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Expectations regarding structural deformation of asteroidal meteorites have typically revolved around impact-induced shock metamorphism or the gravity-driven axial compression of cumulates at the base of magma chambers. Recent structural analyses, however, of several olivine-rich diogenites (harzburgites) reveal solid-state plastic deformation not attributable to either scenario and propose dynamic mantle movements in the parent body, assumed to be Vesta. In this study we examine the microstructures of pyroxene and olivine in the olivine-rich diogenite NWA 5480. Coarse-grained, poikilitic texture, exsolution lamellae and plastic deformation attest to polyphase deformation and a re-heating event, followed by relatively slow cooling. Observations suggest that impact events alone are insufficient to generate and sustain the thermal and deformation conditions required to achieve all of the observed features. The proposed dynamic mantle movements in the Vestan interior may offer a means of heat transport to the system to provide a thermal environment inducive to slow cooling as well as generate the incremental stress fields required for the polyphase plastic deformation observed in the olivine. 相似文献
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We classified five new ordinary chondrites from North West Africa. NWA 3010 is an L6(S5), NWA 3011 is an L5(S5), NWA 3012 is an LL4(S5), NWA 3013 is an L5(S5), and NWA 3014 is an H4(S1). The meteorites experienced a range of terrestrial alteration, with NWA 3010 equal to weathering grade W2, NWA 3011 equal to W3, NWA 3012 equal to W3, NWA 3013 equal to W2, and NWA 3014 equal to W4. 相似文献
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Nadia Vogel Heinrich Baur Addi Bischoff Rainer Wieler 《Chemie der Erde / Geochemistry》2011,(2):135-142
We analyzed noble gases and determined 3He, 21Ne, and 38Ar cosmic ray exposure ages (CREAs) of Rumuruti chondrites from North West Africa (NWA) to rule on potential pairings and/or source pairings of North Africa R chondrite samples. The 21Ne exposure ages range between 10 and 74 Ma, with NWA 2897 and 1668 having the highest known exposure ages among R chondrites. We also include other R chondrites from North Africa (Schultz et al., 2005) and, based on their noble gas characteristics and their 21Ne CREAs, propose pairings of the following samples: NWA 2198, 5069, 755, 4615, 845, 851, 978, 1471, and possibly DaG 013 belonging to one fall with a CREA of ∼10 Ma, and NWA 753, 4360, 4419, 5606, 1472, 1476, 1477, 1478, and 1566 representing one fall with a CREA of ∼14 Ma. NWA 2821, 2503, 2289, 3364, 3146, 4619, 4392, 3098, and 2446 seem to belong to one single fall with a CREA of ∼20 Ma, and NWA 2897 and 1668 seem to be paired and show a common CREA of ∼66 Ma. Overall, all R chondrite samples from North Africa analyzed for noble gases so far represent ∼16 individual falls. Comparing falls from North Africa to literature CREAs of R chondrites worldwide, it seems possible that a significant number of all R chondrite falls studied for noble gases were ejected from the R chondrite parent body during one large collisional event between 15 and 25 Ma ago. However, the database is still too small to draw definitive conclusions. The large portion of brecciated R chondrites in collections suggests severe impact brecciation of the R chondrite parent body. 相似文献
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NWA 12279为2016年发现的一块斜长岩质月球陨石,由86%的斜长岩和14%的冲击熔融角砾岩组成。斜长岩具嵌晶结构,矿物组成主要为斜长石(70. 6%)、橄榄石(11. 3%)、辉石(10. 0%)、镁铝尖晶石(7. 0%),含少量石英、铬铁矿和钛铁矿;冲击熔融角砾岩具角砾状结构,主要由岩屑(斜长岩、辉长-橄长-斜长岩、微斑熔融角砾岩、辉长岩)、晶屑(橄榄石、辉石、斜长石、尖晶石)、玻屑和基质组成。斜长岩和角砾岩的矿物组成基本一致,主要为斜长石(An_(92. 9~98. 4))、紫苏辉石(Fs_(15. 5~32. 2)Wo_(2. 98~4. 22))、易变辉石(Fs_(27. 9~53. 1)Wo_(7. 19~14. 7))、普通辉石(Fs_(8. 42~38. 9)Wo_(17. 0~44. 1))、橄榄石(Fo_(53. 7~89. 4))、尖晶石[(Mg_(4. 97)Fe_(0. 86))_(5. 83)(Al_(11. 4)Cr_(0. 61))_(12. 0)O_(24)]。通过对陨石的矿物组成、碎屑组成、矿物成分、全岩成分和冲击变质特征进行研究,并和已发现的月球斜长岩进行了对比,认为该陨石可能起源于一个新的富含尖晶石的辉长橄长斜长岩高地。该陨石的斜长岩和角砾岩具有不同的冲击特征,斜长岩区域发育橄榄石面状破裂、斜长石熔长石化及含未熔融的辉石和橄榄石晶屑的冲击熔脉;角砾岩区域发育玻璃质熔脉、冲击熔体及岩石角砾化,这些特征限制了斜长岩区和角砾岩区经历的冲击压力峰值分别约为45 GPa和78 GPa,温度峰值分别约为1 100℃和1890℃,冲击变质阶段为S_5~S_6。 相似文献
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