Differentiation and Compaction in the Skaergaard Intrusion

Igneous differentiation processes are constrained from bulk compositions, densities and mineral modes of 116 cumulate gabbro samples in a new reference profile through the Layered Series of the Skaergaard intrusion, East Greenland. The stratigraphic distribution of P, U and Rb in cumulates and resid...

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Published in:Journal of Petrology
Main Authors: Tegner, C., Bandopadhyay, P.C., Holness, M. B., Jakobsen, J. K., Lesher, C. E.
Format: Article in Journal/Newspaper
Language:English
Published: Oxford Journals, Oxford University Press 2009
Subjects:
05 - Petrology - Igneous
Metamorphic and Volcanic Studies
Greenland
East Greenland
Online Access:http://eprints.esc.cam.ac.uk/1094/
http://eprints.esc.cam.ac.uk/1094/1/Holness_J_Pet_50_1_2009.pdf
http://petrology.oxfordjournals.org/cgi/content/abstract/50/5/813
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spelling ftucambridgeesc:oai:eprints.esc.cam.ac.uk:1094 2023-05-15T16:03:54+02:00 Differentiation and Compaction in the Skaergaard Intrusion Tegner, C. Bandopadhyay, P.C. Holness, M. B. Jakobsen, J. K. Lesher, C. E. 2009-05 application/pdf http://eprints.esc.cam.ac.uk/1094/ http://eprints.esc.cam.ac.uk/1094/1/Holness_J_Pet_50_1_2009.pdf http://petrology.oxfordjournals.org/cgi/content/abstract/50/5/813 en eng Oxford Journals, Oxford University Press http://eprints.esc.cam.ac.uk/1094/1/Holness_J_Pet_50_1_2009.pdf Tegner, C. and Bandopadhyay, P.C. and Holness, M. B. and Jakobsen, J. K. and Lesher, C. E. (2009) Differentiation and Compaction in the Skaergaard Intrusion. Journal of Petrology, 50 (5). pp. 813-840. ISSN Print ISSN 0022-3530 - Online ISSN 1460-2415 DOI https://doi.org/10.1093/petrology/egp020 <https://doi.org/10.1093/petrology/egp020> 05 - Petrology - Igneous Metamorphic and Volcanic Studies Article PeerReviewed 2009 ftucambridgeesc https://doi.org/10.1093/petrology/egp020 2020-08-27T18:08:45Z Igneous differentiation processes are constrained from bulk compositions, densities and mineral modes of 116 cumulate gabbro samples in a new reference profile through the Layered Series of the Skaergaard intrusion, East Greenland. The stratigraphic distribution of P, U and Rb in cumulates and residual magma, modeled by Rayleigh fractionation, constrains the final porosities or trapped liquid contents to 30-52% in LZa troctolites, decreasing to 4-12% at the top of LZb olivine-gabbros and remaining low (1-13%; 4{middle dot}6% on average) in the oxide-gabbros of LZc, MZ and UZ. Local variations in trapped liquid content are associated with modal layering: leucocratic, low-density rocks have higher proportions of trapped melt than adjacent melanocratic, high-density rocks. These observations are explained by varying degrees of compaction. Compaction was most important after the onset of Fe-Ti oxide crystallization because of the high densities of the crystal matrix. Here computed rates of compaction exceed the rate of crystal accumulation in layers that are metres to a few tens of metres thick. In the basal section (LZa) the crystal pile was too thin and the density of the crystal matrix too low to drive the rate of compaction above the high rate of crystal accumulation promoted by initial cooling through the intrusion floor. In the overlying section (LZb) the efficiency of compaction gradually increased as a result of thickening of the crystal pile and lowering of the rate of crystal accumulation. The modeling constrains the P2O5 content of the residual magma to [~]1{middle dot}7 wt % at the level of apatite-in, suggesting that the magma contained [~]49 wt % SiO2 and followed a trend of iron enrichment. Compaction of the uppermost metres to tens of metres of crystal mush at the top of the cumulate pile was an efficient means of differentiation and resulted in layers with variable final porosities and trace element contents depending on the mineralogy and density of the crystal matrix. Article in Journal/Newspaper East Greenland Greenland University of Cambridge, Department of Earth Sciences: ESC Publications Greenland Journal of Petrology 50 5 813 840
institution Open Polar
collection University of Cambridge, Department of Earth Sciences: ESC Publications
op_collection_id ftucambridgeesc
language English
topic 05 - Petrology - Igneous
Metamorphic and Volcanic Studies
spellingShingle 05 - Petrology - Igneous
Metamorphic and Volcanic Studies
Tegner, C.
