Response of the Patagonian floras to climatic cooling during Oligocene−Miocene transition and the expansion of Antarctic glaciation

Mariano J. Tapia , Carolina Panti , Damián A. Fernández , Roberto R. Pujana , Viviana D. Barreda , Luis Palazzesi
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Abstract

Pulses of Antarctic ice sheet expansion and associated climatic deterioration are thought to have driven major shifts in the world's flora during the Cenozoic Era. However, the rarity of fossils from well-constrained sedimentary strata in high palaeolatitudes makes it difficult to explore to these vegetation shifts directly. In this study, we infer changing patterns of floristic richness through the Oligocene−Miocene cooling event (∼23 Ma), based on analysis of terrestrial palynological samples in the radiometrically-constrained sediments of the Río Guillermo Formation of southern Patagonia. Our fossil assemblages include plant families typical of modern Magellanic subpolar forests such as Nothofagaceae, Podocarpaceae, Araucariaceae, and Myrtaceae. Adjusted for sample completeness (or coverage), our floristic richness estimates are, on average, higher than those from modern subpolar forests yet considerably lower than any other Paleogene or Neogene palynological records published elsewhere from the continent. The transient Oligocene−Miocene cooling episode, whose effects were probably intensified in southern Patagonia due to its close proximity to the glaciated Antarctic Peninsula, may have contributed to the steep decline in floristic richness. We infer that most Gondwanan plant relicts that survived across the Oligocene−Miocene transition endured through subsequent Neogene climatic fluctuations and contribute to present-day Magellanic subpolar forests. Our study highlights how precisely-dated fossil assemblages and robust diversity methods can be used to track biodiversity shifts in response to past climate change.

渐新世—中新世过渡时期巴塔哥尼亚植物区系对气候变冷和南极冰川扩张的响应
人们认为,南极冰盖的脉冲扩张和相关的气候恶化导致了新生代世界植物群的重大变化。然而,由于古高纬度地区受到良好约束的沉积地层中化石的稀有性,使得直接探索这些植被变化变得困难。在这项研究中,我们通过对巴塔哥尼亚南部Río Guillermo组辐射受限沉积物中的陆生孢粉样品的分析,推断了渐新世-中新世冷却事件(~ 23 Ma)中植物区系丰富度的变化模式。我们的化石组合包括现代麦哲伦亚极地森林的典型植物科,如Nothofagaceae, podocarpacae, Araucariaceae和myrtacae。根据样本完整性(或覆盖范围)调整后,我们对植物区系丰富度的估计平均高于现代亚极地森林的估计,但远低于大陆其他地方发表的任何其他古近系或新近系孢粉学记录。渐新世—中新世短暂的降温事件可能导致了植物区系丰富度的急剧下降。由于巴塔哥尼亚南部靠近冰川覆盖的南极半岛,降温事件的影响可能加剧。我们推断,大多数冈瓦纳植物遗迹在渐新世-中新世过渡时期幸存下来,经历了随后的新近纪气候波动,并对今天的麦哲伦亚极地森林做出了贡献。我们的研究强调了精确年代的化石组合和强大的多样性方法可以用来追踪生物多样性对过去气候变化的响应。
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