Preliminary absolute paleointensity estimation from a single volcanic-glass grain extracted from an unwelded pyroclastic flow

Many pyroclastic flows are distributed around Japan. They usually involve volcanic-glass grains. These grains are considered to form at the timing of volcanic eruptions and are expected to have magnetic inclusions consisting of tiny single (titano)magnetites with recording the paleomagnetic field. We have extracted single volcanic-glass grains of pumice-type with a diameter of 0.60-0.84 mm from an unwelded part of the Ito pyroclastic flow deposits (A-Ito, 26-29 ka; Machida and Arai, 2003), Kyusyu, Japan. A series of rock- and paleomagnetic measurements have been made on the grains.Sixty-seven out of 88 grains had detectable intensities of natural remanent magnetization. Some of such grains were further investigated. Results of low-temperature magnetometry exhibited inflection points at 105-120 K, suggesting magnetite as a main remenence carrier. Stepwise alternating field demagnetization revealed an existence of stable characteristic remanence (ChRM) which was interpreted to be a primary component.&#160;Tsunakawa-Shaw method (Tsunakawa and Shaw, 1994; Yamamoto et al., 2003), one of the latest absolute paleointensity (API) techniques to date, was applied to selected grains having stable ChRMs. On the application we newly included measurements related to an isothermal remanent magnetization (IRM). Four successful results were obtained by an adoption of IRM corrections, giving an average API value of about 25 &#956;T. This corresponds to a virtual axial dipole moment (VADM) of about 50 ZAm2, which is consistent with the contemporaneous VADM of the sedimentary record (PISO-1500; Channell et al., 2009).&#160;

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Evidence of Single-Domain Magnetite in the Michikamau Anorthosite

Canadian Journal of Earth Sciences ◽

10.1139/e71-036 ◽

1971 ◽

Vol 8 (3) ◽

pp. 361-370 ◽

Cited By ~ 49

Author(s):

G. S. Murthy ◽

M. E. Evans ◽

D. I. Gough

Keyword(s):

Remanent Magnetization ◽

Theoretical Models ◽

Natural Remanent Magnetization ◽

Single Domain ◽

Isothermal Remanent Magnetization ◽

Mineral Separation ◽

Domain Configuration ◽

Plagioclase Felspar ◽

Magnetite Particles ◽

Theoretical Evidence

The Michikamau anorthosite possesses very stable natural remanent magnetization, some of which resists alternating fields up to 1800 Oe. The rock contains two types of opaque grains, fine opaque needles of order 10 × 0.5 μ in the plagioclase felspar, and large equidimensional magnetite particles. Ore microscope studies suggest, but do not establish, that the needles are composed of magnetite. Saturation isothermal remanence and thermal demagnetization studies indicate magnetite as the carrier of remanent magnetization. In order to distinguish the effects of the large grains from those of the needles, mineral separation was used to show that an artificial specimen of essentially pure plagioclase had very similar isothermal remanent magnetization properties to the whole rock. Both indicated magnetite as the magnetic mineral. Thermoremanent properties of the separated mineral fractions indicated magnetite as the dominant magnetic constituent but showed some evidence of laboratory-produced hematite. Theoretical models of grains elongated along [111] and [110] axes are used to show that magnetite needles can exist in stable single-domain configuration in the size and shape ranges of the needles observed in the Michikamau anorthosite. There is thus considerable experimental and theoretical evidence for the conclusion that the stable remanent magnetization of the Michikamau anorthosite is carried by fine single–domain needles of magnetite in the plagioclase felspar.

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Magnetic characteristics of Luna 16 and 20 samples

Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences ◽

10.1098/rsta.1977.0005 ◽

1977 ◽

Vol 284 (1319) ◽

pp. 151-156 ◽

Cited By ~ 1

Keyword(s):

Grain Size ◽

Iron Content ◽

Remanent Magnetization ◽

Natural Remanent Magnetization ◽

Magnetic Behaviour ◽

Heavy Fraction ◽

Magnetic Characteristics ◽

Iron Particles ◽

Isothermal Remanent Magnetization ◽

Rock Fragments

The natural remanent magnetization of rock fragments L2015,3,1 and L2015,3,11 was found to be < 3.5 x 10 -7 and < 40 x 10 -6 G cm 3 g -1 respectively. The former sample, from isothermal remanent magnetization (i.r.m.) measurements, contained very little iron, while the latter sample had a much higher iron content and exhibited i.r.m. characteristics similar to breccia samples from Apollo missions. Susceptibility and i.r.m. measurements have shown that Luna 16 fines contain about four times as much iron as Luna 20 samples and that the light fractions from the density separations contain about twice as much iron as the heavy fraction. Like the Apollo fines, the magnetic behaviour of Luna 16 and 20 fines is dominated by small iron particles, most of which are superparamagnetic and of grain size less than about 13 nm.

