URANIUM-LEAD GEOCHRONOLOGY BY TITANITE, ADVANTAGES AND LIMITATIONS

IF 0.5 Q4 MINERALOGY Mineralogical Journal-Ukraine Pub Date : 2022-01-01 DOI:10.15407/mineraljournal.44.03.083
L. Stepanyuk, T. Dovbush, O. Vysotsky, V. Belsky, O. Zyultsle, T.B. Yaskevich, I. Kotvitska
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引用次数: 1

Abstract

The uranium-lead isotope method is used to date titanites from granitoids of the Ros'-Tikych megablock of the Ukrainian Shield (middle reaches of the Ros' river, below Bila Tserkva). Their isotopic behavior is analyzed along with published results, of other titanites found in crystalline rocks of the Ukrainian Shield. Titanites of granitoids from the Ros'-Tikych megablock contain impurity lead and this leads to an abnormal isotopic composition. The overestimation in age values calculated by methods that do not require correction for ordinary lead (method normalized, agreed differences and the slope of the regression line on the graph in the coordinates 207Pb/204Pb — 206Pb/204Pb) is up to several tens of millions of years, compared to, calculated on the model of Ahrens-Wetherill. The influence of impurity lead of anomalous isotopic composition on the distortion of the calculated values of the isotopic age, in the ratio 207Pb/206Pb is modeled. It was found that the entry into the isotope system, 2.0 billion years old, of ordinary lead with a modern isotopic composition, even with a ratio of impurity lead to radiogenic lead 1:1, will reduce the age by 207Pb/206Pb by only 4 million years. Significantly greater distortions (overestimations) of the isotopic ages is will be caused by impurity lead, in the isotopic composition of which there is an ancient (for example, 500 million older than the age of crystallization of titanite) radiogenic lead. Thus, when the ratio share of impurity lead is 20%, the overestimation of age is more than 50 million years, and it reaches 235 million years forat a ratio of 1:1 (50%). The numerical values of the isotopic age will be even more inflated at the ratio of 207Pb/206Pb in cases when impurity lead contains radiogenic lead of older age, even with a smaller share of it in the composition of impurity lead.
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钛矿铀铅地质年代学的优势与局限
铀铅同位素法用于测定乌克兰地盾(罗斯河中游,Bila Tserkva下方)的罗斯-提基奇巨型岩块花岗岩中钛矿的年代。他们的同位素行为与发表的结果一起分析,在乌克兰盾的结晶岩石中发现的其他钛矿。Ros′-Tikych大岩块花岗岩的钛矿中含有杂质铅,导致其同位素组成异常。与Ahrens-Wetherill模型计算的年龄值相比,不需要对普通铅进行校正的方法(方法归一化,约定差异和坐标207Pb/204Pb - 206Pb/204Pb图上回归线的斜率)计算出的年龄值高估高达数千万年。模拟了异常同位素组成中杂质铅对207Pb/206Pb同位素年龄计算值畸变的影响。结果发现,即使在杂质铅与放射性成因铅的比例为1:1的情况下,以现代同位素组成的普通铅进入20亿年的同位素系统,也只会使207Pb/206Pb的年龄减少400万年。同位素年龄的明显更大的扭曲(高估)将由杂质铅引起,在其同位素组成中存在一种古老的(例如,比钛矿结晶年龄早5亿年的)放射性成因铅。因此,当杂质铅的比例为20%时,年龄高估超过5000万年,当比例为1:1(50%)时,年龄高估达到2.35亿年。当杂质铅中含有年龄较大的放射性成因铅时,同位素年龄的数值在207Pb/206Pb的比值下会更加膨胀,即使在杂质铅的组成中所占的比例较小。
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CiteScore
0.70
自引率
0.00%
发文量
18
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