Bandopadhyay, P.C.
Holness, M. B.
Jakobsen, J. K.
Lesher, C. E.
Differentiation and Compaction in the Skaergaard Intrusion
topic_facet 05 - Petrology - Igneous
Metamorphic and Volcanic Studies
description Igneous differentiation processes are constrained from bulk compositions, densities and mineral modes of 116 cumulate gabbro samples in a new reference profile through the Layered Series of the Skaergaard intrusion, East Greenland. The stratigraphic distribution of P, U and Rb in cumulates and residual magma, modeled by Rayleigh fractionation, constrains the final porosities or trapped liquid contents to 30-52% in LZa troctolites, decreasing to 4-12% at the top of LZb olivine-gabbros and remaining low (1-13%; 4{middle dot}6% on average) in the oxide-gabbros of LZc, MZ and UZ. Local variations in trapped liquid content are associated with modal layering: leucocratic, low-density rocks have higher proportions of trapped melt than adjacent melanocratic, high-density rocks. These observations are explained by varying degrees of compaction. Compaction was most important after the onset of Fe-Ti oxide crystallization because of the high densities of the crystal matrix. Here computed rates of compaction exceed the rate of crystal accumulation in layers that are metres to a few tens of metres thick. In the basal section (LZa) the crystal pile was too thin and the density of the crystal matrix too low to drive the rate of compaction above the high rate of crystal accumulation promoted by initial cooling through the intrusion floor. In the overlying section (LZb) the efficiency of compaction gradually increased as a result of thickening of the crystal pile and lowering of the rate of crystal accumulation. The modeling constrains the P2O5 content of the residual magma to [~]1{middle dot}7 wt % at the level of apatite-in, suggesting that the magma contained [~]49 wt % SiO2 and followed a trend of iron enrichment. Compaction of the uppermost metres to tens of metres of crystal mush at the top of the cumulate pile was an efficient means of differentiation and resulted in layers with variable final porosities and trace element contents depending on the mineralogy and density of the crystal matrix.
format Article in Journal/Newspaper
author Tegner, C.
Bandopadhyay, P.C.
Holness, M. B.
Jakobsen, J. K.
Lesher, C. E.
author_facet Tegner, C.
Bandopadhyay, P.C.
Holness, M. B.
Jakobsen, J. K.
Lesher, C. E.
author_sort Tegner, C.
title Differentiation and Compaction in the Skaergaard Intrusion
title_short Differentiation and Compaction in the Skaergaard Intrusion
title_full Differentiation and Compaction in the Skaergaard Intrusion
title_fullStr Differentiation and Compaction in the Skaergaard Intrusion
title_full_unstemmed Differentiation and Compaction in the Skaergaard Intrusion
title_sort differentiation and compaction in the skaergaard intrusion
publisher Oxford Journals, Oxford University Press
publishDate 2009
url http://eprints.esc.cam.ac.uk/1094/
http://eprints.esc.cam.ac.uk/1094/1/Holness_J_Pet_50_1_2009.pdf
http://petrology.oxfordjournals.org/cgi/content/abstract/50/5/813
geographic Greenland
geographic_facet Greenland
genre East Greenland
Greenland
genre_facet East Greenland
Greenland
op_relation http://eprints.esc.cam.ac.uk/1094/1/Holness_J_Pet_50_1_2009.pdf
Tegner, C. and Bandopadhyay, P.C. and Holness, M. B. and Jakobsen, J. K. and Lesher, C. E. (2009) Differentiation and Compaction in the Skaergaard Intrusion. Journal of Petrology, 50 (5). pp. 813-840. ISSN Print ISSN 0022-3530 - Online ISSN 1460-2415 DOI https://doi.org/10.1093/petrology/egp020 <https://doi.org/10.1093/petrology/egp020>
op_doi https://doi.org/10.1093/petrology/egp020
container_title Journal of Petrology
container_volume 50
container_issue 5
container_start_page 813
op_container_end_page 840
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