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Application of the pseudo-Thellier technique to a paleomagnetic record from lake El Trébol (Patagonia, Argentina)

Geofísica Internacional ◽

10.22201/igeof.00167169p.2008.47.4.2144 ◽

2008 ◽

Vol 47 (4) ◽

pp. 319-327

Author(s):

C. S. G. Gogorza ◽

S. Torcida ◽

A. M. Sinito ◽

M. A. E. Chaparro

Keyword(s):

Magnetic Susceptibility ◽

Error Estimates ◽

Sediment Core ◽

Standard Method ◽

Remanent Magnetization ◽

Reasonable Agreement ◽

Natural Remanent Magnetization ◽

Isothermal Remanent Magnetization ◽

Low Field ◽

Relative Paleointensity

The pseudo-Thellier technique was applied to obtain relative paleointensity determinations using a sediment core from Lake El Tre?bol (Patagonia, Argentina). Measurements of intensity of natural remanent magnetization left (NRMleft) after AF demagnetization versus intensity of anhysteric remanent magnetization gained (ARMgained) at the same peak were carried out on a set of samples. Two versions of a jackknife resampling scheme were used to get error estimates on the paleointensity. The pseudo-Thellier paleointensity records were compared with the authors previous results where the remanent magne- tization at 20mT (NRM20mT) has been normalized using the anhysteric remanent magnetization at 20mT (ARM20mT), the satu- ration of the isothermal remanent magnetization at 20mT (SIRM20mT) and the low field magnetic susceptibility (k) (Gogorza et al., 2006). The pseudo-Thellier record shows a reasonable agreement with the standard method of normalization (NRM20mT/ ARM20mT).

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Phytoliths as an indicator of change in vegetation related to the huge volcanic eruption at 7.3 ka in the southernmost part of Kyushu, southern Japan

The Holocene ◽

10.1177/0959683620988057 ◽

2021 ◽

Vol 31 (5) ◽

pp. 709-719

Author(s):

Naoki Hayashi ◽

Yudzuru Inoue ◽

Tatsuichiro Kawano ◽

Jun Inoue

Keyword(s):

Pyroclastic Flow ◽

Vegetation Change ◽

Volcanic Eruptions ◽

Pyroclastic Flows ◽

Evergreen Forest ◽

Study Region ◽

Forest Sites ◽

Before And After ◽

Kyushu District

Volcanic eruptions can have a significant influence on adjacent ecosystems; however, little is known about the long-term vegetation change related to eruptions. In this study, we examined phytolith records in paleosols at multiple sites in the southern Kyushu District, Japan, to assess the influence of the Kikai caldera eruption 7300 years ago on vegetation. Our results show the vegetational difference before and after the eruption in the study region. Specifically, in the area where the pyroclastic flows distributed more thickly, the original evergreen forest was replaced by Andropogoneae grasslands after the eruption, which has been dominating the landscape in this area for at least 900 years. By contrast, in areas only mildly affected by pyroclastic flows, despite the temporary replacement of forest by grassland, the forest developed and flourished within several hundreds of years of the eruption. This is because a large amount of pyroclastic flow would have devastated all of the vegetation, whereas smaller amounts would have left some untouched forest sites within refugia. Our findings suggest that the vegetation varied significantly depending on the amount of pyroclastic flow reaching the area, even within the pyroclastic flow distributed region.

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Magnetic Properties of Coring Samples from Aceh Basin West Off Sumatera Island

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.896.434 ◽

2014 ◽

Vol 896 ◽

pp. 434-439

Author(s):

Eddy Z. Gaffar

Keyword(s):

Remanent Magnetization ◽

Natural Remanent Magnetization ◽

Magnetic Polarity ◽

Isothermal Remanent Magnetization ◽

Reverse Polarity ◽

Geologic Time ◽

The Third ◽

Geologic Time Scale ◽

The Last Glacial Maximum ◽

The Last Glacial

Three oriented core samples was taken by Japanese MIRAI Research Vessel in Aceh Basin west of the Sumatera Island. 927 small box samples from 3 coring samples was measure. Core bottom ages of three cores are in the last glacial maximum (around 19 kyBP). We measured Natural Remanent Magnetization (NRM), NRM after Alternating Field Demagnetization up to 800 Oe. Measurement of NRM have done by 2G Enterprice Squid, Isothermal Remanent Magnetization (IRM) and Anhysteretic Remanent Magnetization (ARM) on Paleomagnetic Laboratory of Geological Survey of Japan. Result of NRM after Alternating Field Demagnetization shows that there are reverse polarizaty magnetizations. This reverse polarity seems not usual since in Geologic Time Scale 1989 showed that the first reversal polarity was between Brunches Normal Epoch and Jaramillo Epoch beginning at 0.75 Ma There are some possibility of reverse polarity events contained in the three cores mentioned above. The first possibility is the result of the tsunami so that the sediment that settles on the Aceh Basin was a sediment that remain turbid flows that enable magnetic recording on magnetic sediment did not follow directions when he formed so that it seems a polarity reverse polarity when only superficial. The second possibility is indeed occurs under reverse polarity at age 700.000 years. Research in Argentina, South America show that between 11 thousand to two thousand years ago there was an excursion from the magnetic polarity produces some reverse polarity at the time (Nami, 1999). The third possibility was circular variation magnetic.

