[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"minerals:one:3421":3},{"id":4,"longid":5,"guid":6,"name":7,"shortcode_ima":8,"entrytype":9,"entrytype_text":10,"varietyof":11,"synid":11,"polytypeof":11,"groupid":12,"weighting":13,"nolocadd":14,"blacklisted":14,"mindat_formula":15,"mindat_formula_note":11,"ima_formula":16,"elements":17,"sigelements":22,"key_elements":11,"impurities":23,"cim":24,"ima_status":25,"ima_notes":11,"ima_history":11,"approval_year":27,"publication_year":11,"discovery_year":28,"strunz10ed1":29,"strunz10ed2":30,"strunz10ed3":31,"strunz10ed4":32,"dana8ed1":33,"dana8ed2":34,"dana8ed3":34,"dana8ed4":35,"csystem":36,"cclass":37,"spacegroup":38,"spacegroupset":39,"a":40,"b":41,"c":41,"alpha":41,"beta":41,"gamma":41,"aerror":11,"berror":11,"cerror":11,"alphaerror":11,"betaerror":11,"gammaerror":11,"va3":11,"z":42,"csmetamict":14,"commentcrystal":11,"twinning":11,"tranglide":11,"parting":11,"epitaxidescription":11,"morphology":43,"tlform":11,"hmin":11,"hmax":11,"hardtype":11,"vhnmin":41,"vhnmax":41,"vhnerror":11,"vhng":11,"vhns":11,"commenthard":11,"dmeas":41,"dmeas2":41,"dcalc":44,"dmeaserror":11,"dcalcerror":11,"commentdense":11,"lustre":11,"lustretype":11,"commentluster":11,"diapheny":45,"streak":11,"colour":46,"commentcolor":11,"colors":47,"streak_colors":11,"luminescence":11,"uv":11,"cleavage":11,"cleavagetype":11,"fracturetype":11,"tenacity":11,"commentbreak":11,"opticaltype":52,"opticalsign":11,"opticalalpha":41,"opticalalpha2":41,"opticalalphaerror":11,"opticalbeta":41,"opticalbeta2":41,"opticalbetaerror":11,"opticalgamma":41,"opticalgamma2":41,"opticalgammaerror":11,"opticalomega":41,"opticalomega2":41,"opticalomegaerror":11,"opticalepsilon":41,"opticalepsilon2":41,"opticalepsilonerror":11,"opticaln":53,"opticaln2":41,"opticalnerror":11,"optical2vcalc":41,"optical2vcalc2":41,"optical2vcalcerror":11,"optical2vmeasured":41,"optical2vmeasured2":41,"optical2vmeasurederror":11,"rimin":11,"rimax":11,"opticaldispersion":11,"opticalpleochroism":11,"opticalpleochorismdesc":11,"opticalbirefringence":11,"opticalcomments":11,"opticalcolour":11,"opticalinternal":11,"opticaltropic":11,"opticalanisotropism":11,"opticalbireflectance":11,"opticalextinction":11,"opticalr":11,"specdispm":11,"ir":11,"electrical":11,"magnetism":11,"thermalbehaviour":11,"other":11,"industrial":54,"occurrence":55,"otheroccurrence":56,"type_specimen_store":57,"description_short":58,"aboutname":59,"rock_parent":11,"rock_parent2":11,"rock_root":9,"rock_bgs_code":11,"meteoritical_code":11,"updttime":60,"reviewed_at":11,"variety_of":11,"varieties":61,"group_members":62,"associates":108,"confused_with":109,"type_localities":130,"occurrence_total":137,"citations":138,"images":236,"structures":257,"synonyms":285,"language_names":288,"wikidata_qid":377,"texts":378},3421,"1:1:3421:6","f6674bc6-e12a-40c8-a8b1-6a0137beca93","Ringwoodite","Rwd",0,"mineral",null,52868,38,false,"(Mg,Fe\u003Csup>2+\u003C\u002Fsup>)\u003Csub>2\u003C\u002Fsub>SiO\u003Csub>4\u003C\u002Fsub>","SiMg\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>",[18,19,20,21],"Fe","Mg","Si","O",[19,20,21],",Ti,Mn,Ca,","14.21.2",[26],"APPROVED",1968,"1969","9","A","C","15","51","3","1","Isometric",32,222,"Fd-3m","8.113","0",8,"Rounded grains, to 100 μm, or massive","3.9","Translucent","Bluish- to smoke-gray, purple, colourless",[48,49,50,51],"gray","blue","purple","colorless","Isotropic","1.768","None.","Tenham meteorite","Meteorites, Inclusion in terrestrial diamond","The Natural History Museum, London, England, 1935,792.","Mg analogue of ahrensite.  