Hafnium isotope composition of zircon from the platinum-bearing Feklistov massif (Shantar Archipelago, Sea of Okhotsk, Russia)

Q4 Earth and Planetary Sciences Litosfera Pub Date : 2018-08-28 DOI:10.24930/1681-9004-2018-18-4-585-592

K. Malitch, I. Badanina

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Abstract

Object. This study firstly evaluates Hf-isotope characteristics of zircons from wehrlite of the platinum-bearing Feklistov massif, which is closely associated with platinum coastal placer deposits. Materials and methods. In-situ Hf-isotope data were collected on the dated spots within zircon grains using a New Wave LUV213 laser-ablation microprobe attached to a Nu plasma MC-ICP-MS. Resuts. Significant variations of 176 Hf/ 177 Hf i (0.28241-0.28312) and eHf(t) (from -4.8 ± 1.1 to 20.3 ± 0.6) in Paleozoic zircons indicates interaction of a ‘juvenile’ mantle source (eHf(t) ≈ 15) with distinct magma sources, possibly equivalent to a subcontinental lithospheric mantle and/or a continental crust (eHf(t) от -5 до +5). Proterozoic and Late Archean zircons from the Feklistov massif are characterized by less pronounced 176 Hf/ 177 Hf i (0.28107-0.28224) and eHf(t) (from -4.8 ± 0.4 to 8.1 ± 0.6). Conclusion . Hf-isotope features for majority of Precambrian zircons from the Feklistov massif (eHf(t) from -3.8 ± 0.5 to +2 ± 0.5) are consistent with their xenogenic nature and inheritance from basement rocks of the Siberian Craton.

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俄罗斯鄂霍次克海尚塔尔群岛含铂Feklistov地块锆石铪同位素组成

对象。本研究首先评价了与滨海铂砂矿床密切相关的含铂Feklistov地块岩石层锆石hf同位素特征。材料和方法。利用新波LUV213激光烧蚀微探针与Nu等离子体MC-ICP-MS连接，对锆石颗粒内的定年点进行了原位hf同位素数据采集。结果。古生代锆石中176 Hf/ 177 Hf i(0.28241-0.28312)和eHf(t)(从-4.8±1.1到20.3±0.6)的显著变化表明，“幼年”地幔源(eHf(t)≈15)与不同的岩浆源相互作用，可能相当于次大陆岩石圈地幔和/或大陆地壳(eHf(t) +5 до +5)。Feklistov地块元古代和晚太古代锆石的特征为176 Hf/ 177 Hf i(0.28107 ~ 0.28224)和eHf(t)(-4.8±0.4 ~ 8.1±0.6)。结论。Feklistov地块大部分前寒武纪锆石hf同位素特征(eHf(t)在-3.8±0.5 ~ +2±0.5之间)与西伯利亚克拉通基岩的异种性和继承性一致。

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