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11.
Summary The changes of magnetic anisotropy under pressure were studied on a set of rocks with marked macroscopic stratification, collected from the Rjvíz borehole. The anisotropy parameters are relatively very stable under directional pressure, acting parallel with the rocks' bedding, and, on the contrary, significantly unstable under pressure acting perpendicular to the bedding. Systematically different magnitudes of stress sensitivity coefficients, , for parallel directional susceptibility were observed in both cases in the same types of rocks. The main cause is probably the different capability of transferring external stress to ferrimagnetics via the stratified non-magnetic matrix. With regard to magnetomechanical phenomena, therefore, a singel value of the stress sensitivity coefficient is insufficient to characterize rocks with a markedly anisotropic matrix. 相似文献
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Summary The irreversible changes of the remanent magnetization due to a uni-axial elastic deformation were measured on various pre-deformed samples of some basalts. The observed relations allow one to draw conclusions about the deformation history of the samples. 相似文献
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Summary The effect of uniaxial elastic deformation on the remanent magnetization of some basalts, containing generalized titanomagnetities of different chemical composition, was studied. The irreversible changes of the saturated and natural remanent magnetizations were measured. With the deformed samples no permanent change of the spectrum of micro-coercive forces, or change in the magnitude of the specific saturated remanent magnetization were observed. The experimental results agree with the model of mutual interaction of structural defects with magnetic domatins [10] under the assumption of predominantly reversible changes of the dislocation structure of the sample due to elastic deformation. 相似文献
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Hana Grison Eduard Petrovský Neli Jordanova Aleš Kapička 《Studia Geophysica et Geodaetica》2011,55(4):697-716
The enhanced magnetic susceptibility of modern soils is assumed to have several reasons including, e.g., weathering of an
iron-rich geological basement, natural fires, bacterial processes and atmospheric deposition of anthropogenic particles. We
report on a case where none of the above sources of magnetic enhancement is evident: a modern soil with high magnetic susceptibility
over the whole soil profile, developed on nonmagnetic limestones, in an area with no industrial activities. The surface magnetic
susceptibility varies from 60 to 110×10−5 SI, while that of the rock basement is nearly zero. Moreover, significant frequency-dependent magnetic susceptibility (>
12%) suggests that superparamagnetic secondary magnetite/maghemite plays an important role. Possible mechanisms, responsible
for this magnetic enhancement, are discussed. 相似文献
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Lukáš Krmíček Jan Cempírek Aleš Havlín Antonín Přichystal Stanislav Houzar Michaela Krmíčková Petr Gadas 《Lithos》2011,121(1-4):74-86
A peralkaline, ultrapotassic dyke found at ?ebkovice (T?ebí? district, western Moravia) is a mineralogically extreme member of a dyke swarm occurring along the south-eastern border of the Moldanubian Region of the Bohemian Massif. The dyke shows a simple zoning, with a very fine-grained marginal zone grading into a medium-grained central zone. It has a primary mineral assemblage of microcline and potassic amphiboles, with accessory apatite and altered phlogopite. The microcline exhibits an unusual red luminescence colour and pronounced substitution of Fe3+ for Al, with measured contents of Fe2O3 up to 8.5 wt.% (0.31 apfu Fe3+). Amphiboles have very high K (up to 0.99 apfu) and Si contents; their compositions follow an alkaline fractionation trend from potassic-richterite to potassic-magnesio-arfvedsonite, characterized by an increase of Na/K and a decrease of Ca, Mg, Fe2+ and Ti via heterovalent substitutions [B]Ca + [C](Mg,Fe2+) → [B]Na + [C]Fe3+ and Ti + Mg → 2Fe3+. The most evolved apatite is significantly enriched in SrO (up to 9.7 wt.%; 0.49 apfu Sr). The core of the dyke and late veinlets contain unique late- to post-magmatic Ba–Ti–Zr-bearing mineral assemblages of baotite, henrymeyerite, titanite, rutile, benitoite and bazirite. Anhedral baotite fills interstices distributed inhomogeneously in the dyke centre; it is locally replaced by a Ba-bearing titanite + henrymeyerite + rutile + quartz assemblage. Henrymeyerite (the second record in a lamproite) shows variable Fe/Ti ratios and represents a solid solution of the hepta- and hexatitanate components. Euhedral crystals of benitoite and bazirite are enclosed in the late-stage quartz–titanite–apatite veinlets in the fine-grained margin of the intrusion. In terms of a mineralogical–genetic classification, the ?ebkovice dyke can be considered as a new high-silica (~ 57 wt.% SiO2) variety of lamproite (variety ?ebkovice), and represents a unique expression of post-collisional potassic magmatism on the south-eastern border of the Bohemian Massif. The peralkaline dykes from this area show mineralogical and geochemical features similar to those of silica-rich orogenic lamproites emplaced at destructive plate margins. In terms of the modern classification of lamproites, the ?ebkovice dyke is the first lamproite recognised in the Variscan orogenic belt. 相似文献
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Ond?ej?LhotkaEmail authorView authors OrcID profile Jan?Kysely Ale??Farda 《Theoretical and Applied Climatology》2018,131(3-4):1043-1054
The study examines climate change scenarios of Central European heat waves with a focus on related uncertainties in a large ensemble of regional climate model (RCM) simulations from the EURO-CORDEX and ENSEMBLES projects. Historical runs (1970–1999) driven by global climate models (GCMs) are evaluated against the E-OBS gridded data set in the first step. Although the RCMs are found to reproduce the frequency of heat waves quite well, those RCMs with the coarser grid (25 and 50 km) considerably overestimate the frequency of severe heat waves. This deficiency is improved in higher-resolution (12.5 km) EURO-CORDEX RCMs. In the near future (2020–2049), heat waves are projected to be nearly twice as frequent in comparison to the modelled historical period, and the increase is even larger for severe heat waves. Uncertainty originates mainly from the selection of RCMs and GCMs because the increase is similar for all concentration scenarios. For the late twenty-first century (2070–2099), a substantial increase in heat wave frequencies is projected, the magnitude of which depends mainly upon concentration scenario. Three to four heat waves per summer are projected in this period (compared to less than one in the recent climate), and severe heat waves are likely to become a regular phenomenon. This increment is primarily driven by a positive shift of temperature distribution, but changes in its scale and enhanced temporal autocorrelation of temperature also contribute to the projected increase in heat wave frequencies. 相似文献