Thermodynamic analysis of primary and secondary minerals stability in melilite-nephelinite tuff with Australopithecus Afarensis footprints, Laetoli, Tanzania

Pub Date : 2022-01-01 DOI:10.21638/spbu07.2022.202
E. Perova, A. Zaitsev, J. Spratt, N. Vlasenko, Nataliya Vladimirovna Platonova, O. Bubnova
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Abstract

The Laetoli area in northern Tanzania is an important palaeo-anthropological site, where the oldest footprints of Australopithecus afarensis reside. Aeolian tuffs are the major rock type at Laetoli and they are divided into Lower and Upper Laetolil Beds that were deposited at an interval of 4.36 and 3.63 million years. The Upper Laetolil Beds contain eight layers of air-fall tuffs known as marker tuffs. The Australopithecus afarensis footprints are observed on the surface of the white tuff, which is a part of the Upper Laetolil marker tuff 7, also known as the “Footprint Tuff.” The interpolated age of the marker tuff 7 is 3.66 million years. Two mineral assemblages are distinguished in the Upper Laetolil marker tuffs. The first assemblage consists of primary tuff minerals and includes clinopyroxene (diopside, augite, aegirine-augite), nepheline, melilite (åkermanite and alumoåkermanite), garnet (andradite and schorlomite), magnetite, and others. The second mineral assemblage consists of secondary minerals, montmorillonite, calcite, and phillipsite. They were formed during replacement of the primary minerals, volcanic glass, and ash cementation. Thermodynamic calculations show that the major primary tuff minerals (melilite and nepheline) are stable at variable sodium activity and pH values. Replacement of melilite and nepheline by montmorillonite is caused by a decrease of sodium activity in slightly alkaline, neutral and acidic conditions (рН < 10). Montmorillonite is not present in the altered nephelinitic tuff of the Sadiman volcano (which is considered as a source of the Laetolil Beds) where kaolinite is the major secondary mineral. This is explained by the difference in H2O fugacity with higher lgfH2O values in Sadiman and lower values in Laetoli. Relationships between primary and secondary tuffs minerals on the lgaHCO3 vs pH plot suggest mineral transformation within the Laetolil Beds in slightly acid and neutral con- ditions (рН = 5–7) compared with more alkaline conditions at Sadiman (рН > 10).
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坦桑尼亚Laetoli南方古猿Afarensis足迹中美利石-钠辉岩凝灰岩中原生和次生矿物稳定性的热力学分析
坦桑尼亚北部的Laetoli地区是一个重要的古人类学遗址,阿法南猿最古老的足迹就居住在这里。风成凝灰岩是莱托里的主要岩石类型,分为下莱托里层和上莱托里层,沉积时间分别为436万年和363万年。上层Laetolil床包含八层空气沉降凝灰岩,称为标记凝灰岩。在白色凝灰岩表面观察到南方古猿阿法种的脚印,这是上Laetolil标记凝灰岩的一部分,也被称为“足迹凝灰岩”。标记凝灰岩7的内插年龄为366万年。在上Laetolil标志凝灰岩中可区分出两种矿物组合。第一个组合由原生凝灰岩矿物组成,包括斜辉石(透辉石、辉长石、辉长石)、霞石、美利石(角长石和铝角长石)、石榴石(角长石和榴辉石)、磁铁矿等。第二类矿物组合由次生矿物、蒙脱石、方解石和菲利普石组成。它们是在原生矿物替代、火山玻璃和火山灰胶结作用中形成的。热力学计算表明,凝灰岩主要原生矿物(橄榄石和霞石)在可变钠活度和pH值下是稳定的。蒙脱石取代千英石和霞石是由于在微碱性、中性和酸性条件下钠活性降低所致(рН < 10)。在Sadiman火山(被认为是Laetolil床的来源)蚀变的辉灰岩凝灰岩中不存在蒙脱石,高岭石是主要的次生矿物。这可以用Sadiman的lgfH2O值较高而Laetoli的lgfH2O值较低的H2O逸度差异来解释。lgaHCO3与pH曲线上的原生凝灰岩和次生凝灰岩矿物之间的关系表明,Laetolil层内的矿物转化发生在微酸性和中性条件下(рН = 5-7),而Sadiman的碱性条件下(рН > 10)。
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