Temperatures of canonical condensation: Constraints from CAIs

IF 1.9 3区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

American Journal of Science Pub Date : 2022-01-01 DOI:10.2475/01.2022.03

R. Sack

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引用次数: 0

Abstract

The analogy between Al8/3O4 – MgAl2O4 spinels and AgSbS2 − PbS galenas is explored. Although the spinel observed in calcium-aluminum-rich inclusions in carbonaceous chondrites (CAIs) is nearly pure MgAl2O4 and the galena found in hydrothermal ore deposits is nearly pure PbS, in both occurrences a very strong case may sometimes be made that these phases originally crystallized as solid solutions with substantially higher abundance of these minor components, Al8/3O4 in CAI spinel and AgSbS2 in hydrothermal galena. It is shown that a few retrograde net-transport reactions accompanying Al8/3O4 breakdown in Al8/3O4 − MgAl2O4 spinels can account for several important features of spinel-rich CAIs including reverse zoning of åkermanite−gehlenite melilites, the production of Al-rich diopside and the depletion of anorthite in reaction rims, and the scarcity of grossite despite its previous presence as a high temperature condensate. AgSbS2 in galena is analogous, because galenas in ore deposits today have an undetectable amount of AgSbS2 (for example, Knowles,1983), yet, for example, the galena-rich ore deposits from the Coeur d'Alene mining district (ID) were responsible for the largest recorded number of ounces of Ag produced in the world until recently. Accordingly, it is appropriate that the primary Al8/3O4 contents of spinels in CAIs are reconstructed following methods analogous to those employed by Sack and others (2002,2005) to reconstruct the primary AgSbS2 contents of galenas from the Coeur d'Alene ores, if CAIs spinels are to be used to constrain temperatures, and hence pressures, of canonical condensation. Several examples are given to demonstrate the thermal constraints which may be obtained from reconstructed primary spinel Al8/3O4 concentrations starting with the Al8/3O4 -rich CAI spinels reported by Yurimoto and others (2021) and El Goresy and others (1984). The compositions of spinels which form rims around corundum and corundum-hibonite aggregates in CAIs from the Murchison and Murray chondrites (Makide and others,2013) are then used to prove that Al8/3O4 in Al8/3O4 − MgAl2O4 spinels from CAIs are completely analogous to AgSbS2 in AgSbS2 − PbS galenas from hydrothermal ore deposits.

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正则凝聚温度:来自cai的约束

探讨了Al8/3O4–MgAl2O4尖晶石与AgSbS2−PbS方铅矿的相似性。尽管在碳质球粒陨石（CAIs）中富含钙铝的包裹体中观察到的尖晶石几乎是纯MgAl2O4，而在热液矿床中发现的方铅矿几乎是纯PbS，但在这两种情况下，有时可能会出现一种非常强烈的情况，即这些相最初结晶为固溶体，具有显著更高丰度的这些次要组分，CAI尖晶石中的Al8/3O4和水热方铅矿中的AgSbS2。研究表明，Al8/3O4−MgAl2O4尖晶石中伴随Al8/3O4分解的一些逆向净输运反应可以解释富尖晶石CAIs的几个重要特征，包括åkermanite−gehlenite melite的反向分区、富Al透辉石的产生和反应边缘钙长石的贫化，以及尽管钙铝石以前是作为高温冷凝物存在，但其稀缺性。方铅矿中的AgSbS2是类似的，因为今天矿床中的方铅矿具有检测不到的AgSb S2量（例如，Knowles，1983），然而，例如，Coeur d’Alene矿区（ID）富含方铅矿的矿床是世界上迄今为止生产的Ag盎司数最多的记录矿床。因此，如果CAI中的尖晶石用于约束正则凝聚的温度和压力，则CAI中尖晶石的初级Al8/3O4含量按照类似于Sack等人（20022005）采用的方法重建Coeur d’Alene矿石中方铅矿的初级AgSbS2含量是合适的。给出了几个例子来证明从Yurimoto等人（2021）和El Goresy等人（1984）报道的富含Al8/3O4的CAI尖晶石开始，可以从重建的初级尖晶石Al8/3O4浓度中获得的热约束。Murchison和Murray球粒陨石（Makide等人，2013）的CAI中，在刚玉和刚玉-hibonite聚集体周围形成边缘的尖晶石的组成被用来证明CAI中Al8/3O4−MgAl2O4尖晶石中的Al8/3O4与热液矿床中AgSbS2−PbS方铅矿中的AgSbS2完全相似。

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来源期刊

American Journal of Science 地学-地球科学综合

CiteScore

5.80

自引率

3.40%

发文量

审稿时长

>12 weeks

期刊介绍： The American Journal of Science (AJS), founded in 1818 by Benjamin Silliman, is the oldest scientific journal in the United States that has been published continuously. The Journal is devoted to geology and related sciences and publishes articles from around the world presenting results of major research from all earth sciences. Readers are primarily earth scientists in academia and government institutions.