新西兰torlessse增生棱镜浊积岩套RbSr等时线及拟等时线

Annette D. George , Ian J. Graham
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引用次数: 12

摘要

在没有化石年代的情况下,对新西兰Torlesse增生棱镜地体三套灰岩和泥质岩的全岩RbSr定年提供了沉积物沉积时间的年龄约束。三个套件产生了四个线性阵列。两个阵列被解释为具有年龄意义的等时线(135±3 Ma和114±4 Ma),反映了吸积棱镜中不同推力包的历时变形和变质作用。与其他年龄数据相比,其中2组岩石年龄偏大(154±9 Ma和144±8 Ma),表明它们属于早白垩世;因此,这些线性阵列被解释为伪等时线。在上覆海沟斜坡盆地沉积的第四套地层中也发现了一个伪等时线,其年龄(153±18 Ma)比已知的沉积年龄(约98-119 Ma)要早。最近对晚三叠世torlessse岩套和其他增生棱柱体岩套的RbSr定年表明,在俯冲和增生作用下经历了复杂变形和低变质作用的岩石中,可以获得有意义的年龄。相比之下,晚侏罗世-早白垩世Torlesse岩石的混合物源(可能还有不同的埋藏条件)阻碍了Sr同位素的完全均匀化。这项研究表明RbSr定年法可以应用于这些地块的地层,但需要明确的物源(岩石学和地球化学)、构造背景和任何额外的年龄限制来解释数据。
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Whole-rock RbSr isochrons and pseudo-isochrons from turbidite suites from the Torlesse accretionary prism, New Zealand

Whole-rock RbSr dating of three suites of greywacke and argillite from the Torlesse accretionary prism terrane of New Zealand provides age constraints on the timing of deposition of the sediments in the absence of fossil ages. The three suites produced four linear arrays. Two arrays are interpreted as isochrons with age significance (135 ± 3 and 114 ± 4 Ma) reflecting the diachronous deformation and metamorphism of separate thrust packets in the accretionary prism. Two arrays appear to be too old (154 ± 9 and 144 ± 8 Ma) with respect to other age data which suggests these rocks are Early Cretaceous in age; these linear arrays are consequently interpreted as pseudo-isochrons. A fourth suite from an overlying trench slope basin deposit also yields a pseudo-isochron, the age of which (153 ± 18 Ma) is older than the known age of deposition (c. 98–119 Ma).

Recent RbSr dating of Late Triassic Torlesse rock suites and suites from other accretionary prism terranes, have shown that meaningful ages can be obtained from rocks which have undergone complex deformation and low-grade metamorphism as a consequence of subduction and accretion. By comparison, the mixed provenance (and possibly different burial conditions), of Late Jurassic-Early Cretaceous Torlesse rocks has hampered complete Sr isotopic homogenisation. This study shows that RbSr dating can be applied to suites from these terranes, but a clear knowledge of the provenance (from petrography and geochemistry), tectonic setting, and any additional age constraints, are required to interpret the data.

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