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The latitudinal distributions of horizontal geomagnetic variations, ΔH, and their time derivatives, ∂H/∂t, were analysed statistically
over the three-year period 2003–2005. It appears that the amplitude distributions of horizontal geomagnetic variations and
their time derivatives differ systematically between different geomagnetic latitudes and storm intensity levels. We show that
the magnetic field variations observed at auroral and polar cap latitudes are under all geomagnetic storm levels comparable
in amplitude (in a statistical sense) while they are smaller at subauroral latitudes. In contrast, their time derivatives
are clearly the largest at auroral latitudes at all storm levels. These distributions determine in a general sense where and
with which probability technological systems and operational procedures may be affected by geomagnetic storms. However, one
observes in individual cases that the peak ∂H/∂t (the largest in all horizontal directions) is not necessarily the one which
triggers a power system blackout. 相似文献
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Chemical and structural zoning in plagioclase can develop in response to a number of different magmatic processes. We examine plagioclase zonation formed during the transfer of plagioclase from a granodioritic host to a monzodioritic enclave to understand the development of different zonation patterns caused by this relatively simple magma mixing process. The transferred plagioclase records two stages of evolution: crystallization of oscillatory plagioclase in the host granodioritic magma and crystallization of high An zones and low An rims in the hybrid enclave magma. High An zones (up to An72) are formed only in the hybrid enclaves after plagioclase transfer. Plagioclase from a primitive enclave, showing no or only minimal interaction with the host, is An30–43. The implication is that high An zones crystallize only from the hybrid magma and not from the primitive one, probably because of an increase in water content in the hybrid magma. Complex interactions between the two magmas are also recorded in Sr content in plagioclase, which indicates an initial increase in Sr concentration in the melt upon transfer. This is contrary to what is expected from the mixing of low Sr enclave magma with a high Sr granodiorite one. Such Sr distribution in the plagioclase implies that the transfer of the plagioclase took place before the onset of plagioclase crystallization in the enclave magma. Therefore, the mixing between high Sr granodiorite magma and low Sr enclave magma was recorded only in plagioclase rims and not in the high An zones. 相似文献