volcano. 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This represents the first evidence of oceanic magnetic anomalies in the Tyrrhenian Sea. The central positive stripe is along the Marsili seamount, a superinflated spreading ridge located at the basin axis. The stratigraphy of Ocean Drilling Program Site 650 and K/Ar ages from the Marsili seamount suggest that the Marsili Basin opened at the remarkable full-spreading rate of ∼19 cm/ yr between ca. 1.6 and 2.1 Ma about the Olduvai subchron. This is the highest spreading rate ever documented, including that observed at the Cocos-Pacific plate boundary. Renewed but slow spreading during the Brunhes chron (after 0.78 Ma), coupled with huge magmatic inflation, gave rise to the Marsili volcano. Our new data and interpretation show that backarc spreading of the Tyrrhenian Sea was episodic, with sudden rapid pulses punctuating relatively long periods of tectonic quiescence.</description><subject>airborne methods</subject><subject>algae</subject><subject>Analysis</subject><subject>Basins</subject><subject>biostratigraphy</subject><subject>Cenozoic</subject><subject>clastic sediments</subject><subject>Foraminifera</subject><subject>Geology</subject><subject>geophysical methods</subject><subject>geophysical surveys</subject><subject>Geophysics</subject><subject>Globigerinacea</subject><subject>Globorotalia</subject><subject>Globorotalia truncatulinoides</subject><subject>Globorotaliidae</subject><subject>Invertebrata</subject><subject>magnetic anomalies</subject><subject>magnetic methods</subject><subject>Marine</subject><subject>marine methods</subject><subject>marine sediments</subject><subject>Marsili Basin</subject><subject>Marsili Seamount</subject><subject>Mediterranean Sea</subject><subject>microfossils</subject><subject>nannofossils</subject><subject>Neogene</subject><subject>ocean floors</subject><subject>Oceans</subject><subject>ooze</subject><subject>periodicity</subject><subject>Plantae</subject><subject>Pleistocene</subject><subject>Pliocene</subject><subject>Protista</subject><subject>Quaternary</subject><subject>rates</subject><subject>Rotaliina</subject><subject>sea-floor spreading</subject><subject>seamounts</subject><subject>sediments</subject><subject>solid Earth (tectonophysics)</subject><subject>Stratigraphy</subject><subject>surveys</subject><subject>Tertiary</subject><subject>Tyrrhenian Sea</subject><subject>West Mediterranean</subject><issn>0091-7613</issn><issn>1943-2682</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2006</creationdate><recordtype>article</recordtype><recordid>eNqFkcGKFDEQhoMoOK6CjxA8iOD2WpWkO9140sVdhRUP7p6bmqR6Nkt3MiY9yry93YwH8eKlCoqPr6i_hHiJcIGo4d21UnVdX-AjscHO6Eo1rXosNgAdVrZB_VQ8K-UBAE1t243Id-OcaaAyy-SYYnCy7DOTD3En0yDne5ZfKZcwBvmRSojnsqTDMs1R3h5zvucYKMrvTO8l_wyeo2M55DTJiXaR58VHMU00Hpe-1BLKc_FkoLHwiz_9TNxdfbq9_FzdfLv-cvnhpiKDZq62rKjVaD0PxpBrnTYdNd5oaOyAHXoLg3Lk2THUntqt1sYp55XZgrcW9Jl4ffLuc_px4DL3UyiOx5Eip0PpFahOmSW0_4FLjg1aXI2v_gEf0iEvZ60yhAaMVQv05gS5nErJPPT7HCbKxx6hX1_Un17Ur4vfntAdp-LCmt2vlEf_txaaHizWWOvfLGKStg</recordid><startdate>20060901</startdate><enddate>20060901</enddate><creator>Nicolosi, Iacopo</creator><creator>Speranza, Fabio</creator><creator>Chiappini, Massimo</creator><general>Geological Society of America (GSA)</general><general>Geological Society of America</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7TG</scope><scope>7UA</scope><scope>C1K</scope><scope>F1W</scope><scope>H96</scope><scope>KL.</scope><scope>L.G</scope><scope>7TN</scope></search><sort><creationdate>20060901</creationdate><title>Ultrafast oceanic spreading of the Marsili Basin, southern Tyrrhenian Sea; evidence from magnetic anomaly analysis</title><author>Nicolosi, Iacopo ; Speranza, Fabio ; Chiappini, Massimo</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a414t-be2a8317def44ac8c349a6d43067f191d70f2cadece05da8b334c2cd24b0d7703</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2006</creationdate><topic>airborne methods</topic><topic>algae</topic><topic>Analysis</topic><topic>Basins</topic><topic>biostratigraphy</topic><topic>Cenozoic</topic><topic>clastic sediments</topic><topic>Foraminifera</topic><topic>Geology</topic><topic>geophysical methods</topic><topic>geophysical surveys</topic><topic>Geophysics</topic><topic>Globigerinacea</topic><topic>Globorotalia</topic><topic>Globorotalia