A new set of qualitative reliability criteria to aid inferences on palaeomagnetic dipole moment variations through geological time

Biggin, Andrew J.; Paterson, Greig A.

doi:10.3389/feart.2014.00024

Cited by 77 publications

(65 citation statements)

References 56 publications

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“…The scaling involves one multiplicative constant per time series so that the ratio of mean to variance is preserved within each time series. This is to be distinguished from separate scaling of the mean and variance sometimes used (e.g., Guyodo and Valet, 1999;Channell et al, 2009). Next, a PML model is made from the joint absolute and scaled RPI data set, in which the misfit criterion is a maximum likelihood (L1) norm and 2nd derivative regularization is used to minimize temporal complexity while allowing a reasonable level of misfit.…”

Section: Modeling Methodsmentioning

confidence: 99%

“…However, because of limited data availability, the GAD approximation has been invoked on these time scales to produce time-varying reconstructions of axial dipole field strength based only on paleointensity data (Valet et al, 2005;Channell et al, 2009;. These studies have yielded significant insights into long-term axial dipole field variations.…”

Section: Introductionmentioning

confidence: 99%

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Testing the geocentric axial dipole hypothesis using regional paleomagnetic intensity records from 0 to 300 ka

Ziegler

Constable

2015

Earth and Planetary Science Letters

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Section: Modeling Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Testing the geocentric axial dipole hypothesis using regional paleomagnetic intensity records from 0 to 300 ka

Ziegler

Constable

2015

Earth and Planetary Science Letters

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“…8) which stipulates that the number of sample palaeointensity measurements comprising the mean is $5 and that the associated standard deviation is # 25% of the mean value.…”

Section: Letter Researchmentioning

confidence: 99%

“…Previous studies searching for this signature have been hampered by the paucity of palaeomagnetic intensity measurements, by the lack of an effective means of assessing their reliability, and by shorter-timescale geomagnetic variations. Here we examine results from an expanded Precambrian database of palaeomagnetic intensity measurements 7 selected using a new set of reliability criteria 8 . Our analysis provides intensity-based support for the dominant dipolarity of the time-averaged Precambrian field, a crucial requirement for palaeomagnetic reconstructions of continents.…”

mentioning

confidence: 99%

“…An additional criterion 'MAG' was added to the original 8 criteria outlined in ref. 8, which stipulates that the associated raw measurement data must be publicly available for scrutiny (the MagIC database http://earthref.org/MAGIC/ provides the ideal venue for these). It was recently observed that thermoremanent magnetization (TRM) preserved in non-single domain grains can be meta-stable, producing an additional potential source of bias to palaeointensity estimates 23 .…”

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confidence: 99%

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Palaeomagnetic field intensity variations suggest Mesoproterozoic inner-core nucleation

Biggin

Piispa

Pesonen

et al. 2015

Nature

190

136

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The Earth's inner core grows by the freezing of liquid iron at its surface. The point in history at which this process initiated marks a step-change in the thermal evolution of the planet. Recent computational and experimental studies have presented radically differing estimates of the thermal conductivity of the Earth's core, resulting in estimates of the timing of inner-core nucleation ranging from less than half a billion to nearly two billion years ago. Recent inner-core nucleation (high thermal conductivity) requires high outer-core temperatures in the early Earth that complicate models of thermal evolution. The nucleation of the core leads to a different convective regime and potentially different magnetic field structures that produce an observable signal in the palaeomagnetic record and allow the date of inner-core nucleation to be estimated directly. Previous studies searching for this signature have been hampered by the paucity of palaeomagnetic intensity measurements, by the lack of an effective means of assessing their reliability, and by shorter-timescale geomagnetic variations. Here we examine results from an expanded Precambrian database of palaeomagnetic intensity measurements selected using a new set of reliability criteria. Our analysis provides intensity-based support for the dominant dipolarity of the time-averaged Precambrian field, a crucial requirement for palaeomagnetic reconstructions of continents. We also present firm evidence for the existence of very long-term variations in geomagnetic strength. The most prominent and robust transition in the record is an increase in both average field strength and variability that is observed to occur between a billion and 1.5 billion years ago. This observation is most readily explained by the nucleation of the inner core occurring during this interval; the timing would tend to favour a modest value of core thermal conductivity and supports a simple thermal evolution model for the Earth.

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Paleoproterozoic Geomagnetic Field Strength From the Avanavero Mafic Sills, Amazonian Craton, Brazil

Chiara

Muxworthy

Trindade³

et al. 2017

Geochem Geophys Geosyst

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A recent hypothesis has suggested that Earth's inner core nucleated during the Mesoproterozoic, as evidenced by a rapid increase in the paleointensity (ancient geomagnetic field intensity) record; however, paleointensity data during the Paleoproterozoic and Mesoproterozoic period are limited. To address this problem, we have determined paleointensity from samples from three Paleoproterozoic Avanavero mafic sills (Amazonian Craton, Brazil): Cotingo, 1,782 Ma, Puiuà, 1,788 Ma, and Pedra Preta, 1,795 Ma. We adopted a multiprotocol approach for paleointensity estimates combining Thellier‐type IZZI and LTD‐IZZI methods, and the nonheating Preisach protocol. We obtained an average VDM value of 1.3 ± 0.7 × 1022Am2 (Cotingo) of 2.0 ± 0.4 × 1022Am2 (Puiuà) and 6 ± 4 × 1022Am2 (Pedra Preta); it is argued that the Cotingo estimate is the most robust. Our results are the first data from the upper Paleoproterozoic for South America and are comparable to data available from other regions and similar periods. The new data do not invalidate the hypothesis of that Earth's inner core nucleated during the Mesoproterozoic.

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A new set of qualitative reliability criteria to aid inferences on palaeomagnetic dipole moment variations through geological time

Cited by 77 publications

References 56 publications

Testing the geocentric axial dipole hypothesis using regional paleomagnetic intensity records from 0 to 300 ka

Testing the geocentric axial dipole hypothesis using regional paleomagnetic intensity records from 0 to 300 ka

Palaeomagnetic field intensity variations suggest Mesoproterozoic inner-core nucleation

Paleoproterozoic Geomagnetic Field Strength From the Avanavero Mafic Sills, Amazonian Craton, Brazil

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