Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume

Current geochemical models envisage that noble gases in the upper mantle source region of Mid-Ocean Ridge Basalts (MORB) arise from three sources; an elementally unfractionated component, introduced by bulk transfer from the deeper mantle via plumes; a radiogenic/nucleogenic component arising from i...

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Main Authors: Harrison, D., Burnard, P., Turner, G.
Format: Article in Journal/Newspaper
Language:English
Published: 1999
Subjects:
Iceland
Mantle
Mid-ocean ridge basalts
Models
Noble gases
Online Access:https://research.manchester.ac.uk/en/publications/5cc0b75b-2797-4294-afc7-b67199a3ca0d
id ftumanchesterpub:oai:pure.atira.dk:publications/5cc0b75b-2797-4294-afc7-b67199a3ca0d
record_format openpolar
spelling ftumanchesterpub:oai:pure.atira.dk:publications/5cc0b75b-2797-4294-afc7-b67199a3ca0d 2023-11-12T04:19:09+01:00 Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume Harrison, D. Burnard, P. Turner, G. 1999-08-30 https://research.manchester.ac.uk/en/publications/5cc0b75b-2797-4294-afc7-b67199a3ca0d eng eng info:eu-repo/semantics/restrictedAccess Harrison , D , Burnard , P & Turner , G 1999 , ' Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume ' , Earth and Planetary Science Letters , vol. 171 , no. 2 , pp. 199-207 . Iceland Mantle Mid-ocean ridge basalts Models Noble gases article 1999 ftumanchesterpub 2023-10-30T09:13:34Z Current geochemical models envisage that noble gases in the upper mantle source region of Mid-Ocean Ridge Basalts (MORB) arise from three sources; an elementally unfractionated component, introduced by bulk transfer from the deeper mantle via plumes; a radiogenic/nucleogenic component arising from in-situ radiogenic decay of U, Th and K, and accumulated within the upper mantle over a residence time of approximately 1.4 Ga; a subducted atmospheric component, possibly restricted to the heavy noble gases. Our new data from Icelandic sub-glacial basaltic glasses have the highest 20Ne/ 22Ne so far reported in terrestrial samples, indistinguishable from the solar wind value of 13.8. Inferred 4He/ 3He, 21Ne/ 22Ne and 40Ar/ 36Ar ratios in the source are much lower than MORB values, reflecting the presence of a deep mantle component. Measured 22Ne/ 3He ratios are higher than upper mantle values, but correlate with 21Ne/ 4He, implying a recent localised enrichment of Ne in the magma. The implied 22Ne/ 3He ratio prior to this enrichment is identical to MORB estimates. This enrichment and the parallel enrichment in Ne/He appears to require a multi stage process during partial melting, in the magma chamber, and/or during eruption which fortuitously left the ratio of mantle He to Ar and Xe unchanged. 36Ar/ 3He ratios, estimated for the source region, are significantly higher than MORB values implying the introduction of atmospheric 36Ar to the magma at some stage. The samples exhibit only a small 129Xe excess, however, the implied 129Xe(*)/ 3He is indistinguishable from the MORB value. Overall the elemental and isotopic ratios in the Iceland samples support mantle models which predict similar primordial noble gas ratios in the MORB and OIB source regions. Article in Journal/Newspaper Iceland The University of Manchester: Research Explorer
institution Open Polar
collection The University of Manchester: Research Explorer
op_collection_id ftumanchesterpub
language English
topic Iceland
Mantle
Mid-ocean ridge basalts
Models
Noble gases
spellingShingle Iceland
Mantle
Mid-ocean ridge basalts
Models
Noble gases
Harrison, D.
Burnard, P.
Turner, G.
Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume
topic_facet Iceland
Mantle
Mid-ocean ridge basalts
Models
Noble gases
description Current geochemical models envisage that noble gases in the upper mantle source region of Mid-Ocean Ridge Basalts (MORB) arise from three sources; an elementally unfractionated component, introduced by bulk transfer from the deeper mantle via plumes; a radiogenic/nucleogenic component arising from in-situ radiogenic decay of U, Th and K, and accumulated within the upper mantle over a residence time of approximately 1.4 Ga; a subducted atmospheric component, possibly restricted to the heavy noble gases. Our new data from Icelandic sub-glacial basaltic glasses have the highest 20Ne/ 22Ne so far reported in terrestrial samples, indistinguishable from the solar wind value of 13.8. Inferred 4He/ 3He, 21Ne/ 22Ne and 40Ar/ 36Ar ratios in the source are much lower than MORB values, reflecting the presence of a deep mantle component. Measured 22Ne/ 3He ratios are higher than upper mantle values, but correlate with 21Ne/ 4He, implying a recent localised enrichment of Ne in the magma. The implied 22Ne/ 3He ratio prior to this enrichment is identical to MORB estimates. This enrichment and the parallel enrichment in Ne/He appears to require a multi stage process during partial melting, in the magma chamber, and/or during eruption which fortuitously left the ratio of mantle He to Ar and Xe unchanged. 36Ar/ 3He ratios, estimated for the source region, are significantly higher than MORB values implying the introduction of atmospheric 36Ar to the magma at some stage. The samples exhibit only a small 129Xe excess, however, the implied 129Xe(*)/ 3He is indistinguishable from the MORB value. Overall the elemental and isotopic ratios in the Iceland samples support mantle models which predict similar primordial noble gas ratios in the MORB and OIB source regions.
format Article in Journal/Newspaper
author Harrison, D.
Burnard, P.
Turner, G.
author_facet Harrison, D.
Burnard, P.
Turner, G.
author_sort Harrison, D.
title Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume
title_short Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume
title_full Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume
title_fullStr Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume
title_full_unstemmed Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume
title_sort noble gas behaviour and composition in the mantle: constraints from the iceland plume
publishDate 1999
url https://research.manchester.ac.uk/en/publications/5cc0b75b-2797-4294-afc7-b67199a3ca0d
genre Iceland
genre_facet Iceland
op_source Harrison , D , Burnard , P & Turner , G 1999 , ' Noble gas behaviour and composition in the mantle: Constraints from the Iceland plume ' , Earth and Planetary Science Letters , vol. 171 , no. 2 , pp. 199-207 .
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1782335646827806720

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