There is at least a partial series with ahrensite (Bindi et al., 2020).\r\n\r\nThe isometric polymorph of Wadsleyite and Forsterite. May result from prograde transformation of the latter minerals.\r\n\r\nExperiments show that ringwoo...","Named in 1969 by R.A. Binns, R.J. Davis, and S.J.B. Reed in honor of Alfred Edward (\"Ted\") Ringwood (19 April 1930, Melbourne, Australia – 12 November 1993,Canberra, Australia), noted geochemist and Professor of Geology, Australian National University, Canberra, who predicted the mineral based on laboratory studies. He was the recipient of numerous awards including the Bowie Medal, the Wollaston Medal and the H.H. Hess Medal.","2025-10-04 10:40:29",[],[63,68,76,85,93,100],{"id":64,"name":65,"entrytype":9,"csystem":36,"ima_formula":66,"mindat_formula":66,"hmin":11,"hmax":11,"dmeas":11,"dcalc":67,"primary_image_id":11},43891,"Ahrensite","SiFe\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>","4.135",{"id":69,"name":70,"entrytype":9,"csystem":36,"ima_formula":71,"mindat_formula":72,"hmin":73,"hmax":73,"dmeas":41,"dcalc":74,"primary_image_id":75},792,"Brunogeierite","Fe\u003Csup>2+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>Ge\u003Csup>4+\u003C\u002Fsup>O\u003Csub>4\u003C\u002Fsub>","Ge\u003Csup>4+\u003C\u002Fsup>Fe\u003Csup>2+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>",5,"5.51",4094,{"id":77,"name":78,"entrytype":9,"csystem":36,"ima_formula":79,"mindat_formula":80,"hmin":81,"hmax":82,"dmeas":41,"dcalc":83,"primary_image_id":84},1548,"Filipstadite","(Fe\u003Csup>3+\u003C\u002Fsup>\u003Csub>0.5\u003C\u002Fsub>Sb\u003Csup>5+\u003C\u002Fsup>\u003Csub>0.5\u003C\u002Fsub>)Mn\u003Csup>2+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>","(Fe\u003Csup>3+\u003C\u002Fsup>\u003Csub>0.5\u003C\u002Fsub>Sb\u003Csup>5+\u003C\u002Fsup>\u003Csub>0.5\u003C\u002Fsub>)Mn\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>",6,6.5,"4.9",8923,{"id":86,"name":87,"entrytype":9,"csystem":36,"ima_formula":88,"mindat_formula":88,"hmin":89,"hmax":89,"dmeas":90,"dcalc":91,"primary_image_id":92},3331,"Qandilite","(Mg,Fe\u003Csup>3+\u003C\u002Fsup>)\u003Csub>2\u003C\u002Fsub>(Ti,Fe\u003Csup>3+\u003C\u002Fsup>,Al)O\u003Csub>4\u003C\u002Fsub>",7,"4.03","4.04",20383,{"id":94,"name":95,"entrytype":9,"csystem":96,"ima_formula":97,"mindat_formula":97,"hmin":11,"hmax":11,"dmeas":41,"dcalc":98,"primary_image_id":99},7072,"Tegengrenite","Trigonal","(Mn\u003Csup>3+\u003C\u002Fsup>\u003Csub>0.5\u003C\u002Fsub>Sb\u003Csup>5+\u003C\u002Fsup>\u003Csub>0.5\u003C\u002Fsub>)Mg\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>","4.58",23745,{"id":101,"name":102,"entrytype":9,"csystem":36,"ima_formula":103,"mindat_formula":104,"hmin":105,"hmax":81,"dmeas":41,"dcalc":106,"primary_image_id":107},4089,"Ulvöspinel","Fe\u003Csup>2+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>TiO\u003Csub>4\u003C\u002Fsub>","TiFe\u003Csup>2+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>",5.5,"4.78",2677,[],[110,111,119,124],{"id":64,"name":65,"entrytype":9,"csystem":36,"ima_formula":66,"mindat_formula":66,"hmin":11,"hmax":11,"dmeas":11,"dcalc":67,"primary_image_id":11},{"id":112,"name":113,"entrytype":9,"csystem":114,"ima_formula":115,"mindat_formula":115,"hmin":89,"hmax":89,"dmeas":116,"dcalc":117,"primary_image_id":118},1584,"Forsterite","Orthorhombic","Mg\u003Csub>2\u003C\u002Fsub>(SiO\u003Csub>4\u003C\u002Fsub>)","3.275","3.271",29729,{"id":120,"name":121,"entrytype":9,"csystem":114,"ima_formula":122,"mindat_formula":122,"hmin":11,"hmax":11,"dmeas":11,"dcalc":123,"primary_image_id":11},54351,"Poirierite","Mg\u003Csub>2\u003C\u002Fsub>SiO\u003Csub>4\u003C\u002Fsub>","3.326",{"id":125,"name":126,"entrytype":9,"csystem":114,"ima_formula":122,"mindat_formula":127,"hmin":11,"hmax":11,"dmeas":41,"dcalc":128,"primary_image_id":129},4228,"Wadsleyite","Mg\u003Csub>4\u003C\u002Fsub>O(Si\u003Csub>2\u003C\u002Fsub>O\u003Csub>7\u003C\u002Fsub>)","3.84",27707,[131],{"id":132,"txt":133,"latitude":134,"longitude":135,"country":136},9914,"Tenham meteorite, Tenham Station, Windorah, Barcoo Shire, Queensland, Australia",-25.7333333,142.95,"Australia",31,[139,143,147,151,156,161,165,170,175,180,185,189,193,197,201,205,209,214,218,222,227,231],{"id":140,"year":141,"html":142,"doi":11},525232,1969,"Fleischer, Michael (1969) New Mineral Names. \u003Ci>American Mineralogist\u003C\u002Fi>,  54 (7-8) 1218-1223 \u003Ca target='_blank' href='http:\u002F\u002Fwww.minsocam.org\u002Fammin\u002FAM54\u002FAM54_1218.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":144,"year":141,"html":145,"doi":146},2583469,"Binns, R. A., Davis, R. J., Reed, S. J. B. (1969) Ringwoodite, Natural (Mg,Fe)\u003Csub>2\u003C\u002Fsub>SiO\u003Csub>4\u003C\u002Fsub> Spinel in the Tenham Meteorite. \u003Ci>Nature\u003C\u002Fi>,  221 (5184) 943-944 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1038\u002F221943a0'>doi:10.1038\u002F221943a0\u003C\u002Fa>","10.1038\u002F221943a0",{"id":148,"year":149,"html":150,"doi":11},17009409,1977,"Coleman, L. C. (1977) Ringwoodite and majorite in the Catherwood meteorite. \u003Ci>The Canadian Mineralogist\u003C\u002Fi>,  15 (1) 97-101 \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Frruff_1.0\u002Fuploads\u002FCM15_97.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":152,"year":153,"html":154,"doi":155},340095,1982,"Boctor, N. Z., Bell, P. M., Mao, H. K., Kullerud, G. (1982) Petrology and shock metamorphism of Pampa del Infierno chondrite. \u003Ci>Geochimica et Cosmochimica Acta\u003C\u002Fi>,  46 (10) 1903-1911 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002F0016-7037(82)90128-4'>doi:10.1016\u002F0016-7037(82)90128-4\u003C\u002Fa>","10.1016\u002F0016-7037(82)90128-4",{"id":157,"year":158,"html":159,"doi":160},917578,1998,"Sinogeikin, S. V., Katsura, T., Bass, J. D. (1998) Sound velocities and elastic properties of Fe-bearing wadsleyite and ringwoodite. \u003Ci>Journal of Geophysical Research: Solid Earth\u003C\u002Fi>,  103. 20819-20825 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1029\u002F98jb01819'>doi:10.1029\u002F98jb01819\u003C\u002Fa>","10.1029\u002F98jb01819",{"id":162,"year":163,"html":164,"doi":11},16967008,2001,"(2001) Ringwoodite. \u003Ci>Handbook of Mineralogy\u003C\u002Fi>. Mineralogical Society of America \u003Ca target='_blank' href='https:\u002F\u002Fwww.handbookofmineralogy.org\u002Fpdfs\u002Fringwoodite.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":166,"year":167,"html":168,"doi":169},3038012,2004,"Smyth, Joseph R, Holl, Christopher M, Frost, Daniel J, Jacobsen, Steven D (2004) High pressure crystal chemistry of hydrous ringwoodite and water in the Earth’s interior. \u003Ci>Physics of the Earth and Planetary Interiors\u003C\u002Fi>, 143. 