Deep mantle cycling of oceanic crust: evidence from diamonds and their mineral inclusions. - Wikidata - awgldk - TriplyDB

Deep mantle cycling of oceanic crust: evidence from diamonds and their mineral inclusions.

Deep mantle cycling of oceanic crust: evidence from diamonds and their mineral inclusions.

http://www.wikidata.org/entity/Q55054898

about

Road to ruin: targeting proteins for degradation in the endoplasmic reticulum Discovery of the Fe-analogue of akimotoite in the shocked Suizhou L6 chondrite High-pressure orthorhombic ferromagnesite as a potential deep-mantle carbon carrier Structures of dolomite at ultrahigh pressure and their influence on the deep carbon cycle.Mineralogical effects on the detectability of the postperovskite boundary.Evidence for a Fe3+-rich pyrolitic lower mantle from (Al,Fe)-bearing bridgmanite elasticity data.Discovery of natural MgSiO3 tetragonal garnet in a shocked chondritic meteorite.Carbon substitution for oxygen in silicates in planetary interiors.Mantle-slab interaction and redox mechanism of diamond formation.Mineral inclusions in diamonds may be synchronous but not syngenetic Stability of iron-bearing carbonates in the deep Earth's interior.Pressure driven spin transition in siderite and magnesiosiderite single crystals.Natural diamond formation by self-redox of ferromagnesian carbonate.A large planetary body inferred from diamond inclusions in a ureilite meteorite.Valence and spin states of iron are invisible in Earth's lower mantle.Marine Carbonates in the Mantle Source of Oceanic Basalts: Pb Isotopic Constraints Carbonates at high pressures: Possible carriers for deep carbon reservoirs in the Earth's lower mantle Carbon isotope heterogeneity in metamorphic diamond from the Kokchetav UHP dolomite marble, northern Kazakhstan Optical signatures of low spin Fe3+ in NAL at high pressure Inclusions in super-deep diamonds: windows on the very deep Earth Drilling the solid earth: global geodynamic cycles and earth evolution The role of melt-rock interaction in the formation of Quaternary high-MgO potassic basalt from the Greater Khingan Range, northeast China Origin of sub-lithospheric diamonds from the Juina-5 kimberlite (Brazil): constraints from carbon isotopes and inclusion compositions

P2860

Q26866096-59722110-15CA-4216-8B57-CF3C2004A554 Q30362900-4872F50E-27E4-4CBC-8FC5-395470DDF8E9 Q30612933-C0F31728-1139-4D42-A59C-E82051BB57B4 Q34368517-BB55B52D-9440-4641-AF90-EE2B0830B66D Q35786917-9218F47C-B481-4285-8FBC-797499FCCFD0 Q36306904-7D7A039B-C714-4E4F-855F-2A6782D9BFCC Q36764054-39E4C470-E4A1-4DEC-A2B9-0FEDA106BC96 Q37218549-6CD9ECEF-13CD-4BD0-ADA3-337470C3C022 Q37409409-489E469C-07E6-48E7-BB3D-D089E1597159 Q37617917-3A1EB367-0057-4F69-A302-3448F9F36356 Q41109514-9DEF6708-E0BD-425C-83DB-6B1B4C61A6DA Q47103250-68C14D49-E137-42B4-B69F-B5F5762A8CA8 Q51747318-AAFCFA7F-BE7B-4527-A681-603E7F03D814 Q52582074-70217F83-AC45-4FB7-8F91-CBDA16DB750F Q55159604-7FA2176C-77B8-48CD-AADB-13FCC751C4E7 Q57296161-8452A268-6F06-4613-A3EB-7B640046DDEA Q57380072-EE31CD4F-668C-4B58-A80E-4F05D4D6FF4F Q57866054-931E428B-A663-472A-ADBD-9F449E0C8F19 Q57866728-8AAA4563-23A9-49B5-9BD9-6078D60E8828 Q57885773-C736272C-0DA6-4493-86E3-06CE91163EA9 Q58360606-AC8BA983-A088-4980-ACF9-381DA8B4E98E Q58377053-B874B531-139D-4DED-A281-C4828DCFABDB Q59295623-8ABFB8EE-0EE8-4D0C-8651-1DE1F7DA991A

P2860

Deep mantle cycling of oceanic crust: evidence from diamonds and their mineral inclusions.

http://www.wikidata.org/entity/Q55054898

description

2011 nî lūn-bûn

@nan

2011年の論文

@ja

2011年学术文章

@wuu

2011年学术文章

@zh-cn

2011年学术文章

@zh-hans

2011年学术文章

@zh-my

2011年学术文章

@zh-sg

2011年學術文章

@yue

2011年學術文章

@zh

2011年學術文章

@zh-hant

name

Deep mantle cycling of oceanic ...... and their mineral inclusions.

