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    中中新世中亚构造抬升驱动气候干旱化:以塔里木盆地东南缘江尕勒萨伊剖面为例

    Uplift-driven climatic aridity during the middle Miocene: A case study of the Janggalsay section, southeast Tarim Basin

    • 摘要: 提要:中亚前陆盆地地层中氧同位素和孢粉,以及黄土高原和北太平洋粉尘记录均表明,中中新世(16~12 Ma)中亚地区气候干旱化显著增强。然而,对其驱动机制的认识不一,包括全球降温、中亚地区的构造抬升、高海拔的“原西藏高原”的存在、副特提斯洋的退缩以及上述几者联合作用的结果。不过,全球降温(约14 Ma)、“原西藏高原”的抬升(≥40 Ma)、以及副特提斯洋退缩的时间(>34 Ma)与中中新世中亚气候干旱化增强的时间(16~12 Ma)不一致。因此,它们可能是导致中中新世中亚干旱化增强的重要边界条件,或者是有利的辅助条件,但没起直接的主导作用。对塔里木盆地东南缘江尕勒萨伊剖面的前期研究结果表明,阿尔金山快速抬升始于16 Ma。在获得了磁性地层年龄的基础上,前人的碳氧同位素数据指示了16 Ma江尕勒萨依地区气候干旱化逐渐增强。鉴于同时发生,笔者把16 Ma气候干旱化增强归因于此时阿尔金山的快速抬升。从更广范围看,中中新世中亚发生了广泛的的地壳缩短变形和造山运动。对中国黄土高原的红粘土以及北太平洋粉尘沉积的多指标分析(磁化率、粒径、粉尘通量以及物源等)表明,中中新世中亚构造抬升及其引起的雨影效应是中亚气候干旱化增强的主因。

       

      Abstract: Abstract: Numerous studies suggest an intensification of climatic aridity during the middle Miocene (16-12 Ma) based on oxygen isotopes and pollen records in the foreland basins of the Central Asia, eolian deposits in China’s loess plateau and eolian flux from the northern Pacific Ocean. However, controversies remain existent as to the driving mechanisms that have dominated the intensifying aridity, which include global cooling, the rapid uplift of the central Asia, the attainment of a threshold elevation in southern Tibetan Plateau and the retreat of the Paratethys from the central Asia. As the timing of intensification of climatic aridity (16-12 Ma) is inconsistent with the onset age of global cooling (about 14 Ma), that of the attainment of a threshold elevation in the southern Tibetan Plateau (≥40 Ma), and that of the retreat of the Paratethys from the central Asia (>34 Ma), the authors hold that these three factors may be only important boundary conditions or favorable auxiliary conditions for the intensification of aridity during the middle Miocene. Previous studies of the Janggalsay strata on the southeast margin of the Tarim Basin indicated that the rapid uplift of the Altun Mountains occurred at ~16 Ma. Combined with new magnetostratigraphic ages, the published carbon and oxygen isotopes data suggest a gradual intensification of climatic aridity since ~16 Ma for the Janggalsay area. Based on the simultaneous relationship, the authors attribute the middle Miocene increasing aridity to the rapid uplift of the Altun Mountains. Viewed from a broader context, the Mid-Miocene crustal shortening deformation is extensively existent within Central Asia. The multi-proxy analysis of red clay in China’s loess plateau and eolian dust from the northern Pacific Ocean indicates that the middle Miocene tectonic uplift and accompanying rain shadow effect acted as the major mechanism in driving the increased aridity in Central Asia.

       

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