271-278 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.pepi.2003.08.011'>doi:10.1016\u002Fj.pepi.2003.08.011\u003C\u002Fa>","10.1016\u002Fj.pepi.2003.08.011",{"id":171,"year":172,"html":173,"doi":174},90176,2007,"Kudoh, Yasuhiro, Kuribayashi, Takahiro, Mizobata, Hiroki, Ohtani, Eiji, Sasaki, Satoshi, Tanaka, Masahiko (2007) Pressure dependence of u parameter in ringwoodite up to 7.9 GPa. \u003Ci>Journal of Mineralogical and Petrological Sciences\u003C\u002Fi>,  102 (1) 8-11 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2465\u002Fjmps.060316'>doi:10.2465\u002Fjmps.060316\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Fwww.jstage.jst.go.jp\u002Farticle\u002Fjmps\u002F102\u002F1\u002F102_060316\u002F_pdf' class='refpdflink'>\u003C\u002Fa>","10.2465\u002Fjmps.060316",{"id":176,"year":177,"html":178,"doi":179},396621,2011,"Feng, L., Lin, Y., Hu, S., Xu, L., Miao, B. (2011) Estimating compositions of natural ringwoodite in the heavily shocked Grove Mountains 052049 meteorite from Raman spectra. \u003Ci>American Mineralogist\u003C\u002Fi>,  96 (10) 1480-1489 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam.2011.3679'>doi:10.2138\u002Fam.2011.3679\u003C\u002Fa>","10.2138\u002Fam.2011.3679",{"id":181,"year":182,"html":183,"doi":184},388963,2013,"Greshake, Ansgar, Fritz, Jörg, Böttger, Ute, Goran, Daniel (2013) Shear-induced ringwoodite formation in the Martian shergottite Dar al Gani 670. \u003Ci>Earth and Planetary Science Letters\u003C\u002Fi>,  375. 383-394 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.epsl.2013.06.002'>doi:10.1016\u002Fj.epsl.2013.06.002\u003C\u002Fa>","10.1016\u002Fj.epsl.2013.06.002",{"id":186,"year":187,"html":188,"doi":11},16121955,2014,"Redfern, Simon (2014) Mineral hints at bright blue rocks deep in the Earth. BBC news. http:\u002F\u002Fwww.bbc.com\u002Fnews\u002Fscience-environment-26553115",{"id":190,"year":187,"html":191,"doi":192},3012546,"Pearson, D. G., Brenker, F. E., Nestola, F., McNeill, J., Nasdala, L., Hutchison, M. T., Matveev, S., Mather, K., Silversmit, G., Schmitz, S., Vekemans, B., Vincze, L. (2014) Hydrous mantle transition zone indicated by ringwoodite included within diamond. \u003Ci>Nature\u003C\u002Fi>, 507 (7491). 221-224 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1038\u002Fnature13080'>doi:10.1038\u002Fnature13080\u003C\u002Fa>","10.1038\u002Fnature13080",{"id":194,"year":195,"html":196,"doi":11},16121956,2015,"Nestola, F. (2015). Ringwoodite. In Highlights in Mineralogical Crystallography. De Gruyter.",{"id":198,"year":195,"html":199,"doi":200},726413,"Thomas, Sylvia-Monique, Jacobsen, Steven D., Bina, Craig R., Reichart, Patrick, Moser, Marcus, Hauri, Erik H., Koch-Müller, Monika, Smyth, Joseph R., Dollinger, Günther (2015) Quantification of water in hydrous ringwoodite. \u003Ci>Frontiers in Earth Science\u003C\u002Fi>,  2.  \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.3389\u002Ffeart.2014.00038'>doi:10.3389\u002Ffeart.2014.00038\u003C\u002Fa>","10.3389\u002Ffeart.2014.00038",{"id":202,"year":203,"html":204,"doi":11},16121953,2016,"www.nature.com (n.d.) \u003Ca