Evolution of Magmatic and Diamond-Forming Systems of the Earth's Lower Mantle: Springer Geology
Autor Anna V. Spivak, Yuriy A. Litvinen Limba Engleză Hardback – 12 iun 2018
This book sheds valuable new light on the genetic mineralogy of lower-mantle diamonds and syngenetic minerals. It presents groundbreaking experimental results revealing the melting relations of ultrabasic and basic associations and a physicochemical peritectic mechanism of their evolution.
The experimental investigations included here reveal the key multicomponent, multiphase oxide-silicate-carbonate-carbon parental media for lower-mantle diamonds and syngenetic minerals. Consequently, readers will find extensive information on the diamond-parental oxide-silicate-carbonate-carbon melts-solutions that supplement the general features of lower-mantle diamond genesis and the most efficient ultrabasic-basic evolution. The experimental results on physicochemical aspects, combined with analytical mineralogy data, make it possible to create a generalized composition diagram of the diamond-parental melts-solutions, there by completing the mantle-carbonatite concept for the genesis of lower-mantle diamonds and syngenetic minerals.
This book addresses the needs of all researchers studying the Earth’s deepest structure, super-deep mineral formation including diamonds, and magmatic evolution.
The experimental investigations included here reveal the key multicomponent, multiphase oxide-silicate-carbonate-carbon parental media for lower-mantle diamonds and syngenetic minerals. Consequently, readers will find extensive information on the diamond-parental oxide-silicate-carbonate-carbon melts-solutions that supplement the general features of lower-mantle diamond genesis and the most efficient ultrabasic-basic evolution. The experimental results on physicochemical aspects, combined with analytical mineralogy data, make it possible to create a generalized composition diagram of the diamond-parental melts-solutions, there by completing the mantle-carbonatite concept for the genesis of lower-mantle diamonds and syngenetic minerals.
This book addresses the needs of all researchers studying the Earth’s deepest structure, super-deep mineral formation including diamonds, and magmatic evolution.
| Toate formatele și edițiile | Preț | Express |
|---|---|---|
| Paperback (1) | 717.84 lei 6-8 săpt. | |
| Springer International Publishing – 26 dec 2018 | 717.84 lei 6-8 săpt. | |
| Hardback (1) | 723.69 lei 6-8 săpt. | |
| Springer International Publishing – 12 iun 2018 | 723.69 lei 6-8 săpt. |
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Specificații
ISBN-13: 9783319785172
ISBN-10: 3319785176
Pagini: 190
Ilustrații: XII, 95 p. 39 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.33 kg
Ediția:1st ed. 2019
Editura: Springer International Publishing
Colecția Springer
Seria Springer Geology
Locul publicării:Cham, Switzerland
ISBN-10: 3319785176
Pagini: 190
Ilustrații: XII, 95 p. 39 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.33 kg
Ediția:1st ed. 2019
Editura: Springer International Publishing
Colecția Springer
Seria Springer Geology
Locul publicării:Cham, Switzerland
Cuprins
Chemical and phase composition of lower mantle of the Earth: analytical and experimental data.- Experimental methods and techniques.- Evolution of the native lower mantle systems.- Evolution of the lower mantle diamond-forming system.- Diamond-forming efficiency of oxide-silicate-carbonate-carbon systems at the conditions of the Earth lower mantle.- Model of diamond formation at conditions of the Earth lower mantle.
Textul de pe ultima copertă
This book sheds valuable new light on the genetic mineralogy of lower-mantle diamonds and syngenetic minerals. It presents groundbreaking experimental results revealing the melting relations of ultrabasic and basic associations and a physicochemical peritectic mechanism of their evolution.
The experimental investigations included here reveal the key multicomponent, multiphase oxide-silicate-carbonate-carbon parental media for lower-mantle diamonds and syngenetic minerals. Consequently, readers will find extensive information on the diamond-parental oxide-silicate-carbonate-carbon melts-solutions that supplement the general features of lower-mantle diamond genesis and the most efficient ultrabasic-basic evolution. The experimental results on physicochemical aspects, combined with analytical mineralogy data, make it possible to create a generalized composition diagram of the diamond-parental melts-solutions, there by completing the mantle-carbonatite concept for the genesis oflower-mantle diamonds and syngenetic minerals.
This book addresses the needs of all researchers studying the Earth’s deepest structure, super-deep mineral formation including diamonds, and magmatic evolution.
The experimental investigations included here reveal the key multicomponent, multiphase oxide-silicate-carbonate-carbon parental media for lower-mantle diamonds and syngenetic minerals. Consequently, readers will find extensive information on the diamond-parental oxide-silicate-carbonate-carbon melts-solutions that supplement the general features of lower-mantle diamond genesis and the most efficient ultrabasic-basic evolution. The experimental results on physicochemical aspects, combined with analytical mineralogy data, make it possible to create a generalized composition diagram of the diamond-parental melts-solutions, there by completing the mantle-carbonatite concept for the genesis oflower-mantle diamonds and syngenetic minerals.
This book addresses the needs of all researchers studying the Earth’s deepest structure, super-deep mineral formation including diamonds, and magmatic evolution.
Caracteristici
Summarizes groundbreaking experimental results revealing the melting relations for lower-mantle systems and analytical data for mineral inclusions in super-deep diamonds Explains the physicochemical peritectic mechanisms of ultrabasic-basic evolution for both the lower-mantle native magmatic and diamond-forming systems Enriches readers’ understanding of the key role of carbonate components in diamond-parental media Substantiates the mantle-carbonatite concept for the genesis of lower-mantle diamonds and syngenetic minerals