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The tectonic significance of high-K2O volcanism in the Sierra Nevada, California
K2O contents have long been recognized as a potential indicator of tectonic processes, and in the Sierra Nevada, California, high-K2O volcanism has been attributed to lithosphere root delamination. However, new data from the central Sierra suggest a very different control: K2O concentrations can be...
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| Published in: | Geology (Boulder) 2007-10, Vol.35 (10), p.923-926 |
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| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c296t-81e2d11aa332b4e44908b825281b032235a83e3fd03bcc22e1802279a37136df3 |
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| container_title | Geology (Boulder) |
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| creator | Putirka, Keith Busby, Cathy J |
| description | K2O contents have long been recognized as a potential indicator of tectonic processes, and in the Sierra Nevada, California, high-K2O volcanism has been attributed to lithosphere root delamination. However, new data from the central Sierra suggest a very different control: K2O concentrations can be explained by variations in the degree of partial melting in the mantle, where high-K2O volcanics are derived from low-degree partial melts of mantle lithosphere. Field evidence in the central Sierra further suggests that the pulse of high-K2O volcanism there was synchronous with the development of a pull-apart structure along a series of right-stepping dextral transtensional faults at the onset of Walker Lane transtensional faulting. In our alternative interpretation, high-K, low-degree partial melts were tapped by the inception of transtensional stresses, recording the birth of a plate boundary. We speculate that high-K2O lavas in the southern Sierra are similarly related to the onset of transtensional stresses, not delamination. A regional southward increase in incompatible element contents and decrease in erupted volumes are also consistent with a model for crustal thickness controls on magmatism. Depth-integrated density models show that dry mafic magmas beneath thick crust have insufficient buoyancy to erupt, but low-degree partial melts carry sufficient volatiles to allow eruption; as with K2O, degree of partial melting, not source-region heterogeneity, controls water contents and buoyancy. |
| doi_str_mv | 10.1130/G23914A.1 |
| format | article |
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However, new data from the central Sierra suggest a very different control: K2O concentrations can be explained by variations in the degree of partial melting in the mantle, where high-K2O volcanics are derived from low-degree partial melts of mantle lithosphere. Field evidence in the central Sierra further suggests that the pulse of high-K2O volcanism there was synchronous with the development of a pull-apart structure along a series of right-stepping dextral transtensional faults at the onset of Walker Lane transtensional faulting. In our alternative interpretation, high-K, low-degree partial melts were tapped by the inception of transtensional stresses, recording the birth of a plate boundary. We speculate that high-K2O lavas in the southern Sierra are similarly related to the onset of transtensional stresses, not delamination. A regional southward increase in incompatible element contents and decrease in erupted volumes are also consistent with a model for crustal thickness controls on magmatism. Depth-integrated density models show that dry mafic magmas beneath thick crust have insufficient buoyancy to erupt, but low-degree partial melts carry sufficient volatiles to allow eruption; as with K2O, degree of partial melting, not source-region heterogeneity, controls water contents and buoyancy.</description><identifier>ISSN: 0091-7613</identifier><identifier>DOI: 10.1130/G23914A.1</identifier><language>eng</language><publisher>Geological Society of America (GSA)</publisher><subject>Alpine County California ; Basin and Range Province ; basin range structure ; basins ; buoyancy ; California ; crust ; delamination ; eruptions ; faults ; field studies ; igneous and metamorphic rocks ; igneous rocks ; lithosphere ; magmatism ; Mono County California ; North America ; partial melting ; Petrology ; potassic composition ; pull-apart basins ; Sierra Nevada ; Sonora Pass ; stress ; Structural geology ; tectonics ; thickness ; transtension ; Tuolumne County California ; United States ; volcanic rocks ; volcanism</subject><ispartof>Geology (Boulder), 2007-10, Vol.35 (10), p.923-926</ispartof><rights>GeoRef, Copyright 2020, American Geosciences Institute. 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However, new data from the central Sierra suggest a very different control: K2O concentrations can be explained by variations in the degree of partial melting in the mantle, where high-K2O volcanics are derived from low-degree partial melts of mantle lithosphere. Field evidence in the central Sierra further suggests that the pulse of high-K2O volcanism there was synchronous with the development of a pull-apart structure along a series of right-stepping dextral transtensional faults at the onset of Walker Lane transtensional faulting. In our alternative interpretation, high-K, low-degree partial melts were tapped by the inception of transtensional stresses, recording the birth of a plate boundary. We speculate that high-K2O lavas in the southern Sierra are similarly related to the onset of transtensional stresses, not delamination. A regional southward increase in incompatible element contents and decrease in erupted volumes are also consistent with a model for crustal thickness controls on magmatism. Depth-integrated density models show that dry mafic magmas beneath thick crust have insufficient buoyancy to erupt, but low-degree partial melts carry sufficient volatiles to allow eruption; as with K2O, degree of partial melting, not source-region heterogeneity, controls water contents and buoyancy.