truncatulinoides</topic><topic>Globorotaliidae</topic><topic>Invertebrata</topic><topic>magnetic anomalies</topic><topic>magnetic methods</topic><topic>Marine</topic><topic>marine methods</topic><topic>marine sediments</topic><topic>Marsili Basin</topic><topic>Marsili Seamount</topic><topic>Mediterranean Sea</topic><topic>microfossils</topic><topic>nannofossils</topic><topic>Neogene</topic><topic>ocean floors</topic><topic>Oceans</topic><topic>ooze</topic><topic>periodicity</topic><topic>Plantae</topic><topic>Pleistocene</topic><topic>Pliocene</topic><topic>Protista</topic><topic>Quaternary</topic><topic>rates</topic><topic>Rotaliina</topic><topic>sea-floor spreading</topic><topic>seamounts</topic><topic>sediments</topic><topic>solid Earth (tectonophysics)</topic><topic>Stratigraphy</topic><topic>surveys</topic><topic>Tertiary</topic><topic>Tyrrhenian Sea</topic><topic>West Mediterranean</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Nicolosi, Iacopo</creatorcontrib><creatorcontrib>Speranza, Fabio</creatorcontrib><creatorcontrib>Chiappini, Massimo</creatorcontrib><collection>CrossRef</collection><collection>Meteorological & Geoastrophysical 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>Meteorological & Geoastrophysical Abstracts - Academic</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Professional</collection><collection>Oceanic Abstracts</collection><jtitle>Geology (Boulder)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Nicolosi, Iacopo</au><au>Speranza, Fabio</au><au>Chiappini, Massimo</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Ultrafast oceanic spreading of the Marsili Basin, southern Tyrrhenian Sea; evidence from magnetic anomaly analysis</atitle><jtitle>Geology (Boulder)</jtitle><date>2006-09-01</date><risdate>2006</risdate><volume>34</volume><issue>9</issue><spage>717</spage><epage>720</epage><pages>717-720</pages><issn>0091-7613</issn><eissn>1943-2682</eissn><abstract>Spectral analysis of both shipborne and airborne magnetic maps of the southern Tyrrhenian Sea reveals seven subparallel positive-negative magnetic anomaly stripes over the flat-lying deep floor of the Marsili oceanic basin. This represents the first evidence of oceanic magnetic anomalies in the Tyrrhenian Sea. The central positive stripe is along the Marsili seamount, a superinflated spreading ridge located at the basin axis. The stratigraphy of Ocean Drilling Program Site 650 and K/Ar ages from the Marsili seamount suggest that the Marsili Basin opened at the remarkable full-spreading rate of ∼19 cm/ yr between ca. 1.6 and 2.1 Ma about the Olduvai subchron. This is the highest spreading rate ever documented, including that observed at the Cocos-Pacific plate boundary. Renewed but slow spreading during the Brunhes chron (after 0.78 Ma), coupled with huge magmatic inflation, gave rise to the Marsili volcano. Our new data and interpretation show that backarc spreading of the Tyrrhenian Sea was episodic, with sudden rapid pulses punctuating relatively long periods of tectonic quiescence.</abstract><cop>Boulder</cop><pub>Geological Society of America (GSA)</pub><doi>10.1130/G22555.1</doi><tpages>4</tpages></addata></record> |
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| ispartof | Geology (Boulder), 2006-09, Vol.34 (9), p.717-720 |
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| language | eng |
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| source | 地球科学世界出版社期刊(NSTL购买) |
| subjects | airborne methods algae Analysis Basins biostratigraphy Cenozoic clastic sediments Foraminifera Geology geophysical methods geophysical surveys Geophysics Globigerinacea Globorotalia Globorotalia truncatulinoides Globorotaliidae Invertebrata magnetic anomalies magnetic methods Marine marine methods marine sediments Marsili Basin Marsili Seamount Mediterranean Sea microfossils nannofossils Neogene ocean floors Oceans ooze periodicity Plantae Pleistocene Pliocene Protista Quaternary rates Rotaliina sea-floor spreading seamounts sediments solid Earth (tectonophysics) Stratigraphy surveys Tertiary Tyrrhenian Sea West Mediterranean |
| title | Ultrafast oceanic spreading of the Marsili Basin, southern Tyrrhenian Sea; evidence from magnetic anomaly analysis |
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