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在巴芬湾多个岩芯中记录的一个有12800年历史的层,含有彗星尘埃、微球粒和铂异常。

A 12,800-year-old layer with cometary dust, microspherules, and platinum anomaly recorded in multiple cores from Baffin Bay.

作者信息

Moore Christopher R, Tselmovich Vladimir A, LeCompte Malcolm A, West Allen, Culver Stephen J, Mallinson David J, Baalousha Mohammed, Kennett James P, Napier William M, Bizimis Michael, Adedeji Victor, Sutton Seth R, Kletetschka Gunther, Langworthy Kurt A, Perez Jesus P, Witwer Timothy, Young Marc D, Alam Mahbub, Jeffreys Jordan, Greenwood Richard C, Malley James A

机构信息

South Carolina Institute for Archaeology and Anthropology, University of South Carolina, Columbia, South Carolina, United States of America.

South Carolina Department of Natural Resources, Heritage Trust Program; Land, Water, and Conservation Division, Columbia, South Carolina, United States of America.

出版信息

PLoS One. 2025 Aug 6;20(8):e0328347. doi: 10.1371/journal.pone.0328347. eCollection 2025.

DOI:10.1371/journal.pone.0328347
PMID:40768403
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12327676/
Abstract

The Younger Dryas Impact Hypothesis (YDIH) posits that ~12,800 years ago Earth encountered the debris stream of a disintegrating comet, triggering hemisphere-wide airbursts, atmospheric dust loading, and the deposition of a distinctive suite of extraterrestrial (ET) impact proxies at the Younger Dryas Boundary (YDB). Until now, evidence supporting this hypothesis has come only from terrestrial sediment and ice-core records. Here we report the first discovery of similar impact-related proxies in ocean sediments from four marine cores in Baffin Bay that span the YDB layer at water depths of 0.5-2.4 km, minimizing the potential for modern contamination. Using scanning electron microscopy with energy-dispersive spectroscopy (SEM-EDS) and laser ablation ICP-MS, we detect synchronous abundance peaks of metallic debris geochemically consistent with cometary dust, co-occurring with iron- and silica-rich microspherules (4-163 μm) that are predominantly of terrestrial origin with minor (<2 wt%) ET contributions. These microspherules were likely formed by low-altitude touchdown airbursts and surface impacts of comet fragments and were widely dispersed. In addition, single-particle ICP-TOF-MS analysis reveals nanoparticles (<1 μm) enriched in platinum, iridium, nickel, and cobalt. Similar platinum-group element anomalies at the YDB have been documented at dozens of sites worldwide, strongly suggesting an ET source. Collectively, these findings provide robust support for the YDIH. The impact event likely triggered massive meltwater flooding, iceberg calving, and a temporary shutdown of thermohaline circulation, contributing to abrupt Younger Dryas cooling. Our identification of a YDB impact layer in deep marine sediments underscores the potential of oceanic records to broaden our understanding of this catastrophic event and its climatological impacts.

摘要

新仙女木撞击假说(YDIH)认为,约12800年前,地球遭遇了一颗正在解体的彗星的碎片流,引发了半球范围的空中爆炸、大气尘埃负载,并在新仙女木边界(YDB)沉积了一套独特的外星(ET)撞击代理物。到目前为止,支持这一假说的证据仅来自陆地沉积物和冰芯记录。在此,我们报告了在巴芬湾四个海洋岩芯的海洋沉积物中首次发现类似的与撞击相关的代理物,这些岩芯跨越了水深0.5 - 2.4千米的YDB层,将现代污染的可能性降至最低。通过使用能量色散光谱扫描电子显微镜(SEM - EDS)和激光烧蚀电感耦合等离子体质谱仪,我们检测到与彗星尘埃地球化学性质一致的金属碎片的同步丰度峰值,同时伴有富含铁和硅的微球粒(4 - 163微米),这些微球粒主要源自陆地,外星贡献较小(<2重量%)。这些微球粒可能是由彗星碎片的低空触地空中爆炸和表面撞击形成的,并广泛散布。此外,单颗粒电感耦合等离子体质谱飞行时间分析揭示了富含铂、铱、镍和钴的纳米颗粒(<1微米)。在全球数十个地点都记录到了YDB处类似的铂族元素异常,强烈表明其外星来源。总体而言,这些发现为YDIH提供了有力支持。撞击事件可能引发了大规模融水洪水、冰山崩解以及热盐环流的暂时停止,导致了新仙女木期的突然降温。我们在深海沉积物中识别出YDB撞击层,突显了海洋记录在拓宽我们对这一灾难性事件及其气候影响理解方面的潜力。

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