</description><subject>Alpine County California</subject><subject>Basin and Range Province</subject><subject>basin range structure</subject><subject>basins</subject><subject>buoyancy</subject><subject>California</subject><subject>crust</subject><subject>delamination</subject><subject>eruptions</subject><subject>faults</subject><subject>field studies</subject><subject>igneous and metamorphic rocks</subject><subject>igneous rocks</subject><subject>lithosphere</subject><subject>magmatism</subject><subject>Mono County California</subject><subject>North America</subject><subject>partial melting</subject><subject>Petrology</subject><subject>potassic composition</subject><subject>pull-apart basins</subject><subject>Sierra Nevada</subject><subject>Sonora Pass</subject><subject>stress</subject><subject>Structural geology</subject><subject>tectonics</subject><subject>thickness</subject><subject>transtension</subject><subject>Tuolumne County California</subject><subject>United States</subject><subject>volcanic rocks</subject><subject>volcanism</subject><issn>0091-7613</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><recordid>eNotkFFLwzAUhfOg4Jw--A_yJIh25t7btc3jGDrF4QTnc0jTdMvompl0E_-9le3pwuE7B-7H2A2IEQCJxxmShHQygjM2EEJCkmdAF-wyxo0QkI7zYsA-lmvLO2s63zrDo1u1rnZGt8ZyX_O1W62TN1zwg2_60MUtdy3v-sqnsyFo_m4PutIPfKobV_vQOn3FzmvdRHt9ukP29fy0nL4k88XsdTqZJwZl1iUFWKwAtCbCMrVpKkVRFjjGAkpBiDTWBVmqK0GlMYgWCoGYS005UFbVNGS3x91d8N97Gzu1ddHYptGt9fuoiCSBFLIH746gCT7GYGu1C26rw68Cof49qZMnBT17f2RX1kfjbK_hx4emUhu_D23_jkIh8r6VY4b0B_FCaR4</recordid><startdate>20071001</startdate><enddate>20071001</enddate><creator>Putirka, Keith</creator><creator>Busby, Cathy J</creator><general>Geological Society of America (GSA)</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7SM</scope><scope>8FD</scope><scope>FR3</scope><scope>KR7</scope></search><sort><creationdate>20071001</creationdate><title>The tectonic significance of high-K2O volcanism in the Sierra Nevada, California</title><author>Putirka, Keith ; Busby, Cathy J</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c296t-81e2d11aa332b4e44908b825281b032235a83e3fd03bcc22e1802279a37136df3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2007</creationdate><topic>Alpine County California</topic><topic>Basin and Range Province</topic><topic>basin range structure</topic><topic>basins</topic><topic>buoyancy</topic><topic>California</topic><topic>crust</topic><topic>delamination</topic><topic>eruptions</topic><topic>faults</topic><topic>field studies</topic><topic>igneous and metamorphic rocks</topic><topic>igneous rocks</topic><topic>lithosphere</topic><topic>magmatism</topic><topic>Mono County California</topic><topic>North America</topic><topic>partial melting</topic><topic>Petrology</topic><topic>potassic composition</topic><topic>pull-apart basins</topic><topic>Sierra Nevada</topic><topic>Sonora Pass</topic><topic>stress</topic><topic>Structural geology</topic><topic>tectonics</topic><topic>thickness</topic><topic>transtension</topic><topic>Tuolumne County California</topic><topic>United States</topic><topic>volcanic rocks</topic><topic>volcanism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Putirka, Keith</creatorcontrib><creatorcontrib>Busby, Cathy J</creatorcontrib><collection>CrossRef</collection><collection>Earthquake Engineering Abstracts</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>Civil Engineering Abstracts</collection><jtitle>Geology (Boulder)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Putirka, Keith</au><au>Busby, Cathy J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The tectonic significance of high-K2O volcanism in the Sierra Nevada, California</atitle><jtitle>Geology (Boulder)</jtitle><date>2007-10-01</date><risdate>2007</risdate><volume>35</volume><issue>10</issue><spage>923</spage><epage>926</epage><pages>923-926</pages><issn>0091-7613</issn><abstract>K2O contents have long been recognized as a potential indicator of tectonic processes, and in the Sierra Nevada, California, high-K2O volcanism has been attributed to lithosphere root delamination. However, new data from the central Sierra suggest a very different control: K2O concentrations can be explained by variations in the degree of partial melting in the mantle, where high-K2O volcanics are derived from low-degree partial melts of mantle lithosphere. Field evidence in the central Sierra further suggests that the pulse of high-K2O volcanism there was synchronous with the development of a pull-apart structure along a series of right-stepping dextral transtensional faults at the onset of Walker Lane transtensional faulting. In our alternative interpretation, high-K, low-degree partial melts were tapped by the inception of transtensional stresses, recording the birth of a plate boundary. We speculate that high-K2O lavas in the southern Sierra are similarly related to the onset of transtensional stresses, not delamination. A regional southward increase in incompatible element contents and decrease in erupted volumes are also consistent with a model for crustal thickness controls on magmatism. Depth-integrated density models show that dry mafic magmas beneath thick crust have insufficient buoyancy to erupt, but low-degree partial melts carry sufficient volatiles to allow eruption; as with K2O, degree of partial melting, not source-region heterogeneity, controls water contents and buoyancy.</abstract><pub>Geological Society of America (GSA)</pub><doi>10.1130/G23914A.1</doi><tpages>4</tpages></addata></record> |
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| ispartof | Geology (Boulder), 2007-10, Vol.35 (10), p.923-926 |
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| language | eng |
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| source | GeoScienceWorld |
| subjects | Alpine County California Basin and Range Province basin range structure basins buoyancy California crust delamination eruptions faults field studies igneous and metamorphic rocks igneous rocks lithosphere magmatism Mono County California North America partial melting Petrology potassic composition pull-apart basins Sierra Nevada Sonora Pass stress Structural geology tectonics thickness transtension Tuolumne County California United States volcanic rocks volcanism |
| title | The tectonic significance of high-K2O volcanism in the Sierra Nevada, California |
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