翻訳と辞書
Words near each other
・ Goldhaber
・ Goldhaber fellows
・ Goldhagen
・ Goldhanger
・ Goldhap
・ Goldhap refugee camp
・ Goldhawk Road
・ Goldhawk Road tube station
・ Goldhawks
・ Goldheart Assembly
・ Goldhorn
・ Goldhunga
・ Goldi SC
・ Goldia
・ Goldich Crest
Goldich dissolution series
・ Goldie
・ Goldie (band)
・ Goldie (Cambridge University Boat Club)
・ Goldie (DC Comics)
・ Goldie (disambiguation)
・ Goldie (eagle)
・ Goldie (film)
・ Goldie (given name)
・ Goldie (song)
・ Goldie (surname)
・ Goldie Alexander
・ Goldie and the Boxer
・ Goldie and the Gingerbreads
・ Goldie and Wendy


Dictionary Lists
翻訳と辞書 辞書検索 [ 開発暫定版 ]
スポンサード リンク

Goldich dissolution series : ウィキペディア英語版
Goldich dissolution series




The Goldich dissolution series is a way of predicting the relative stability or weathering rate of various minerals on the Earth's surface. S. S. Goldich came up with the series in 1938 after studying soil profiles. He found that minerals that form at higher temperatures and pressures are less stable on the surface than minerals that form at lower temperatures and pressures. This pattern follows the same pattern of the Bowen's reaction series, with the minerals that are first to crystallize also the first the undergo chemical weathering.
:
In 1938, Samuel Goldich published a study of the weathering of
various igneous rocks in which he concluded that igneous silicate
minerals weather in an order much like that of Bowens Reactions
Series, with mafic silicates the most susceptible to weathering and
quartz the least susceptible. The diagram below shows a modified
form of Goldich's series, which has subsequently been confirmed
experimentally.
Zircon and several non-silicates have been added below in the
apparent order of their susceptibility of weathering (the position of
calcite relative to olivine and anorthite is debatable).
The diagram below shows that the order of this weathering series
agrees well with the least bond strength in each of the minerals
involved. That seems reasonable, because weathering, or the
destruction of minerals, requires breaking of bonds in those minerals.
The only special provision is to bear in mind that some minerals consist
sufficiently of strongly bonded cations that a weakly bonded cation can be
leached from the surface of a mineral grain without destruction of the entire
mineral grain. That has been demonstrated experimentally to be
the case with alkali feldspars, where
weathering can preferentially remove
the alkali cation (K1+ or Na1+) but
leave an Al-Si remnant structure on
the surface of feldspar grains3.
The diagram also has application
for non-igneous materials. For
example, aragonite and calcite are
both present in marine sediments,
but aragonite rarely survives in
ancient limestones, where calcite is
abundant. The weaker bond formed
by Ca2+ in nine-fold coordination in
aragonite, rather than the stronger
bond of Ca2+ in six-fold coordination
in calcite, explains aragonite's greater
susceptibility to dissolution. Halite,
an even more soluble sedimentary
mineral, has even weaker bonds, and
niter, a mineral that hardly survives in
nature at all, has the weakest bonds.〔Goldich, S.S., 1938, A study in rock-weathering: Journal of
Geology 46: 17-58.
2 See Table 7.1 of Langmuir, D., 1997, Aqueous
Environmental Geochemistry: Prentice Hall, 600 p.
3 Chou, L., & Wollast, R., 1984, Study of the weathering of
albite at room temperature and pressure with a fluidized bed
reactor: Geochimica et Cosmochimica Acta 48: 2205-2217〕
==References==


抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Goldich dissolution series」の詳細全文を読む



スポンサード リンク
翻訳と辞書 : 翻訳のためのインターネットリソース

Copyright(C) kotoba.ne.jp 1997-2016. All Rights Reserved.