Assessment of the usefulness of lithic clasts from pyroclastic deposits for paleointensity determination
Assessment of the usefulness of lithic clasts from pyroclastic deposits for paleointensity determination
Paleomagnetic and rock magnetic measurements were carried out on lithic clasts found within pyroclastic deposits to assess their potential for paleointensity determinations. The use of multiple lithologies in a single paleointensity determination would provide confidence that the result is not biased by alteration within one lithology. Lithic clasts were sampled from three historically active volcanoes: Láscar in the Chilean Andes, Mt. St. Helens, United States, and Vesuvius, Italy. At Láscar, triple heating paleointensity experiments allow development of new selection criteria for lithic clasts found within pyroclastic deposits. Using these criteria, the Láscar data yield a mean paleointensity of 24.3 ± 1.3 ?T (1?, N = 26), which agrees well with the expected value of 24.0 ?T. This indicates that pyroclastic rocks have promise for paleointensity determinations. Pyroclastics, however, still suffer from the range of problems associated with conventional paleointensity experiments on lava flows. Samples from Mt. St. Helens are strongly affected by multidomain (MD) behavior, which results in all samples failing to pass the paleointensity selection criteria. At Vesuvius, MD grains, magnetic interactions, and chemical remanent magnetizations contributed to failure of all paleointensity experiments. Rock magnetic analyses allow identification of the causes of failure of the paleointensity experiments. However, in this study, they have not provided adequate preselection criteria for identifying pyroclastics that are suitable for paleointensity determination.
B03104
Paterson, Greig A.
af24fc9c-0679-4abc-8aed-b8b00326f82a
Muxworthy, Adrian R.
7fa5c819-b5ca-4354-83df-f9481b16ed1e
Roberts, Andrew P.
4f062491-5408-4edb-8dd1-140c6a42e93f
Mac Niocaill, Conall
67169dfb-3ae5-434b-8893-ee8410b16443
2010
Paterson, Greig A.
af24fc9c-0679-4abc-8aed-b8b00326f82a
Muxworthy, Adrian R.
7fa5c819-b5ca-4354-83df-f9481b16ed1e
Roberts, Andrew P.
4f062491-5408-4edb-8dd1-140c6a42e93f
Mac Niocaill, Conall
67169dfb-3ae5-434b-8893-ee8410b16443
Paterson, Greig A., Muxworthy, Adrian R., Roberts, Andrew P. and Mac Niocaill, Conall
(2010)
Assessment of the usefulness of lithic clasts from pyroclastic deposits for paleointensity determination.
Journal of Geophysical Research, 115 (B3), .
(doi:10.1029/2009JB006475).
Abstract
Paleomagnetic and rock magnetic measurements were carried out on lithic clasts found within pyroclastic deposits to assess their potential for paleointensity determinations. The use of multiple lithologies in a single paleointensity determination would provide confidence that the result is not biased by alteration within one lithology. Lithic clasts were sampled from three historically active volcanoes: Láscar in the Chilean Andes, Mt. St. Helens, United States, and Vesuvius, Italy. At Láscar, triple heating paleointensity experiments allow development of new selection criteria for lithic clasts found within pyroclastic deposits. Using these criteria, the Láscar data yield a mean paleointensity of 24.3 ± 1.3 ?T (1?, N = 26), which agrees well with the expected value of 24.0 ?T. This indicates that pyroclastic rocks have promise for paleointensity determinations. Pyroclastics, however, still suffer from the range of problems associated with conventional paleointensity experiments on lava flows. Samples from Mt. St. Helens are strongly affected by multidomain (MD) behavior, which results in all samples failing to pass the paleointensity selection criteria. At Vesuvius, MD grains, magnetic interactions, and chemical remanent magnetizations contributed to failure of all paleointensity experiments. Rock magnetic analyses allow identification of the causes of failure of the paleointensity experiments. However, in this study, they have not provided adequate preselection criteria for identifying pyroclastics that are suitable for paleointensity determination.
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Published date: 2010
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Local EPrints ID: 151345
URI: http://eprints.soton.ac.uk/id/eprint/151345
ISSN: 0148-0227
PURE UUID: 81a694a0-c115-4434-833f-03df5a827655
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Date deposited: 10 May 2010 13:22
Last modified: 14 Mar 2024 01:20
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Author:
Greig A. Paterson
Author:
Adrian R. Muxworthy
Author:
Andrew P. Roberts
Author:
Conall Mac Niocaill
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