target='_blank' rel='nofollow' href='http:\u002F\u002Fwww.nature.com\u002Farticles\u002Fnature13080.epdf?referrer_access_token=7pLeAJuqcga5LbGFdb8WstRgN0jAjWel9jnR3ZoTv0Ncgrzo9SvjqoTq1P7aFQkpmoX8v5VT-fAtuoWrQdDjiroWYuipRe1WrG1FaDrMH4Px7ERAJBa16HH1i2HlazPQMK0WrWSWASxqogRRc54Pa33V47-TAACuMAMtBs82RYEje192xIM1y4598dHAaLQn&tracking_referrer=www.bbc.co.uk'>http:\u002F\u002Fwww.nature.com\u002Farticles\u002Fnature13080.epdf?referrer_access_token=7pLeAJuqcga5LbGFdb8WstRgN0jAjWel9jnR3ZoTv0Ncgrzo9SvjqoTq1P7aFQkpmoX8v5VT-fAtuoWrQdDjiroWYuipRe1WrG1FaDrMH4Px7ERAJBa16HH1i2HlazPQMK0WrWSWASxqogRRc54Pa33V47-TAACuMAMtBs82RYEje192xIM1y4598dHAaLQn&tracking_referrer=www.bbc.co.uk\u003C\u002Fa>",{"id":206,"year":203,"html":207,"doi":208},398033,"Bindi, Luca, Tamarova, Anastasia, Bobrov, Andrey V., Sirotkina, Ekaterina A., Tschauner, Oliver, Walter, Michael J., Irifune, Tetsuo (2016) Incorporation of high amounts of Na in ringwoodite: Possible implications for transport of alkali into lower mantle. \u003Ci>American Mineralogist\u003C\u002Fi>,  101 (2) 483-486 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam-2016-5570'>doi:10.2138\u002Fam-2016-5570\u003C\u002Fa>","10.2138\u002Fam-2016-5570",{"id":210,"year":211,"html":212,"doi":213},8511202,2018,"Purevjav, Narangoo, Okuchi, Takuo, Wang, Xiaoping, Hoffmann, Christina, Tomioka, Naotaka (2018) Determination of hydrogen site and occupancy in hydrous Mg2SiO4 spinel by single-crystal neutron diffraction. \u003Ci>Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials\u003C\u002Fi>, 74 (1). 115-120 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1107\u002Fs2052520618000616'>doi:10.1107\u002Fs2052520618000616\u003C\u002Fa>","10.1107\u002Fs2052520618000616",{"id":215,"year":211,"html":216,"doi":217},7735145,"Yin, Feng, Liao, Zhiwei, Hursthouse, Andrew, Dai, Deqiu (2018) Shock-Induced Olivine-Ringwoodite Transformation in the Shock Vein of Chondrite GRV053584. \u003Ci>Minerals\u003C\u002Fi>, 8 (4) 139 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.3390\u002Fmin8040139'>doi:10.3390\u002Fmin8040139\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Fwww.mdpi.com\u002F2075-163X\u002F8\u002F4\u002F139\u002Fpdf?version=1525346653' class='refpdflink'>\u003C\u002Fa>","10.3390\u002Fmin8040139",{"id":219,"year":220,"html":221,"doi":11},15929276,2020,"Bindi, L., Shim, S-H., Sharp, T.G., Xie, X. (2020) Evidence forthe charge disproportionation of iron in extraterrestrial bridgmanite. Science Advances 6(2) (eaay 7893).",{"id":223,"year":224,"html":225,"doi":226},15192973,2022,"Wang, Wenzhong, Wu, Zhongqing (2022) A first-principles study of water in wadsleyite and ringwoodite: Implication for the 520 km discontinuity. \u003Ci>American Mineralogist\u003C\u002Fi>,  107 (7) 1361-1368 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam-2021-7929'>doi:10.2138\u002Fam-2021-7929\u003C\u002Fa>","10.2138\u002Fam-2021-7929",{"id":228,"year":224,"html":229,"doi":230},15138994,"Lorenzon, Sofia, Novella, Davide, Nimis, Paolo, Jacobsen, Steven D., Thomassot, Emilie, Pamato, Martha G., Prosperi, Loredana, Lorenzetti, Alessandra, Alvaro, Matteo, Brenker, Frank, Salvadego, Franco, Nestola, Fabrizio (2022) Ringwoodite and zirconia inclusions indicate downward travel of super-deep diamonds. \u003Ci>Geology\u003C\u002Fi>,  50 (9) 996-1000 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1130\u002Fg50111.1'>doi:10.1130\u002Fg50111.1\u003C\u002Fa>","10.1130\u002Fg50111.1",{"id":232,"year":233,"html":234,"doi":235},19017758,2025,"Yu, Jiayi; Chen, Tianze; Zhang, Li (2025) In Situ High-Temperature and High-Pressure Spectroscopic Study of the Thermal and Pressure Behavior of Hydrous Fe-Rich Ringwoodite. \u003Ci>Minerals\u003C\u002Fi>,  15 (10).  \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.3390\u002Fmin15101053'>doi:10.3390\u002Fmin15101053\u003C\u002Fa>","10.3390\u002Fmin15101053",[237,247],{"id":238,"source_url":239,"license_code":240,"credit_html":241,"title":242,"description":243,"author":244,"original_width":245,"original_height":246},20946,"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=19689605","CC BY 3.0","Jasperox, via \u003Ca href=\"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=19689605\" rel=\"noopener\">Wikimedia Commons\u003C\u002Fa>","BlueRingwoodite.jpg","\u003Ca href=\"https:\u002F\u002Fen.wikipedia.org\u002Fwiki\u002FRingwoodite\" class=\"extiw\" title=\"en:Ringwoodite\">Ringwoodite\u003C\u002Fa> Blue crystal ~150 micrometers across.","Jasperox",639,558,{"id":248,"source_url":249,"license_code":250,"credit_html":251,"title":252,"description":253,"author":254,"original_width":255,"original_height":256},20950,"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=77974976","CC BY-SA 4.0","Ringwoodit, via \u003Ca href=\"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=77974976\" rel=\"noopener\">Wikimedia Commons\u003C\u002Fa>","Schockader mit Ringwoodit.jpg","Thin section of an \u003Ca href=\"https:\u002F\u002Fen.wikipedia.org\u002Fwiki\u002Fordinary_chondrite\" class=\"extiw\" title=\"en:ordinary chondrite\">ordinary chondrite\u003C\u002Fa> from Northwest Africa showing a shock vein and enclosed ringwoodite.","Ringwoodit",5616,3744,[258,265,270,275,280],{"id":259,"url":260,"label":261,"formula":262,"spacegroup":263,"year":264},12178,"\u002Fcif\u002F12178.cif","Ye 2012 · Mg1.96 Si O4","Mg1.96 Si O4","F d 3 m",2012,{"id":266,"url":267,"label":268,"formula":269,"spacegroup":263,"year":264},12179,"\u002Fcif\u002F12179.cif","Ye 2012 · Mg1.94 Si O4","Mg1.94 Si O4",{"id":271,"url":272,"label":273,"formula":274,"spacegroup":263,"year":264},12180,"\u002Fcif\u002F12180.cif","Ye 2012 · Mg1.92 Si.98 O4","Mg1.92 Si.98 O4",{"id":276,"url":277,"label":278,"formula":279,"spacegroup":263,"year":264},12181,"\u002Fcif\u002F12181.cif","Ye 2012 · Mg1.9 Si.99 O4","Mg1.9 Si.99 O4",{"id":281,"url":282,"label":283,"formula":284,"spacegroup":263,"year":264},12182,"\u002Fcif\u002F12182.cif","Ye 2012 · Mg1.9 Si O4","Mg1.9 Si O4",[286,287],"IMA1968-036","Ringwoodiet",[289,293,298,302,306,310,314,318,321,325,329,333,336,339,343,346,350,353,356,359,364,370,373],{"lang":290,"names":291},"ar",[292],"رينغووديت",{"lang":294,"names":295},"bg",[296,297],"Ringwoodite-Рингудит","Рингудит",{"lang":299,"names":300},"ca",[301],"ringwoodita",{"lang":303,"names":304},"cv",[305],"Рингвудит",{"lang":307,"names":308},"de",[309,254],"IMA 1968-036",{"lang":311,"names":312},"es",[313],"Ringwoodita",{"lang":315,"names":316},"et",[317],"ringwood",{"lang":319,"names":320},"eu",[313],{"lang":322,"names":323},"fa",[324],"رینگ وودیت",{"lang":326,"names":327},"fr",[328],"ringwoodite",{"lang":330,"names":331},"he",[332],"רינגוודיט",{"lang":334,"names":335},"id",[254],{"lang":337,"names":338},"it",[7],{"lang":340,"names":341},"ja",[342],"リングウッダイト",{"lang":344,"names":345},"mk",[305],{"lang":347,"names":348},"pl",[349],"Ringwoodyt",{"lang":351,"names":352},"pt",[301],{"lang":354,"names":355},"ru",[305],{"lang":357,"names":358},"sv",[254],{"lang":360,"names":361},"ta",[362,363],"ரிங்வூடைட்","ரிங்வூடைட்டு",{"lang":365,"names":366},"tr",[367,368,369],"ringvudayt","ringvudit","ringwoodit",{"lang":371,"names":372},"uk",[305],{"lang":374,"names":375},"zh",[376],"尖晶橄榄石","Q3936046",{"history":11,"applications":11}]