How Hot and Wet are Mantle Derived Magmas and Their Sources?

The compositional and thermal heterogeneity of convecting mantle critically affect magma production and compositions and cannot be easily distinguished from each other. The way to resolve this ambiguity is an independent estimation of temperature and composition of mantle sources of various types of...

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Main Authors: Sobolev, A., Batanova, V., Asafov, E., Gurenko, A., Arndt, N., Krasheninnikov, S., Portnyagin, Maxim, Garbe-Schönberg, Dieter
Format: Conference Object
Language:unknown
Published: 2015
Subjects:
Knipovich Ridge
North Atlantic
Online Access:https://oceanrep.geomar.de/id/eprint/30455/
id ftoceanrep:oai:oceanrep.geomar.de:30455
record_format openpolar
spelling ftoceanrep:oai:oceanrep.geomar.de:30455 2023-05-15T17:36:13+02:00 How Hot and Wet are Mantle Derived Magmas and Their Sources? Sobolev, A. Batanova, V. Asafov, E. Gurenko, A. Arndt, N. Krasheninnikov, S. Portnyagin, Maxim Garbe-Schönberg, Dieter 2015 https://oceanrep.geomar.de/id/eprint/30455/ unknown Sobolev, A., Batanova, V., Asafov, E., Gurenko, A., Arndt, N., Krasheninnikov, S., Portnyagin, M. and Garbe-Schönberg, D. (2015) How Hot and Wet are Mantle Derived Magmas and Their Sources?. [Talk] In: AGU Fall Meeting 2015. , 14.-18.12.2015, San Francisco, USA . Conference or Workshop Item NonPeerReviewed 2015 ftoceanrep 2023-04-07T15:22:07Z The compositional and thermal heterogeneity of convecting mantle critically affect magma production and compositions and cannot be easily distinguished from each other. The way to resolve this ambiguity is an independent estimation of temperature and composition of mantle sources of various types of magma. Here we report application of olivine-spinel-melt geothermometers based on partition of Al, Cr, Sc, Y, Fe and Mg as well as direct measurement of H2O concentrations in melt for olivine hosted melt and spinel inclusions from different primitive lavas of MORB, OIB, LIP, Archean komatiites and SSZ. The results suggest significant variations of crystallization temperature for the same Fo of high magnesium olivines from different types of mantle-derived magmas: from the lowest (down to 1220oC) for MORB and SSZ to the highest (up to over 1500oC) for komatiites and Siberian meimechites. These results confirm the relatively low temperature of the mantle sources of MORB and SSZ magmas, low to moderate amount of H2O (0.2-1 wt%) in komatiite primary melts, high H2O contents (over 2 wt%) of SSZ primary magmas and higher temperatures in the mantle plumes. The established liquidus temperatures and compositions of primary melts allow estimating potential temperatures of their mantle sources. The highest potential temperatures over 1800 oC are characteristic for Archean komatiites. For Phanerozoic age the highest potential temperatures (1650oC) are found for the largest LIPs: Siberian, North Atlantic and Caribbean. The sources of OIBs yield significant range of potential temperatures: 1400-1600oC, positively correlated with magma production rate. MORBs yield potential temperature between 1350-1400oC except those from ultra slow spreading ridges (e.g. Knipovich ridge), which display potential temperatures down to 1250 oC. Potential temperatures of SSZ mantle sources are typically within the range for MORB, suggesting origin of SSZ primary melts by H2O fluxing of convecting mantle wedge. Exceptions are some boninites, which ... Conference Object North Atlantic OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel) Knipovich Ridge ENVELOPE(7.074,7.074,75.712,75.712)
institution Open Polar
collection OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel)
op_collection_id ftoceanrep
language unknown
description The compositional and thermal heterogeneity of convecting mantle critically affect magma production and compositions and cannot be easily distinguished from each other. The way to resolve this ambiguity is an independent estimation of temperature and composition of mantle sources of various types of magma. Here we report application of olivine-spinel-melt geothermometers based on partition of Al, Cr, Sc, Y, Fe and Mg as well as direct measurement of H2O concentrations in melt for olivine hosted melt and spinel inclusions from different primitive lavas of MORB, OIB, LIP, Archean komatiites and SSZ. The results suggest significant variations of crystallization temperature for the same Fo of high magnesium olivines from different types of mantle-derived magmas: from the lowest (down to 1220oC) for MORB and SSZ to the highest (up to over 1500oC) for komatiites and Siberian meimechites. These results confirm the relatively low temperature of the mantle sources of MORB and SSZ magmas, low to moderate amount of H2O (0.2-1 wt%) in komatiite primary melts, high H2O contents (over 2 wt%) of SSZ primary magmas and higher temperatures in the mantle plumes. The established liquidus temperatures and compositions of primary melts allow estimating potential temperatures of their mantle sources. The highest potential temperatures over 1800 oC are characteristic for Archean komatiites. For Phanerozoic age the highest potential temperatures (1650oC) are found for the largest LIPs: Siberian, North Atlantic and Caribbean. The sources of OIBs yield significant range of potential temperatures: 1400-1600oC, positively correlated with magma production rate. MORBs yield potential temperature between 1350-1400oC except those from ultra slow spreading ridges (e.g. Knipovich ridge), which display potential temperatures down to 1250 oC. Potential temperatures of SSZ mantle sources are typically within the range for MORB, suggesting origin of SSZ primary melts by H2O fluxing of convecting mantle wedge. Exceptions are some boninites, which ...
format Conference Object
author Sobolev, A.
Batanova, V.
Asafov, E.
Gurenko, A.
Arndt, N.
Krasheninnikov, S.
Portnyagin, Maxim
Garbe-Schönberg, Dieter
spellingShingle Sobolev, A.
Batanova, V.
Asafov, E.
Gurenko, A.
Arndt, N.
Krasheninnikov, S.
Portnyagin, Maxim
Garbe-Schönberg, Dieter
How Hot and Wet are Mantle Derived Magmas and Their Sources?
author_facet Sobolev, A.
Batanova, V.
Asafov, E.
Gurenko, A.
Arndt, N.
Krasheninnikov, S.
Portnyagin, Maxim
Garbe-Schönberg, Dieter
author_sort Sobolev, A.
title How Hot and Wet are Mantle Derived Magmas and Their Sources?
title_short How Hot and Wet are Mantle Derived Magmas and Their Sources?
title_full How Hot and Wet are Mantle Derived Magmas and Their Sources?
title_fullStr How Hot and Wet are Mantle Derived Magmas and Their Sources?
title_full_unstemmed How Hot and Wet are Mantle Derived Magmas and Their Sources?
title_sort how hot and wet are mantle derived magmas and their sources?
publishDate 2015
url https://oceanrep.geomar.de/id/eprint/30455/
long_lat ENVELOPE(7.074,7.074,75.712,75.712)
geographic Knipovich Ridge
geographic_facet Knipovich Ridge
genre North Atlantic
genre_facet North Atlantic
op_relation Sobolev, A., Batanova, V., Asafov, E., Gurenko, A., Arndt, N., Krasheninnikov, S., Portnyagin, M. and Garbe-Schönberg, D. (2015) How Hot and Wet are Mantle Derived Magmas and Their Sources?. [Talk] In: AGU Fall Meeting 2015. , 14.-18.12.2015, San Francisco, USA .
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