Relict Olivines in Micrometeorites: Precursors and Interactions in the Earth’s Atmosphere

Rudraswami, N. G.; Prasad, M.M.; Dey, S. K.; Fernandes, D.; Plane, J. M. C.; Feng, Wuhu; Taylor, Susan; Carrillo‐Sánchez, J. D.

doi:10.3847/0004-637x/831/2/197

Cited by 12 publications

(29 citation statements)

References 41 publications

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“…Micrometeorites are the largest contributors of extra-terrestrial material; this material is recovered from the Earthʼs surface using different collection techniques that target the stratosphere, Antarctica, and deep-sea sediments (Love & Brownlee 1993;Taylor et al 1998;Peucker-Ehrenbrink & Ravizza 2000;Plane 2012;Prasad et al 2013). The micrometeorites found on the Earthʼs surface have distinct chemical compositions that show similarities and differences with respect to the precursors they originate from; however, in general, a large number of micrometeorites are related to carbonaceous chondrites (e.g., Kurat et al 1994;Brownlee et al 1997;Taylor et al 2000Taylor et al , 2012Yada et al 2005;Rudraswami et al 2011Rudraswami et al , 2012Rudraswami et al , 2014Rudraswami et al , 2015aRudraswami et al , 2015bRudraswami et al , 2016a. The deviations in the chemical compositions from the precursors are caused by modification that occurs during melting and vaporization that take place as these particles enter into the Earthʼs atmosphere.…”

Section: Introductionmentioning

confidence: 99%

“…The deviations in the chemical compositions from the precursors are caused by modification that occurs during melting and vaporization that take place as these particles enter into the Earthʼs atmosphere. These modifications are dominated by a loss of elements based on their relative volatilities, and other physical processes that are parameterized by key variables such as size, density, entry velocity, and angle of entry, in addition to others (Love & Brownlee 1991;Rudraswami et al 2015aRudraswami et al , 2016a. The origin of micrometeorites is currently debated, whether the micrometeorites are asteroidal or cometary, and to what extent the origin contributes to the micrometeorites' flux is also debated (Dermott et al 1994;Brownlee 2001;Nesvorný et al 2010Nesvorný et al , 2011.…”

Section: Introductionmentioning

confidence: 99%

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Ablation and Chemical Alteration of Cosmic Dust Particles During Entry Into the Earth’s Atmosphere

Rudraswami

Prasad

Dey

et al. 2016

ApJS

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Most dust-sized cosmic particles undergo ablation and chemical alteration during atmospheric entry, which alters their original properties. A comprehensive understanding of this process is essential in order to decipher their preentry characteristics. The purpose of the study is to illustrate the process of vaporization of different elements for various entry parameters. The numerical results for particles of various sizes and various zenith angles are treated in order to understand the changes in chemical composition that the particles undergo as they enter the atmosphere. Particles with large sizes (> few hundred μm) and high entry velocities (>16 km s −1 ) experience less time at peak temperatures compared to those that have lower velocities. Model calculations suggest that particles can survive with an entry velocity of 11 km s −1 and zenith angles (ZA) of 30°-90°, which accounts for ∼66% of the region where particles retain their identities. Our results suggest that the changes in chemical composition of MgO, SiO 2 , and FeO are not significant for an entry velocity of 11 km s −1 and sizes <300 μm, but the changes in these compositions become significant beyond this size, where FeO is lost to a major extent. However, at 16 km s −1 the changes in MgO, SiO 2 , and FeO are very intense, which is also reflected in Mg/Si, Fe/Si, Ca/Si, and Al/Si ratios, even for particles with a size of 100 μm. Beyond 400 μm particle sizes at 16 km s −1 , most of the major elements are vaporized, leaving the refractory elements, Al and Ca, suspended in the troposphere.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Ablation and Chemical Alteration of Cosmic Dust Particles During Entry Into the Earth’s Atmosphere

