Microwave paleointensity analysis of historic lavas from Paricutín volcano, Mexico

Goguitchaichvili, Avto; Conte, G.; Urrutia‐Fucugauchi, J.; Alva‐Valdivia, Luis M.; Morales, J.; González-Morán, Tomas

doi:10.22201/igeof.00167169p.2005.44.3.195

Cited by 4 publications

(1 citation statement)

References 32 publications

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“…This very recent volcanic activity allows specific studies to be carried out aiming to better understand lava properties, emplacement, lapilli ejection, and deposition in the area, among others. In addition, it furnishes a unique opportunity for rock and paleomagnetism, to better understand how rocks become magnetized during cooling and to investigate to what extent they accurately record both geomagnetic field intensity and magnitude (e.g., [3][4][5][6][7][8][9][10][11][12]). A prerequisite for such studies is the characterization of the rock magnetic carriers, i.e., composition, and grain size of the ferromagnetic (s.l.)…”

Section: Introductionmentioning

confidence: 99%

Rock Magnetism of Lapilli and Lava Flows from Cumbre Vieja Volcano, 2021 Eruption (La Palma, Canary Islands): Initial Reports

et al. 2022

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We present initial rock magnetic results for both lava flows and lapilli produced by the 2021 eruption of the Cumbre Vieja, La Palma (Canary Islands). Samples were taken during the eruption to minimize early alteration and weathering of the rocks and tephra. Standard procedures included progressive alternating field and thermal demagnetization, hysteresis curves, thermomagnetic experiments, progressive acquisition of isothermal remanent magnetization (IRM), and First-Order Reversal Curves (FORCs). Overall, our observations, including low to medium unblocking temperatures, isothermal remanent magnetization to 1 Tesla, and the abundance of wasp-waist hysteresis loops, strongly suggest the presence of Ti-rich titanomagnetites as the main remanence carriers in both lava flows and lapilli, in addition to some hematite as well. Whereas the former has been directly seen (SEM), hematite is elusive with nonmagnetic-based methods. Rock magnetic data, on a Day plot, also reveal that the magnetic grain size tends to be larger in the lava flows than in the lapilli.

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Section: Introductionmentioning

confidence: 99%

Rock Magnetism of Lapilli and Lava Flows from Cumbre Vieja Volcano, 2021 Eruption (La Palma, Canary Islands): Initial Reports

et al. 2022

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Geomagnetic field intensity from Kilauea 1955 and 1960 lava flows: Towards a better understanding of paleointensity

2010

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The record of the Earth's magnetic field intensity during the past (paleointensity) carries important information about the geodynamo and the state of the Earth's interior that is not contained inthe record of its paleodirection. To determine what the critical factors in obtaining reliable estimate of paleointensity are, we present new results of a paleointensity study of the 1955 and 1960 Kilauea volcano lava flows, from the Big Island of Hawaii. Rock magnetic measurements on representative hand samples from each flow in conjunction with reflected light microscopy observations show the primary carriers of remanence to be pseudo-single domain titanomagnetite with various titanium contents. Paleointensity samples (small fragments previously embedded into salt pellets) were subjected to the Thellier-Coe experimental procedure. Fourteen temperature steps were distributed over the entire temperature range used (ambient temperature to 570C). Control heating steps (commonly referred to as partial thermo-remanent magnetizationpTRM checks) were also conducted each third double heating step. Mean field intensity value (36.6 ± 0.7 µT) retrieved from 3 reliable site mean determinations reproduces the expected value within 1.1%. With the knowledge of the rock magnetic characteristics of the samples and the strength of the geomagnetic field during cooling of the lava, our investigation suggests that the Hawaiian lavas can faithfully record the local geomagnetic field and confirms that the Thellier-Coe type techniques are suitable on historical lava flows to yield reliable absolute paleointensity determinations. The variations in direct field measurements and in lab paleofield determinations may reflect local heterogeneities of the lava or influence of very local field anomalies due to the volcanic underlying terrain. These results underscore the importance that a better understanding of intensity results of historical lava flows is still required if reliable paleointensity determinations of older periods, for which we do not know the answer, are sought. K e y w o r d s : geomagnetic field intensity, historic lava flow, Kilauea J. Morales et al. 562 Stud. Geophys. Geod., 54 (2010)

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An integrated magnetic survey on lava flows associated to the Paricutin volcano (Western Mexico)

López‐Loera

Nava

Goguitchaichvili

et al. 2021

Journal of South American Earth Sciences

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Microwave paleointensity analysis of historic lavas from Paricutín volcano, Mexico

Cited by 4 publications

References 32 publications

Rock Magnetism of Lapilli and Lava Flows from Cumbre Vieja Volcano, 2021 Eruption (La Palma, Canary Islands): Initial Reports

Rock Magnetism of Lapilli and Lava Flows from Cumbre Vieja Volcano, 2021 Eruption (La Palma, Canary Islands): Initial Reports

Geomagnetic field intensity from Kilauea 1955 and 1960 lava flows: Towards a better understanding of paleointensity

An integrated magnetic survey on lava flows associated to the Paricutin volcano (Western Mexico)

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