@en

Deep mantle cycling of oceanic ...... and their mineral inclusions.

@nl

type

label

Deep mantle cycling of oceanic ...... and their mineral inclusions.

@en

Deep mantle cycling of oceanic ...... and their mineral inclusions.

@nl

prefLabel

Deep mantle cycling of oceanic ...... and their mineral inclusions.

@en

Deep mantle cycling of oceanic ...... and their mineral inclusions.

@nl

P1433

Q55054898-B3BD5A75-92A8-487E-A7EE-37969681AF5C

P1476

Q55054898-FC7B8EF7-F033-47AC-A5B2-66CBF3B3F4FA

P2093

Q55054898-55661121-FC74-4327-AA41-A21E05150739

Q55054898-78C74611-5E91-4623-B957-1DA7182C2994

Q55054898-8DE225A2-3D40-47B2-917A-BB0292DE8E20

Q55054898-996EFACF-BE88-42C5-89B0-4BCC8AB44E38

Q55054898-A680B680-D005-4A22-BD26-9C6339A0B1BD

P2860

Q55054898-02238CD3-161F-4D3A-ACC5-4E0898F31F6F

Q55054898-5F106FBB-18F6-449C-ACC3-EAA16FF9ECE6

Q55054898-8064749A-CD51-40C1-9700-0F0C45F416E2

Q55054898-83590ACB-D7C2-4C33-BD7E-A54BA2B5EFD7

Q55054898-A112ABA6-AC32-49F0-BC02-C94481B24F79

Q55054898-ADC018AD-7AE9-4773-9D9E-B73DE6B5C84D

Q55054898-E33178DE-0E76-418D-95E2-8B233739FDA4

Q55054898-EFBFBE0E-1A1B-4DEE-8077-451714C0F31C

Q55054898-F96E9721-9DFC-4465-BC3F-9F083E8FA70F

P304

Q55054898-C0F25E46-6CAB-455D-8C01-87ED9AE3E464

P31

Q55054898-337C9C1C-61E9-4644-B736-97245EEE35EF

P356

Q55054898-816C09AD-0C32-4D6D-8B83-E225F8CB60AA

P407

Q55054898-C10EEDA9-B998-4C14-9219-B163561694A6

P433

Q55054898-BD9DA679-A1EA-4373-BAAD-EC915AA943A7

P478

Q55054898-9082BABC-AE29-4FA9-8B10-277185950972

P50

Q55054898-0766E691-3E75-478E-83BF-A95F4ACCB5C0

Q55054898-80F229C6-C711-4AF4-9666-71D5F757F80D

Q55054898-9D216DCB-0FFE-4C67-BCA7-8DBE1962952D

Q55054898-B25A6266-9F6D-4CC9-BCEE-991956C7D1CC

P577

Q55054898-B14FA6F8-E65C-4271-B40D-E6EF2419473B

P5875

Q55054898-E218EADB-33B4-4772-A7C1-7225177DD99C

P698

Q55054898-FC965EF6-E0FB-4E2F-B84E-48137AA271BE

P356

SCIENCE.1209300

P1433

P1476

Deep mantle cycling of oceanic crust: evidence from diamonds and their mineral inclusions

@en

P2093

C B Smith

http://www.w3.org/2001/XMLSchema#string

D Araujo

http://www.w3.org/2001/XMLSchema#string

G P Bulanova

http://www.w3.org/2001/XMLSchema#string

M J Walter

http://www.w3.org/2001/XMLSchema#string

S B Shirey

http://www.w3.org/2001/XMLSchema#string

P2860

Stagnant Slab: A Review

Primary carbonatite melt from deeply subducted oceanic crust.

Diamonds sampled by plumes from the core-mantle boundary.

Redox freezing and melting in the Earth's deep mantle resulting from carbon-iron redox coupling.

Evidence of lower-mantle slab penetration phases in plate motions.

Deep mantle diamonds from South Australia: A record of Pacific subduction at the Gondwanan margin

Subducting oceanic crust: The source of deep diamonds

Evidence for deep mantle circulation from global tomography

Seismic evidence for a fossil mantle plume beneath South America and implications for plate driving forces

P304

54-57

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1126/SCIENCE.1209300

http://www.w3.org/2001/XMLSchema#string

P407

P433

6052

http://www.w3.org/2001/XMLSchema#string

P478

334

http://www.w3.org/2001/XMLSchema#string

P50

P577

2011-09-15T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

51645928

http://www.w3.org/2001/XMLSchema#string

P698

21921159

http://www.w3.org/2001/XMLSchema#string