DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling

In order to reconcile petrological and geophysical observations of magmatic processes in the temporal domain, the uncertainties in diﬀusion timescales need to be rigorously assessed. Here we present a new diﬀusion chronometry method: Diﬀusion chronometry using Finite Elements and Nested Sampling (DF...

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Main Authors:	Mutch, Euan J. F., Maclennan, John, Shorttle, Oliver, Rudge, John F., Neave, David A.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Wiley for AGU 2021
Subjects:	05 - Petrology - Igneous Metamorphic and Volcanic Studies Skuggafjöll Iceland
Online Access:	http://eprints.esc.cam.ac.uk/6029/ http://eprints.esc.cam.ac.uk/6029/1/DFENS_Manuscript_Supplementary_accepted.pdf

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record_format	openpolar
spelling	ftucambridgeesc:oai:eprints.esc.cam.ac.uk:6029 2023-05-15T16:50:59+02:00 DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling Mutch, Euan J. F. Maclennan, John Shorttle, Oliver Rudge, John F. Neave, David A. 2021-03-28 text http://eprints.esc.cam.ac.uk/6029/ http://eprints.esc.cam.ac.uk/6029/1/DFENS_Manuscript_Supplementary_accepted.pdf en eng Wiley for AGU http://eprints.esc.cam.ac.uk/6029/1/DFENS_Manuscript_Supplementary_accepted.pdf Mutch, Euan J. F. and Maclennan, John and Shorttle, Oliver and Rudge, John F. and Neave, David A. (2021) DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling. Geochemistry Geophysics Geosystems - GCubed. ISSN 1525-2027 (Submitted) 05 - Petrology - Igneous Metamorphic and Volcanic Studies Article PeerReviewed 2021 ftucambridgeesc 2021-04-01T22:16:45Z In order to reconcile petrological and geophysical observations of magmatic processes in the temporal domain, the uncertainties in diﬀusion timescales need to be rigorously assessed. Here we present a new diﬀusion chronometry method: Diﬀusion chronometry using Finite Elements and Nested Sampling (DFENS). This method combines a ﬁnite element numerical model with a nested sampling Bayesian inversion, meaning that uncertainties in the parameters contributing to diﬀusion timescale estimates can be obtained and that observations from multiple elements can be used to better constrain individual timescales. Uncertainties associated with diﬀusion timescales can be reduced by accounting for covariance in the uncertainty structure of diﬀusion parameters rather than assuming that they are independent of each other. We applied the DFENS method to the products of the Skuggafjöll eruption from the Bárðarbunga volcanic system in Iceland, which contains zoned macrocrysts of olivine and plagioclase that record a shared magmatic history. Olivine and plagioclase provide consistent pre-eruptive mixing and mush disaggregation timescales of less than 1 year. The DFENS method goes some way towards improving our ability to rigorously address the uncertainties of diﬀusion timescales, 37 but eﬀorts still need to be made to understand other systematic sources of uncertainty such as crystal morphology, appropriate choice of diﬀusion coeﬃcients, initial conditions, crystal growth, and the petrological context of diﬀusion timescales. Article in Journal/Newspaper Iceland University of Cambridge, Department of Earth Sciences: ESC Publications Skuggafjöll ENVELOPE(-18.722,-18.722,63.977,63.977)
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 Mutch, Euan J. F. Maclennan, John Shorttle, Oliver Rudge, John F. Neave, David A. DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling
topic_facet	05 - Petrology - Igneous Metamorphic and Volcanic Studies
description	In order to reconcile petrological and geophysical observations of magmatic processes in the temporal domain, the uncertainties in diﬀusion timescales need to be rigorously assessed. Here we present a new diﬀusion chronometry method: Diﬀusion chronometry using Finite Elements and Nested Sampling (DFENS). This method combines a ﬁnite element numerical model with a nested sampling Bayesian inversion, meaning that uncertainties in the parameters contributing to diﬀusion timescale estimates can be obtained and that observations from multiple elements can be used to better constrain individual timescales. Uncertainties associated with diﬀusion timescales can be reduced by accounting for covariance in the uncertainty structure of diﬀusion parameters rather than assuming that they are independent of each other. We applied the DFENS method to the products of the Skuggafjöll eruption from the Bárðarbunga volcanic system in Iceland, which contains zoned macrocrysts of olivine and plagioclase that record a shared magmatic history. Olivine and plagioclase provide consistent pre-eruptive mixing and mush disaggregation timescales of less than 1 year. The DFENS method goes some way towards improving our ability to rigorously address the uncertainties of diﬀusion timescales, 37 but eﬀorts still need to be made to understand other systematic sources of uncertainty such as crystal morphology, appropriate choice of diﬀusion coeﬃcients, initial conditions, crystal growth, and the petrological context of diﬀusion timescales.
format	Article in Journal/Newspaper
author	Mutch, Euan J. F. Maclennan, John Shorttle, Oliver Rudge, John F. Neave, David A.
author_facet	Mutch, Euan J. F. Maclennan, John Shorttle, Oliver Rudge, John F. Neave, David A.
author_sort	Mutch, Euan J. F.
title	DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling
title_short	DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling
title_full	DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling
title_fullStr	DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling
title_full_unstemmed	DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling
title_sort	dfens: diffusion chronometry using finite elements and nested sampling
publisher	Wiley for AGU
publishDate	2021
url	http://eprints.esc.cam.ac.uk/6029/ http://eprints.esc.cam.ac.uk/6029/1/DFENS_Manuscript_Supplementary_accepted.pdf
long_lat	ENVELOPE(-18.722,-18.722,63.977,63.977)
geographic	Skuggafjöll
geographic_facet	Skuggafjöll
genre	Iceland
genre_facet	Iceland
op_relation	http://eprints.esc.cam.ac.uk/6029/1/DFENS_Manuscript_Supplementary_accepted.pdf Mutch, Euan J. F. and Maclennan, John and Shorttle, Oliver and Rudge, John F. and Neave, David A. (2021) DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling. Geochemistry Geophysics Geosystems - GCubed. ISSN 1525-2027 (Submitted)
_version_	1766041102469562368

DFENS: Diffusion Chronometry using Finite Elements and Nested Sampling

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