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One Hundred Thousand Years of Geomagnetic Field Evolution (2021)

Panovska, S. ; Korte, M. ; Constable, C. G.

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Publication Date: 2021-07-26

Description: Paleomagnetic records from sediments, archeological artifacts, and lava flows provide the foundation for studying geomagnetic field changes over 0–100 ka. Late Quaternary time-varying spherical harmonic models for 0–100 ka produce a global view used to evaluate new data records, study the paleomagnetic secular variation on centennial to multimillennial timescales, and investigate extreme regional or global events such as the Laschamp geomagnetic excursion. Recent modeling results (GGF100k and LSMOD.2) are compared to previous studies based on regional or global stacks and averages of relative geomagnetic paleointensity variations. Time-averaged field structure is similar on Holocene, 100 ky, and million-year timescales. Paleosecular variation activity varies greatly over 0–100 ka, with large changes in field strength and significant morphological changes that are especially evident when field strength is low. GGF100k exhibits a factor of 4 variation in geomagnetic axial dipole moment, and higher-resolution models suggest that much larger changes are likely during global excursions. There is some suggestion of recurrent field states resembling the present-day South Atlantic Anomaly, but these are not linked to initiation or evolution of excursions. Several properties used to characterize numerical dynamo simulations as “Earth-like” are evaluated and, in future, improved models may yet reveal systematic changes linked to the onset of geomagnetic excursions. Modeling results are useful in applications ranging from ground truth and data assimilation in geodynamo simulations to providing geochronological constraints and modeling the influence of geomagnetic variations on cosmogenic isotope production rates.

Keywords: 538.7 ; Holocene ; paleomagnetic records ; geomagnetic field variations

Language: English

Type: article

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Can we identify mantle influence in paleomagnetic field reconstructions with help form geodynamo simulations? (2020)

Korte, M. ; Constable, C. ; Davies, C. ; [et al.]

In: Abstracts

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Publication Date: 2021-02-05

Language: English

Type: info:eu-repo/semantics/conferenceObject

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Novel insights on the geomagnetic field in West Africa from a new intensity reference curve (0-2000 AD). (2020)

Kapper, L. ; Serneels, V. ; Panovska, S. ; [et al.]

In: Scientific Reports

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Publication Date: 2020-12-14

Description: The geomagnetic field variations on the continent of Africa are still largely undeciphered for the past two millennia. In spite of archaeological artefacts being reliable recorders of the ancient geomagnetic field strength, only few data have been reported for this continent so far. Here we use the Thellier-Coe and calibrated pseudo-Thellier methods to recover archaeointensity data from Burkina Faso and Ivory Coast (West Africa) from well-dated archaeological artefacts. By combining our 18 new data with previously published data from West Africa, we construct a reference curve for West Africa for the past 2000 years. To obtain a reliable curve of the archaeointensity variation, we evaluate a penalized smoothing spline fit and a stochastic modelling method, both combined with a bootstrap approach. Both intensity curves agree well, supporting the confidence in our proposed intensity variation during this time span, and small differences arise from the different methodologies of treating data and uncertainties. Two prominent peaks at around 740 AD and 1050 AD appear to be common in ours and several reference curves from other locations, indicating a general westward movement from China to Hawaii of a rather stable feature of the geomagnetic field. However, independent smaller peaks that do not correlate in different locations may hint to localized expressions of the geomagnetic field as a result of temporarily varying non-dipole sources.

Language: English

Type: info:eu-repo/semantics/article

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The Norwegian‐Greenland Sea, the Laschamps and the Mono Lake excursions recorded in a Black Sea sedimentary sequence spanning from 68.9 to 14.5 ka (2020)

Liu, J. ; Nowaczyk, N. ; Panovska, S. ; [et al.]

In: Journal of Geophysical Research: Solid Earth

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Publication Date: 2020-12-14

Description: A full vector paleomagnetic record, comprising directional data and relative paleointensity (rPI), was derived from 16 sediment cores recovered from the southeastern Black Sea. The obtained data were used to create a stack covering the time window between 68.9 and 14.5 ka. Age models are based on radiocarbon dating and correlations of warming/cooling cycles monitored by high‐resolution X‐ray fluorescence (XRF) elementary ratios as well as by ice‐rafted debris (IRD) in Black Sea sediments to the sequence of ‘Dansgaard‐Oeschger’ (D‐O) events defined from the Greenland ice core oxygen isotope stratigraphy. The reconstructed prominent lows in paleointensity at about 64.5 ka, 41.2 ka and 34.5 ka are coeval with the Norwegian–Greenland Sea, the Laschamps, and the Mono Lake excursions, respectively. For a further analysis, the stacked Black Sea paleomagnetic record was converted into one component being parallel to the direction expected from a geocentric axial dipole (GAD) and two components perpendicular to it (EW, inclined NS), representing definitely only non‐GAD components of the geomagnetic field. Discussions of the field configurations at the Black Sea site are focused on the three excursional events. The Norwegian‐Greenland Sea excursion was dominated by a decaying axial dipole and persisting weak non‐dipole field, with directional variations still within the range of normal secular variations. The Laschamps excursion comprises two full polarity transitions and a short stable interval of reversed polarity in between. The Mono Lake excursion was mostly dominated by a non‐dipole field, though with a less pronounced weakening of the axial dipole component.

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Global dynamics of the geomagnetic field in the 15-70 kyr period: New results from selected paleomagnetic sediment records. (2020)

Panovska, S. ; Korte, M. ; Liu, J. ; [et al.]

In: Abstracts

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Publication Date: 2021-01-29

Language: English

Type: info:eu-repo/semantics/conferenceObject

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The Global Geomagnetic Field of the Past Hundred Thousand Years. (2020)

Panovska, S. ; Korte, M. ; Constable, C.

In: Eos, Transactions American Geophysical Union

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Publication Date: 2021-02-08

Description: Global data compilations and the production of time-varying paleomagnetic field models over the past hundred thousand years provide insights into geomagnetic field evolution.

Language: English

Type: info:eu-repo/semantics/article

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