Variations in Aridity across the Asia-Australia Region during the Neogene and their Impact on Vegetation

Geological Society, London, Special Publications Pub Date : 2024-04-10 DOI:10.1144/sp549-2023-58

P. Clift

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Abstract

Scientific drilling provides extended records of continental environmental conditions during the Neogene in Asia and northern Australia. Spectral data allows reconstruction of the environment using abundances of hematite and goethite. Hematite formation is favoured by dry or seasonal conditions. Hemipelagic sites show the most regular records. Monsoon strengthening started in the Early Miocene and peaked at 17–20 Ma in the Bay of Bengal and at 10–15 Ma in southern China before weakening after ∼12 Ma and ∼10 Ma respectively. The Indus dried after ∼8 Ma and again after 3 Ma, while eolian sediment sources to the Sea of Japan show increased aridity after 5 Ma and 3 Ma. The Mekong indicates increasing aridity after 6 Ma, similar to Eastern Australia. In contrast, NW Australia shows a trend towards wetter conditions after 8 Ma, a humid period at 4–6 Ma, followed by drying. There is a link between drying and vegetation in the Mekong and Pearl River basins, as well as Eastern Australia. Monsoon strengthening is linked to topographic uplift in the Himalaya, together with Tethyan gateway closure. Long term drying is likely driven by global cooling since the Middle Miocene.

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新元古代亚澳地区的湿度变化及其对植被的影响

科学钻探提供了亚洲和澳大利亚北部新近纪大陆环境条件的详细记录。光谱数据可以利用赤铁矿和高铁铁矿的丰度重建环境。干燥或季节性条件有利于赤铁矿的形成。半下潜地点的记录最有规律。季风从早中新世开始加强，分别在孟加拉湾的 17-20 Ma 和中国南部的 10-15 Ma 达到高峰，然后分别在 ∼12 Ma 和 ∼10 Ma 之后减弱。印度河在 ∼8 Ma 后干涸，在 3 Ma 后再次干涸，而日本海的沉积物源则显示在 5 Ma 和 3 Ma 后干旱加剧。湄公河的干旱程度在 6 Ma 之后加剧，与澳大利亚东部相似。与此相反，澳大利亚西北部显示出一种趋势，即在距今 8 马年之后变得更加潮湿，在距今 4-6 马年出现一个潮湿期，随后变得干燥。湄公河流域和珠江流域以及澳大利亚东部的干燥与植被之间存在联系。季风的加强与喜马拉雅山的地形抬升以及泰西门户的关闭有关。中新世中期以来的全球变冷可能是造成长期干旱的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Geological Society, London, Special Publications

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