Reconstructing holocene geomagnetic field variation : New methods, models and implications
(2014) In Geophysical Journal International 198(1). p.229-248- Abstract
Reconstructions of the Holocene geomagnetic field and how it varies on millennial timescales are important for understanding processes in the core but may also be used to study long-term solar-terrestrial relationships and as relative dating tools for geological and archaeological archives. Here, we present a new family of spherical harmonic geomagnetic field models spanning the past 9000 yr based on magnetic field directions and intensity stored in archaeological artefacts, igneous rocks and sediment records. A new modelling strategy introduces alternative data treatments with a focus on extracting more information from sedimentary data. To reduce the influence of a few individual records all sedimentary data are resampled in 50-yr... (More)
Reconstructions of the Holocene geomagnetic field and how it varies on millennial timescales are important for understanding processes in the core but may also be used to study long-term solar-terrestrial relationships and as relative dating tools for geological and archaeological archives. Here, we present a new family of spherical harmonic geomagnetic field models spanning the past 9000 yr based on magnetic field directions and intensity stored in archaeological artefacts, igneous rocks and sediment records. A new modelling strategy introduces alternative data treatments with a focus on extracting more information from sedimentary data. To reduce the influence of a few individual records all sedimentary data are resampled in 50-yr bins, which also means that more weight is given to archaeomagnetic data during the inversion. The sedimentary declination data are treated as relative values and adjusted iteratively based on prior information. Finally, an alternative way of treating the sediment data chronologies has enabled us to both assess the likely range of age uncertainties, often up to and possibly exceeding 500 yr and adjust the timescale of each record based on comparisons with predictions from a preliminary model. As a result of the data adjustments, power has been shifted from quadrupole and octupole to higher degrees compared with previous Holocene geomagnetic field models. We find evidence for dominantly westward drift of northern high latitude high intensity flux patches at the core mantle boundary for the last 4000 yr. The new models also show intermittent occurrence of reversed flux at the edge of or inside the inner core tangent cylinder, possibly originating from the equator.
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- author
- Nilsson, Andreas LU ; Holme, Richard ; Korte, Monika ; Suttie, Neil and Hill, Mimi
- publishing date
- 2014
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Archaeomagnetism, Palaeointensity, Palaeomagnetic secular variation
- in
- Geophysical Journal International
- volume
- 198
- issue
- 1
- pages
- 20 pages
- publisher
- Oxford University Press
- external identifiers
-
- scopus:84905918453
- ISSN
- 0956-540X
- DOI
- 10.1093/gji/ggu120
- language
- English
- LU publication?
- no
- id
- a3293d8e-9bf7-4a58-984a-2fdad4de9b82
- date added to LUP
- 2016-05-09 12:42:36
- date last changed
- 2022-04-24 07:28:56
@article{a3293d8e-9bf7-4a58-984a-2fdad4de9b82,
abstract = {{<p>Reconstructions of the Holocene geomagnetic field and how it varies on millennial timescales are important for understanding processes in the core but may also be used to study long-term solar-terrestrial relationships and as relative dating tools for geological and archaeological archives. Here, we present a new family of spherical harmonic geomagnetic field models spanning the past 9000 yr based on magnetic field directions and intensity stored in archaeological artefacts, igneous rocks and sediment records. A new modelling strategy introduces alternative data treatments with a focus on extracting more information from sedimentary data. To reduce the influence of a few individual records all sedimentary data are resampled in 50-yr bins, which also means that more weight is given to archaeomagnetic data during the inversion. The sedimentary declination data are treated as relative values and adjusted iteratively based on prior information. Finally, an alternative way of treating the sediment data chronologies has enabled us to both assess the likely range of age uncertainties, often up to and possibly exceeding 500 yr and adjust the timescale of each record based on comparisons with predictions from a preliminary model. As a result of the data adjustments, power has been shifted from quadrupole and octupole to higher degrees compared with previous Holocene geomagnetic field models. We find evidence for dominantly westward drift of northern high latitude high intensity flux patches at the core mantle boundary for the last 4000 yr. The new models also show intermittent occurrence of reversed flux at the edge of or inside the inner core tangent cylinder, possibly originating from the equator.</p>}},
author = {{Nilsson, Andreas and Holme, Richard and Korte, Monika and Suttie, Neil and Hill, Mimi}},
issn = {{0956-540X}},
keywords = {{Archaeomagnetism; Palaeointensity; Palaeomagnetic secular variation}},
language = {{eng}},
number = {{1}},
pages = {{229--248}},
publisher = {{Oxford University Press}},
series = {{Geophysical Journal International}},
title = {{Reconstructing holocene geomagnetic field variation : New methods, models and implications}},
url = {{http://dx.doi.org/10.1093/gji/ggu120}},
doi = {{10.1093/gji/ggu120}},
volume = {{198}},
year = {{2014}},
}