Warwickite from St. Lawrence County, New York: Mineral association, chemical composition, cation ordering, and splitting of the warwickite M1 site

IF 1.1 4区地球科学 Q3 MINERALOGY

Canadian Mineralogist Pub Date : 2020-03-01 DOI:10.3749/canmin.1900046

M. Lupulescu, Alix M. Ehlers, J. Hughes, D. G. Bailey

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引用次数: 1

Abstract

Warwickite has been discovered in the Edwards and Balmat #3 mines in the Balmat-Edwards mining district, St. Lawrence County, New York, located in the Adirondack Lowlands. The samples from the two mines are similar in chemistry and atomic arrangement but differ chemically from previously described samples; they are among the most Fe-poor samples described to date. The warwickite in the Edwards Mine sample occurs as 1–2 mm-diameter green crystals associated with pink spinel, forsterite, phlogopite, and pyrite in an impure dolomitic marble, whereas warwickite in the specimens from the Balmat #3 mine, approximately 10 km distant, occurs as brown to amber colored, slender, elongate, millimeter-size crystals in a calcitic marble in association with pink spinel, phlogopite, anhydrite, pyrite, and galena. Chemical analyses of the two specimens by electron microprobe show similar empirical formulas of (Mg1.43Ti0.36Al0.18Cr3+0.02Zr0.01)Σ2.00B0.98O4 (Edwards Mine) and (Mg1.39Ti0.40Al0.18Cr3+0.01Zr0.01Fe2+0.01)Σ2.00B0.94O4 (Balmat mine). The atomic arrangement of a specimen from each mine was determined, and the high-precision refinements provide new insight into the warwickite structure. The M1 site in warwickite is split into two sites to accommodate two occupants with differing bonding requirements; the M1 site contains Mg and the M1′ site hosts Ti, with the two sites being separated by approximately 0.2 Å. The optimized structural formula for both warwickite samples is similar to [M1(Mg0.84Al0.14Ti0.024+)2.74M1′(Ti0.914+Mn0.082+Mg0.01)1.30]Σ4.04M2(Mg0.86Al0.10Ti0.044+)4.00B4O16], demonstrating ordering of Mg at M1 and M2 and Ti at M1′. The site-splitting demonstrates how divalent Mg and tetravalent Ti can exist at a site in solid solution by ordering the two cations at split sites.

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来自纽约圣劳伦斯县的沃里克岩：沃里克岩M1场地的矿物组合、化学成分、阳离子有序性和分裂

Warwickite是在纽约州圣劳伦斯县Balmat-Edwards矿区的Edwards和Balmat #3矿中发现的，该矿区位于阿迪朗达克低地。这两个矿山的样品在化学和原子排列上相似，但在化学上与先前描述的样品不同;它们是迄今为止所描述的最缺铁的样品之一。爱德华兹矿样品中的瓦尔威石以1-2毫米直径的绿色晶体形式出现，与粉红色尖晶石、橄榄石、绿云母和黄铁矿一起出现在不纯的白云质大理石中，而距离约10公里远的巴尔玛特3号矿样品中的瓦尔威石以棕色至琥珀色、细长、毫米大小的晶体形式出现在钙质大理石中，与粉红色尖晶石、绿云母、硬石膏、黄铁矿和方铅矿一起出现。通过电子探针对两种试样进行化学分析，得出了相似的经验公式:(Mg1.43Ti0.36Al0.18Cr3+0.02Zr0.01)Σ2.00B0.98O4 (Edwards矿)和(Mg1.39Ti0.40Al0.18Cr3+0.01 zr0.01 fe2 +0.01)Σ2.00B0.94O4 (Balmat矿)。每个矿井的样品的原子排列都被确定，高精度的精细化为沃里克石的结构提供了新的见解。warwickite的M1场地被分成两个场地，以容纳有不同连接要求的两个居住者;M1位点含有Mg, M1 '位点含有Ti，两个位点相距约0.2 Å。两种沃里克石样品的优化结构式类似于[M1(Mg0.84Al0.14Ti0.024+)2.74M1 ' (Ti0.914+Mn0.082+Mg0.01)1.30]Σ4.04M2(Mg0.86Al0.10Ti0.044+)4.00B4O16]，表明Mg在M1和M2处有序，Ti在M1 '处有序。位点分裂证明了二价Mg和四价Ti如何在固溶体的一个位点上存在，通过对两个阳离子在分裂位点上的排序。

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来源期刊

Canadian Mineralogist 地学-矿物学

CiteScore

2.20

自引率

22.20%

发文量

审稿时长

4-8 weeks

期刊介绍： Since 1962, The Canadian Mineralogist has published papers dealing with all aspects of mineralogy, crystallography, petrology, economic geology, geochemistry, and applied mineralogy.