Discovery of fossil micrometeorites from the Deccan trap intertrappeans

IF 2.2 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Meteoritics & Planetary Science Pub Date : 2024-08-30 DOI:10.1111/maps.14256
V. P. Singh, N. G. Rudraswami, Nittala V. Chalapathi Rao, Matthew J. Genge, M. Pandey, S. Sreekuttan, S. Chattopadhaya
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Abstract

The Cretaceous–Paleogene (K-Pg) boundary represents the extinction of ~70% of species, a prominent Chicxulub impact event and Deccan volcanism. This work reports the first attempt to extract the micrometeorites (MMs) from the Deccan intertrappean horizons. Eighty-one spherical particles were studied for their morphological, textural, and chemical characteristics. Intact cosmic spherules with ferromagnesian silicates (6) and Fe-Ni oxide (7) compositions correspond to MMs from the deep sea and Antarctica. Silicate and Fe-Ni spherules in this study showcase remarkable preservation, a testament to the highly favorable conditions present. Fe spherules (38) with iron oxide compositions exhibit diagenetic alteration during preservation. Textural analysis of 30 Fe spherules reveals a dendritic, interlocking pattern and slightly elevated Mn content, suggesting these may be fossilized I-type MMs. However, eight Fe spherules with blocky and cubical granular textures resemble oxidized pyrite spherules. Al-Fe-Si spherules (30) possess a significant enrichment of Al and Si within their Fe-oxide-dominated composition. Group-I Al-Fe-Si spherules (15) display zoned Al-Fe-Si oxide composition, dendritic Mg-Cr spinel grains, and aerodynamic features, all indicative of impact spherules. The finding of these impact spherules from sampled Deccan intertrappean layer raises the possibility that these paleosols were deposited during the Chicxulub impact event, the only identified impact event with global distribution during the Deccan volcanism time frame. This unique location provides an opportunity for the simultaneous collection of well-preserved MMs, impact, and volcanic spherules. The exceptional preservation of the studied MMs is likely due to a combination of non-marine environments, atypical climatic conditions, and rapid deposition. This study further investigates the potential role of cosmic dust flux in the K-Pg extinction event. We propose that the enhanced cosmic dust flux, a likely scenario during the K-Pg boundary period, synergistically mixing with impact dust in the upper atmosphere, may have intensified and extended the harsh climatic conditions at the K-Pg boundary. Subsequently, the deposition of this dust, enriched in bioavailable iron, on Earth's surface might have contributed to the swift recovery of life and environmental conditions.

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德干陷阱岩层间微陨石化石的发现
白垩纪-古近纪(K-Pg)边界代表了约 70% 的物种灭绝、突出的奇克苏吕布撞击事件和德干火山活动。本研究报告首次尝试从德干半岛岩层间提取微陨石(MMs)。对 81 个球形颗粒的形态、纹理和化学特征进行了研究。具有铁镁硅酸盐(6)和铁镍氧化物(7)成分的完整宇宙球粒与深海和南极洲的微陨石相对应。本研究中的硅酸盐和铁镍球体保存完好,证明了当时的条件非常有利。含氧化铁成分的铁球(38 个)在保存过程中表现出成岩蚀变。对 30 个铁球的纹理分析表明,这些铁球呈树枝状交错排列,锰含量略高,表明它们可能是 I 型 MMs 化石。然而,8 个具有块状和立方颗粒状纹理的铁球粒类似于氧化黄铁矿球粒。铝-铁-硅球化石(30)在其以铁氧化物为主的成分中,铝和硅的含量显著增加。第 I 组 Al-Fe-Si 球粒(15)显示了带状 Al-Fe-Si 氧化物成分、树枝状 Mg-Cr 尖晶石颗粒和空气动力学特征,所有这些都表明是撞击球粒。从德干半岛岩层间取样中发现的这些撞击球体提出了一种可能性,即这些古溶胶是在奇克苏卢布撞击事件期间沉积下来的,而奇克苏卢布撞击事件是在德干火山活动期间唯一确定的分布于全球的撞击事件。这一独特的位置为同时收集保存完好的 MMs、撞击和火山球提供了机会。所研究的 MMs 得以保存完好,很可能是由于非海洋环境、非典型气候条件和快速沉积的综合作用。这项研究进一步探讨了宇宙尘埃通量在 K-Pg 灭绝事件中的潜在作用。我们认为,在K-Pg边界时期,宇宙尘埃通量的增强很可能与高层大气中的撞击尘埃混合在一起,从而加剧并延长了K-Pg边界的恶劣气候条件。随后,这些富含生物可利用铁的尘埃沉积在地球表面,可能促进了生命和环境条件的迅速恢复。
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来源期刊
Meteoritics & Planetary Science
Meteoritics & Planetary Science 地学天文-地球化学与地球物理
CiteScore
3.90
自引率
31.80%
发文量
121
审稿时长
3 months
期刊介绍: First issued in 1953, the journal publishes research articles describing the latest results of new studies, invited reviews of major topics in planetary science, editorials on issues of current interest in the field, and book reviews. The publications are original, not considered for publication elsewhere, and undergo peer-review. The topics include the origin and history of the solar system, planets and natural satellites, interplanetary dust and interstellar medium, lunar samples, meteors, and meteorites, asteroids, comets, craters, and tektites. Our authors and editors are professional scientists representing numerous disciplines, including astronomy, astrophysics, physics, geophysics, chemistry, isotope geochemistry, mineralogy, earth science, geology, and biology. MAPS has subscribers in over 40 countries. Fifty percent of MAPS'' readers are based outside the USA. The journal is available in hard copy and online.
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