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ARCHAEOMAGNETIC STUDIES IN KILNS FROM N. GREECE

Bulletin of the Geological Society of Greece ◽

10.12681/bgsg.11380 ◽

2017 ◽

Vol 43 (4) ◽

pp. 1888 ◽

Cited By ~ 2

Author(s):

E. Aidona ◽

D. Kondopoulou ◽

M. Alexandrou ◽

N. Ioannidis

Keyword(s):

Magnetic Field ◽

Remanent Magnetization ◽

Natural Remanent Magnetization ◽

Archaeological Sites ◽

Isothermal Remanent Magnetization ◽

Thermomagnetic Analysis ◽

Intensity Measurements ◽

Magnetic Carriers ◽

Characteristic Component

Archaeomagnetism combines the magnetic properties of baked materials with Archaeology. The archaeomagnetic method can be applied to any kind of permanent - in situ or displaced- burnt structures, such as kilns, ovens, hearths, burnt floors, tiles, bricks and pottery fragments, the latter for intensity measurements only. In this study we present the latest archaeomagnetic results from archaeological sites which are distributed in N. Greece (Polymylos, Sani, Thesssaloniki). The Natural Remanent Magnetization (NRM) and the magnetic susceptibility of the samples have been initially measured. The samples have been subjected to magnetic cleaning (AF and Thermal demagnetizations) and this procedure revealed the characteristic component of the ancient magnetic field. Rock magnetic experiments such as acquisition of the Isothermal Remanent Magnetization (IRM) and thermomagnetic analysis have been performed in pilot samples in order to identify the main magnetic carriers. Finally the secular variation curves for Greece and the SCHA.DIF.3K model were used in order to date these archaeological structures. This dating improved or modified the estimated archaeological ages.

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Volcanic Deposits and Volcanic Hazard in Santo Domingo de Heredia, Costa Rica

Journal of Geography and Geology ◽

10.5539/jgg.v8n2p111 ◽

2016 ◽

Vol 8 (2) ◽

pp. 111

Author(s):

Martín Rojas-Barrantes ◽

Mario Fernández-Arce

Keyword(s):

Costa Rica ◽

Volcanic Activity ◽

Pyroclastic Flow ◽

Volcanic Eruptions ◽

Pyroclastic Flows ◽

Eastern Region ◽

Santo Domingo ◽

Borehole Data ◽

Volcanic Deposits ◽

The Impact

The present research aims to investigate more precisely about the geology of the Eastern region of the Santo Domingo County. Santo Domingo is part of the structural plateau in the center of Costa Rica, which is located at the foot of the Cordillera Volcánica Central (CVF) [Central Volcanic Front] and is covered by volcanic deposits. On this plateau, called Central Valley, is the highest percentage of the population of the country and therefore, a large sector of the Costa Rican population is exposed to volcanic eruptions of the volcanoes in the CVF. For existing the national system for risk management and a law that demands actions to local authorities to prevent and mitigate disaster, it is necessary to identify the threats that exist in the cantons (counties) of Costa Rica. This will serve to take the prevention and mitigation actions necessary to reduce the impact of volcanic eruptions in the area of Santo Domingo.The research method consisted of review and analysis of previous works through literature research, data collection and analysis of boreholes from records of water-supply wells and open pits, and field work to better know the geology of the area. The results indicate that there are deposits of powerful volcanic eruptions of pyroclastic fall deposits (volcanic ash and lapilli) that mostly form clayey soils and lahars deposits that practically covers the entire territory. Underlying these deposits there is a pyroclastic flow deposit (ignimbrite), followed by lapilli tephra (a layer of pumice of at least 2 meters thick) that mark a change in the volcanic activity. Such pyroclastic flow is overlaid by an igneous presumably sub-volcanic activity of andesites interlayered with ancient tuffs, with a considerable thickness of over 350 meters according with borehole data and the exposure recognition on Pará river study sites. According to site locations (P1 to P23) of volcaniclastic deposits, there is evidence of an important environmental impact caused by the last eruptions of the CVF volcanoes. The real and current volcanic threat to the population of the County is the fall-out of ash emitted from the Turrialba and Irazú volcanoes. From local observations along the Virilla and Pará rivers sections, there is no evidence of younger pyroclastic flows overlying the volcanic sequence.

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