Rudraswami

Prasad

Dey

et al. 2016

ApJS

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“…According to the terrestrial meteorite records, ordinary chondrites dominate the falls frequency (∼80%) followed by achondrites (∼13%) and carbonaceous chondrites (∼4%; Keil et al 1994). In contrast, this is not the case with MMs where carbonaceous chondrites overwhelmingly dominate (∼70% to >90%) the flux with minor contribution from ordinary chondrites based on chemical and isotopic evidence (e.g., Kurat et al 1994;Brownlee et al 1997;Genge et al 1997;Engrand et al 1999Engrand et al , 2005Taylor et al 2000Taylor et al , 2012Yada et al 2005;Rudraswami et al 2012Rudraswami et al , 2014Rudraswami et al , 2015aRudraswami et al , 2015bRudraswami et al , 2016aRudraswami et al , 2016c.…”

Section: Introductionmentioning

confidence: 71%

“…The present study compiles all of our earlier studies (Rudraswami et al 2012(Rudraswami et al , 2015a(Rudraswami et al , 2015b(Rudraswami et al , 2016a(Rudraswami et al , 2016c apart from newly collected MMs from Antarctica to know the bulk chemical composition and perceives with the model results. The collection methods in the polar region allow for better preservation of the MMs compared to that of the deep-sea sediments (Taylor & Brownlee 1991;Brownlee et al 1997).…”

Section: Sample Collectionsmentioning

confidence: 99%

“…Laboratory investigation based on chemical and isotopic studies from various researchers have shown that MMs are related to chondrules, calcium-aluminium-rich inclusions, and matrix from carbonaceous chondrites (e.g., Maurette et al 1991;Steele 1992;Kurat et al 1994;Beckerling & Bischoff 1995;Engrand et al 1999;Genge et al 2005Genge et al , 2008Gounelle et al 2005;Cordier et al 2011aCordier et al , 2011bVan Ginneken et al 2012, 2016Taylor et al 2012;Imae et al 2013;Rudraswami et al 2015aRudraswami et al , 2015bRudraswami et al , 2016aRudraswami et al , 2016c. However, there is evidence for some particles that are associated with cometary and interplanetary dust particles (Bradley 1994;Rietmeijer 1998;Ishii et al 2008;Noguchi et al 2015).…”

Section: Introductionmentioning

confidence: 99%

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Selective Disparity of Ordinary Chondritic Precursors in Micrometeorite Flux

Rudraswami

Fernandes

Naik

et al. 2018

ApJ

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All known extraterrestrial dust (micrometeoroids) entering the Earth's atmosphere is anticipated to have a significant contribution from ordinary chondritic precursors, as seen in meteorites, but this is an apparent contradiction that needs to be addressed. Ordinary chondrites represent a minor contribution to the overall meteor influx compared to carbonaceous chondrites, which are largely dominated by CI and/or CM chondrites. However, the near-Earth asteroid population presents a scenario with sufficient scope for generation of dust-sized debris from ordinary chondritic sources. The bulk chemical composition of 3255 micrometeorites (MMs) collected from Antarctica and deep-sea sediments has shown Mg/Si largely dominated by carbonaceous chondrites, and less than 10% having ordinary chondritic precursors. The chemical ablation model is combined with different initial chondritic compositions (CI, CV, L, LL, H), and the results clearly indicate that high-density (2.8 g cm −3 ) precursors, such as CV and ordinary chondrites in the size range 100-700 μm and zenith angle 0°-70°, ablate at much faster rates and lose their identity even before reaching the Earth's surface and hence are under-represented in our collections. Moreover, their ability to survive as MMs remains grim for high-velocity micrometeoroids (>16 km s −1 ). The elemental ratio for CV and ordinary chondrites are also similar to each other irrespective of the difference in the initial chemical composition. In conclusion, MMs belonging to ordinary chondritic precursors' concentrations may not be insignificant in thermosphere, as they are found on Earth's surface.

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Geochemical evaluation of cosmic spherules collected from the Central Indian Ocean Basin

Pandey,

Rudraswami,

Singh

et al. 2023

Deep Sea Research Part I: Oceanographic Research Papers

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Relict Olivines in Micrometeorites: Precursors and Interactions in the Earth’s Atmosphere

Cited by 12 publications

References 41 publications

Ablation and Chemical Alteration of Cosmic Dust Particles During Entry Into the Earth’s Atmosphere

Ablation and Chemical Alteration of Cosmic Dust Particles During Entry Into the Earth’s Atmosphere

Selective Disparity of Ordinary Chondritic Precursors in Micrometeorite Flux

Geochemical evaluation of cosmic spherules collected from the Central Indian Ocean Basin

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