不饱和软玉的二级分类

Emmanuel Jacquet, Béatrice Doisneau
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摘要

不同或相同类型的软玉的十进制岩石学方案的倍增表明,在对1-3型软玉进行二次分类时缺乏统一的指导原则。我们的研究表明,如果将亚型的十进制部分定义为I型和II型软玉的平均辉石含量四舍五入到最近十分之一的比值$m=Fa_I/Fa_{II}$,那么目前的OC、R和CO分类可以在事后统一,只需进行少量的重新分类(对最低亚型的Cr系统学进行调整)。该参数比常用的辉绿岩含量相对标准偏差更易于评估,并定义了从 M0.0 到 M1 的一般变质程度(后缀数字为四舍五入的 $m$)。因此,3 型软玉跨越了 M0.0 至 M0.9 的范围,而 M1 则表示 4 型。已知 1 型和 2 型软玉的变质等级为 M0.0(即 3.0 型软玉的变质等级)。对于 CM 和 CR 型软玉,我们可以根据以前方案中基于薄截面的标准对亚型进行定性,并将其纳入本框架。将 PSF 四舍五入到(原则上)最接近的十分之一,使得提议的分类法比这些方案更粗糙,但因此更稳健,更有可能在未来的陨石分类中得到推广。我们建议相应的岩石学子类型为 3-PSF,四舍五入到最接近的十分之一(因此类型 1 将对应子类型 2.0 和 2.1)。在所选择的精确度水平上,非零的蚀变和变质度仍然是相互排斥的,因此单一的岩石学亚型$/约$3+$m$-PSF确实仍然是次生过程的良好描述。
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The secondary classification of unequilibrated chondrites
The multiplication of decimal petrologic schemes for different or the same chondrite groups evinces a lack of unified guiding principle in the secondary classification of type 1-3 chondrites. We show that the current OC, R and CO classifications can be a posteriori unified, with only minor reclassifications, if the decimal part of the subtype is defined as the ratio $m=Fa_I/Fa_{II}$ of the mean fayalite contents of type I and type II chondrules rounded to the nearest tenth (with adaptations from Cr systematics for the lowest subtypes). This parameter is more efficiently evaluable than the oft-used relative standard deviations of fayalite contents and defines a general metamorphic scale from M0.0 to M1 (where the suffixed number is the rounded $m$). Type 3 chondrites thus span the range M0.0-M0.9 and M1 designates type 4. Corresponding applications are then proposed for other chondrite groups. Known type 1 and 2 chondrites are at M0.0 (i.e. the metamorphic grade of type 3.0 chondrites). Independently, we define an aqueous alteration scale from A0.0 to A1.0, where the suffixed number is the (rounded) phyllosilicate fraction (PSF). For CM and CR chondrites, the subtypes can be characterized in terms of the thin-section-based criteria of previous schemes which are thus incorporated in the present framework. The rounding of the PSF to the (in principle) nearest tenth makes the proposed taxonomy somewhat coarser than those schemes, but hereby more robust and more likely to be generalized in future meteorite declarations. We propose the corresponding petrologic subtype to be 3-PSF, rounded to the nearest tenth (so that type 1 would correspond to subtypes 2.0 and 2.1). At the level of precision chosen, nonzero alteration and metamorphic degrees remain mutually exclusive, so that a single petrologic subtype $\approx$ 3+$m$-PSF indeed remains a good descriptor of secondary processes.
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