微陨石
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微陨石是在地球表面收集到来自地球之外的小天体,大小范围从50微米至2毫米。微陨石是进入地球大气层而幸存下来的流星尘。它们从大小、组成都与陨石不同,并且数量、种类更为丰富,其中也包括较小的星际尘埃的颗粒(IDPs)[1],是宇宙尘的一部分。流星体以高速(至少11Km/s)进入地球的大气层,经过加热和大气的磨擦和压缩。目前已经在地球上搜集到,来自地球之外个别微陨石的质量在10−9和 10−4公克之间[2]。 弗雷德·惠普尔首先创造了微陨石这个名称来描述落在地球上如灰尘大小的天体[3]。有时,陨石和微陨石在进入地球大气层时是被看见的流星,但不论它们能否坠落到地球表面被找到,陨石和微陨石依然都存在著。
介绍
编辑微陨石(MM)的纹理会因为原始结构在进入大气层时的加热过程,随著它们的初始速度和进入角度的函数而改变。它们的范围从保留原始矿物学未熔解的颗粒(图1a、b)到部分熔解的微粒(图1c、d)和完全熔解成圆形的宇宙球体(图1e、f、g、h),其中一些经过汽化阶段已经失去了很大部分的质量(图1i)。分类是依据它们的组成和经历的温度[4][5]。
由显微分析显示微陨石确实是来自地球之外:
- 它们所含的金属类似于陨石中的[6]。
- 有些wüstite,一种耐高温的铁氧化物,在陨石熔融的外壳中发现[7]
- 它们的矽酸盐矿物的比例类似于在陨石中找到的常量和微量元素的比例[8][9]。
- 在铁球体的宇宙锰(53Mn同位素),铝(26Al)内的宇宙铍(10Be同位素),和太阳氖(氖同位素)的丰度与来自外星的石质微流星体相似[10][11]。
- 在微陨石中存在一些前太阳系颗粒[12],和在超碳微陨石中的氘过量,表明它们不仅是天外来客,并且有些还是在太阳系形成之前的原件。
估计每年有30,000 ± 20,000 吨 (t/年)[2]的宇宙尘进入上层大气层,但估计只有少于10%(2700 ± 1400t/yr)的能够成为颗粒降落到地球表面。因此,微陨石的沉积量大约比陨石的量高出50倍,而陨石的量是50t/yr[13],并且每年有为数庞大的微粒(~1017 > 10 µ m)进入大气层,这表明收集的微陨石尘埃微粒来自太阳系的所有天体,包括小行星、彗星,和来自我们的月球和火星的片段碎屑。大微陨石的收集能提供的讯息包括大小、组成、大气的热效应和在地球增生的物质类型,对个别微陨石的详细研究可以洞察它们的起源、原始的碳、胺基酸和包含的前太阳颗粒[14]。
收集场所
编辑微陨石的收集来自深海沉积物、沉积岩、和极地沉积物;目前的收集主要来自极地的冰和雪。由于微陨石在地球表面的低浓度,必须在能够浓缩这些材料的环境中寻找它们。
海洋沉积物
编辑在1873年至1876年,英国皇家海军挑战者号首先从深海收集熔化的微陨石(宇宙球体)。在1891年,Murray和Renard发现"两种微陨石族群:第一种是黑色的磁球体,有或没有金属的核心;第二种,有著结晶的结构,棕色的类似陨石球粒的球体"[15]。在1883年,他们建议这些球体是来自地球之外,因为他们发现这些颗粒远不同于地球上其它粒子,它们不像当时从熔炉中山产出来的磁球,而且它们的镍-铁(Fe-Ni)金属核心也不像在火成岩中发现的金属铁。这些球体在缓慢累积的沉积物中有最大的丰度,特别是沉积在碳酸盐补偿深度之下的红黏土,这些发现支持起源于陨石[16]。除了这些球体和铁-镍金属核心,一些大于300µm的球体核心包含铂族元素[17]。
自从HMS Challenger的第一次收集之后,宇宙球体已经使用岩心、砂心、蛤壳状挖泥器、磁雪撬等从海洋沉积物中反复的收集到[18]。其中的磁雪橇,被称为"宇宙淤泥的耙子",从太平洋海床顶部的红黏土收集到数以千计的10cm宇宙球体[19]。
陆地沉积物
编辑相关条目
编辑参考资料
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进阶读物
编辑- Castaing, K.; Fredriksson, K. Analyses of cosmic spherules with an X-ray microanalyser. Geochimica et Cosmochimica Acta. 1958-08, 14 (1-2): 114–117 [2022-04-08]. Bibcode:1958GeCoA..14..114C. doi:10.1016/0016-7037(58)90099-1. (原始内容存档于2021-12-15) (英语).
- Dobrica, E.; Engrand, C.; Duprat, J.; Gounelle, M. A Statistical Overview of CONCORDIA Antarctic Micrometeorites. Meteoritics and Planetary Science Supplement. 2010-09-01, 73: 5213 [2022-06-26]. (原始内容存档于2020-08-03).
