Terrestrial and marine climatic tracers from marine core MD96-2098 were used to reconstruct glacial–interglacial climate variability in southwestern Africa between 194 and 24 thousand years before present. The pollen record documented three pronounced expansions of Nama-karoo and fine-leaved savanna during the last interglacial (Marine Isotopic Stage 5 – MIS 5). These Nama-karoo and fine-leaved savanna expansions were linked to increased aridity during the three warmest substadials of MIS 5. Enhanced aridity potentially resulted from a combination of reduced Benguela Upwelling, expanded subtropical high-pressure cells, and reduced austral-summer precipitation due to a northward shift of the Intertropical Convergence Zone. Decreased austral-winter precipitation was likely linked to a southern displacement of the westerlies. In contrast, during glacial isotopic stages MIS 6, 4 and 3, fynbos expanded at the expense of Nama-karoo and fine-leaved savanna indicating a relative increase in precipitation probably concentrated during the austral winter months. Our record also suggested that warm–cold or cold–warm transitions between isotopic stages and substages were punctuated by short increases in humidity. Increased aridity during MIS 5e, 5c and 5a warm substages coincided with minima in both precessional index and global ice volume. On the other hand, austral-winter precipitation increases were associated with precession maxima at the time of well-developed Northern Hemisphere ice caps.
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机译:来自海洋核心MD96-2098的陆地和海洋气候示踪剂被用于重建1942-4万年前非洲西南部的冰川-冰川间气候变化。花粉记录记录了在最后一次冰间期(海洋同位素阶段5 – MIS 5)中Nama-karoo和细叶稀树草原的三个明显扩展。这些Nama-karoo和细叶稀树草原的扩张与MIS 5的三个最温暖的子星系中的干旱增加有关。干旱的增加可能是由于Benguela上升流减少,亚热带高压细胞扩张和南夏降水减少所致。到热带融合带的北移。南北冬季降水减少可能与西风南移有关。相比之下,在冰川同位素阶段MIS 6、4和3期间,小孢子以Nama-karoo和细叶大草原为代价膨胀,这表明降水的相对增加可能集中在南方冬季。我们的记录还表明,同位素阶段和子阶段之间的从冷到热或从冷到暖的转变是由于湿度的短暂升高而引起的。 MIS 5e,5c和5a温暖子阶段的干旱增加,与进动指数和全球冰量的最小值一致。另一方面,北半球冰盖发达时,南北冬季降水增加与岁差最大值有关。
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