Tracking the tempo of a continental margin arc: Insights from a forearc succession in West Antarctica

T. Riley, M. Flowerdew, Andrew Carter, M. Curtis, Ian L. Millar, J. Alistair Crame, Martin J. Whitehouse
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Abstract

The Fossil Bluff Group of eastern Alexander Island records the exceptional preservation of more than 8 km of Mesozoic sedimentary rocks deposited into an accretionary forearc basin that developed unconformably above a late Paleozoic accretionary complex, and in proximity to a continental margin arc during a prolonged phase of enhanced magmatism. Through the Mesozoic, the Fossil Bluff Group evolved from a trench-slope environment to a forearc basin sourced from the continental margin arc. During this period, the Antarctic Peninsula’s convergent margin was characterized by episodes of magmatic flare-ups that developed during tectonic compression, crustal thickening, extension, and uplift. U-Pb and Lu-Hf detrital zircon data are used to determine the provenance of the forearc succession and as a monitor of arc magmatic tempos during the late Mesozoic. The magmatic record in the adjacent arc is poorly preserved or partially absent, but the sedimentary record of the forearc basin preserves a largely uninterrupted record of arc magmatism that can be studied with detrital zircon geochronology and geochemistry. The basal succession of the Fossil Bluff Group is sourced from the adjacent accretionary complex, but thereafter it is strongly controlled by the proximal arc in western Palmer Land and is characterized by a mixed arc/recycled signature during episodes of renewed sedimentation. However, the main phases of deposition during the Early Jurassic (ca. 180 Ma), Early Cretaceous (141−131 Ma), and mid-Cretaceous (125−102 Ma) are dominated by arc-only sources. The Lu-Hf isotopic record supports a transition from convergence to extension and a return to convergence during the Mesozoic, which is consistent with accretionary orogens from elsewhere along the West Gondwanan margin. The provenance record during the depositional history of the basin points overwhelmingly to an autochthonous origin; as such, models for parts of the western province of the Antarctic Peninsula being allochthonous are unsupported.
追踪大陆边缘弧的速度:从南极洲西部的弧前演替中获得的启示
亚历山大岛东部的化石崖组记录了超过 8 公里的中生代沉积岩的特殊保存情况,这些沉积岩沉积在一个增生弧前盆地中,该盆地是在一个晚古生代增生复合体之上形成的,与岩浆活动长期增强阶段的大陆边缘弧相邻。在中生代,化石崖组从一个海沟斜坡环境演变为一个源于大陆边缘弧的弧前盆地。在此期间,南极半岛的汇聚边缘在构造压缩、地壳增厚、延伸和隆升过程中出现了岩浆爆发。U-Pb和Lu-Hf碎屑锆石数据被用来确定前弧演替的产地,并作为中生代晚期弧岩浆节奏的监测器。邻近弧岩的岩浆记录保存较差或部分缺失,但前弧盆地的沉积记录保存了基本不间断的弧岩岩浆记录,可利用非晶锆石地质年代学和地球化学进行研究。化石崖组的基底演替来源于邻近的增生复合体,但此后则受到帕尔默陆地西部近端弧的强烈控制,并在沉积更新过程中呈现出弧/循环混合特征。不过,早侏罗世(约 180 Ma)、早白垩世(141-131 Ma)和中白垩世(125-102 Ma)的主要沉积阶段主要由纯弧源控制。Lu-Hf同位素记录支持中生代期间从汇聚向延伸的过渡,以及向汇聚的回归,这与西冈瓦纳边缘其他地区的增生造山运动是一致的。该盆地沉积史上的产状记录绝大多数都指向自生起源;因此,南极半岛西部省部分地区为异源的模型是不成立的。
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