- Duprat, J.; Engrand, C.; Maurette, M.; Kurat, G.; Gounelle, M.; Hammer, C. Micrometeorites from Central Antarctic snow: The CONCORDIA collection. Advances in Space Research. 2007-01, 39 (4): 605–611 [2022-04-08]. Bibcode:2007AdSpR..39..605D. doi:10.1016/j.asr.2006.05.029. (原始内容存档于2022-06-15) (英语).
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- Flynn, G.J. Atmospheric entry heating: A criterion to distinguish between asteroidal and cometary sources of interplanetary dust. Icarus. 1989-02, 77 (2): 287–310 [2022-04-08]. Bibcode:1989Icar...77..287F. doi:10.1016/0019-1035(89)90091-2. (原始内容存档于2022-06-18) (英语).
- Genge, Matthew J.; Grady, Monica M.; Hutchison, Robert. The textures and compositions of fine-grained Antarctic micrometeorites: Implications for comparisons with meteorites. Geochimica et Cosmochimica Acta. 1997-12, 61 (23): 5149–5162 [2022-04-08]. Bibcode:1997GeCoA..61.5149G. doi:10.1016/S0016-7037(97)00308-6. (原始内容存档于2019-12-02) (英语).
- Goodrich, Cyrena A.; Delaney, Jeremy S. Fe/Mg–Fe/Mn relations of meteorites and primary heterogeneity of primitive achondrite parent bodies. Geochimica et Cosmochimica Acta. 2000-01, 64 (1): 149–160 [2022-04-08]. Bibcode:2000GeCoA..64..149G. doi:10.1016/S0016-7037(99)00107-6. (原始内容存档于2019-11-30) (英语).
- Gounelle, Matthieu; Chaussidon, Marc; Morbidelli, Alessandro; Barrat, Jean-Alix; Engrand, Cécile; Zolensky, Michael E.; McKeegan, Kevin D. A unique basaltic micrometeorite expands the inventory of solar system planetary crusts. Proceedings of the National Academy of Sciences. 2009-04-28, 106 (17): 6904–6909. Bibcode:2009PNAS..106.6904G. ISSN 0027-8424. PMC 2678474 . PMID 19366660. doi:10.1073/pnas.0900328106 (英语).
- Grün, E.; Zook, H.A.; Fechtig, H.; Giese, R.H. Collisional balance of the meteoritic complex. Icarus. 1985-05, 62 (2): 244–272 [2022-04-08]. Bibcode:1985Icar...62..244G. doi:10.1016/0019-1035(85)90121-6. (原始内容存档于2022-03-19) (英语).
- Harvey, R. P.; Maurette, M. The origin and significance of cosmic dust from the Walcott Névé, Antarctica.. Lunar and Planetary Science Conference Proceedings. 1991-01-01, 21: 569–578 [2022-04-08]. (原始内容存档于2022-04-08).
- Hashimoto, Akihiko. Evaporation metamorphism in the early solar nebula. Evaporation experiments on the melt FeO-MgO-SiO2-CaO-Al2O3 and chemical fractionations of primitive materials.. GEOCHEMICAL JOURNAL. 1983, 17 (3): 111–145 [2022-04-08]. ISSN 0016-7002. doi:10.2343/geochemj.17.111. (原始内容存档于2022-06-21) (英语).
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- Imae, N.; Taylor, S.; Iwata, N. Coarse-grained relict minerals in Antarctic micrometeorites: Links to chondrites and comets. Geochimica et Cosmochemica Acta. Accepted.
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- Matrajt, G.; Pizzarello, S.; Taylor, S.; Brownlee, D. Concentration and variability of the AIB amino acid in polar micrometeorites: Implications for the exogenous delivery of amino acids to the primitive Earth. Meteoritics & Planetary Science. 2004-11, 39 (11): 1849–1858 [2022-04-08]. Bibcode:2004M&PS...39.1849M. doi:10.1111/j.1945-5100.2004.tb00080.x. (原始内容存档于2022-04-08) (英语).
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- Taylor, Susan; Matrajt, Graciela; Guan, Yunbin. Fine-grained precursors dominate the micrometeorite flux: Fine-grained precursors dominate the micrometeorite flux. Meteoritics & Planetary Science. 2012-04, 47 (4): 550–564 [2022-04-08]. Bibcode:2012M&PS...47..550T. doi:10.1111/j.1945-5100.2011.01292.x. (原始内容存档于2022-04-08) (英语).
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外部链接
编辑- Meteoroids Page at NASA's Solar System exploration
- Current meteorite news articles (页面存档备份,存于互联网档案馆)
- International Meteorite Collectors Association (页面存档备份,存于互联网档案馆) News and information about meteorite collecting and authentication ethics
- Planetary Science Research Discoveries: meteorite articles and photographs (页面存档备份,存于互联网档案馆)
- The British and Irish Meteorite Society (页面存档备份,存于互联网档案馆)
- Types of extraterrestrial material available for study (页面存档备份,存于互联网档案馆)
- The Natural History Museum's meteorite catalogue database (页面存档备份,存于互联网档案馆)
- Meteoritical Society (页面存档备份,存于互联网档案馆)
- Earth Impact Database (页面存档备份,存于互联网档案馆)