Reflection of the history of consolidated Earth’s crust  formaion  of the Amur area gold-bearing province  in its petrochemical composition  (based on the data of seismic profiles  Tynda—Amurset and Abakan—Tynda—Tatar channel)

The subject of the research is the methods of forecasting the Eastern Transbaikalia - a large mining region of Russia, in which the main internal and external criteria for ore content are established by modern geological mapping at a scale of 1:1,000,000. The article considers endogenous geochemical criteria for gold concentration in the Earth’s crust of the region, which constitute a mandatory methodological method for predicting gold ore objects at any scale. The aim of the work is to clarify the achieved level of knowledge about the mineralogical and geochemical criteria for gold concentration in the course of the evolution of the Earth’s crust up to the formation of industrial deposits and the isolation of ore formations. The methodology of the study is to systematize a huge amount of factual material concerning the processes of natural concentration of gold, to analyze its representativeness, to assess the completeness and reliability of published and stock information used to clarify the mineralogical and geochemical criteria for predicting ore gold. Using the chemical properties of gold, the forms of finding gold, amount of it in the forming geological complexes and natural environments, their evolution, distribution in structural and tectonic zones, some causes of concentration and mineralogical and geochemical prediction criteria are considered. Special attention is paid to the need to study and account for nanoscale (dispersed) gold. As the main ore-formation units of gold mineralization, standardized ore formations are defined with a division into gold ore proper, complex gold-bearing and gold-bearing and geological and industrial types of deposits. There are 15 geological and industrial types, of which 13 are transbaikal deposits standards and two are attracted from other regions. These types of deposits differ in the number of objects related to them. Due to some similarity in the composition of ore matter, geological and industrial types differ in the most important classification characteristics for the forecast. Areas of distribution of direct and indirect mineralogical and geochemical features grouped into mineralogical and geochemical forecast criteria are promising for endogenous concentration of gold mineralization

Download Full-text

The history of the Earth's crust [book review]

American Journal of Science ◽

10.2475/ajs.267.7.853 ◽

1969 ◽

Vol 267 (7) ◽

pp. 853-0

Author(s):

B. C. Burchfiel

Keyword(s):

Earth’S Crust ◽

History Of ◽

Earth's Crust

Download Full-text

A 5-km-thick reservoir with >380,000 km3 of magma within the ancient Earth's crust

10.21203/rs.3.rs-1104213/v1 ◽

2021 ◽

Author(s):

Rais Latypov ◽

Sofya Chistyakova ◽

Richard Hornsey ◽

Gelu Costin ◽

Mauritz van der Merwe

Keyword(s):

Bushveld Complex ◽

Earth’S Crust ◽

Magma Chambers ◽

Crystallization Sequence ◽

Igneous Provinces ◽

Research Concept ◽

History Of ◽

Mineral Compositions ◽

Earth's Crust ◽

Chamber Floor

Abstract Several recent studies have argued that large, long-lived and molten magma chambers1–10 may not occur in the shallow Earth’s crust11–23. Here we present, however, field-based observations from the Bushveld Complex24 that provide evidence to the contrary. In the eastern part of the complex, the magmatic layering was found to continuously drape across a ~4-km-high sloping step in the chamber floor. Such deposition of magmatic layering implies that the resident melt column was thicker than the stepped relief of the chamber floor. Prolonged internal differentiation within such a thick magma column is further supported by evolutionary trends in crystallization sequence and mineral compositions through the sequence. The resident melt column in the Bushveld chamber during this period is estimated to be >5-km-high in thickness and >380,000 km3 in volume. This amount of magma is three orders of magnitude larger than any known super-eruptions in the Earth’s history25 and is only comparable to the extrusive volumes of some of Earth’s large igneous provinces26. This suggests that super-large, entirely molten and long-lived magma chambers, at least occasionally, occur in the geological history of our planet. Therefore, the classical view of magma chambers as ‘big magma tanks’1–10 remains a viable research concept for some of Earth’s magmatic provinces.

Download Full-text

STORIA DELLA TERRA E TEMPI GEOLOGICI IN UNO SCRITTO INEDITO DI GIOVANNI ARDUINO: LA «RISPOSTA ALLEGORICO-ROMANZESCA» A FERBER

Nuncius ◽

10.1163/182539191x00821 ◽

1991 ◽

Vol 6 (2) ◽

pp. 171-188 ◽

Cited By ~ 2

Author(s):

EZIO VACCARI

Keyword(s):

Nineteenth Century ◽

Earth Science ◽

Earth’S Crust ◽

Crucial Aspect ◽

History Of ◽

Earth's Crust

Abstract<title> SUMMARY </title>The publication of Giovanni Arduino's Risposta allegorico-romanzesc<?CTRLerr type="1" mess="Doute sur la typo" ?>a to J. J. Ferber highlights an unpublished and crucial aspect of Arduino's geology. The concept of epoch, applied to the history of the changes undergone by the Earth's crust, is put forward well before Buffon's Epoques de la Nature. Moreover the reflections of Arduino open up a «third possibility» between the catastrophist and uniformitarian hypotheses. This goes beyond the rigid antithesis between «Neptunism» and «Plutonism», which constituded the conditioning element of the study of Earth Science in Europe around the end of the eighteenth and the beginning of the nineteenth century.

Download Full-text

Old Shore Lines of Palestine

Geological Magazine ◽

10.1017/s0016756800087471 ◽

1937 ◽

Vol 74 (2) ◽

pp. 68-78 ◽

Cited By ~ 6

Author(s):

G. S. Blake

Keyword(s):

Earth’S Crust ◽

The South ◽

History Of ◽

Earth's Crust

The object of this article is to bring up to date the known history of the earth's crust in the south-east Levant.

Download Full-text

Drawing sedimentary outcrops

Geological Field Sketches and Illustrations ◽

10.1093/oso/9780198835929.003.0009 ◽

2019 ◽

pp. 141-168

Author(s):

Matthew J. Genge

Keyword(s):

Depositional Environment ◽

Sedimentary Rocks ◽

Sedimentary Facies ◽

Worked Examples ◽

Earth’S Crust ◽

Sedimentary Structures ◽

History Of ◽

Earth's Crust ◽

Life On Earth

Sedimentary rocks are the commonest rocks found on the surface of the Earth’s crust and record much of the history of both our planet and life on Earth. This chapter describes how to draw outcrops of sedimentary rocks in the field and the most important features of these rocks to record and describe. The stratigraphy and interpretation of sedimentary rocks is also considered in the chapter and includes a description of common sedimentary structures. The use of sedimentary facies in evaluation of depositional environment is introduced. Five worked examples of field sketches of sedimentary outcrops are given to illustrate how to make accurate and detailed observations of sediments. Examples include how to draw unconformities, sedimentary structures, lithologies, and graphic logs.

Download Full-text

The history of the Earth's crust

Deep Sea Research and Oceanographic Abstracts ◽

10.1016/0011-7471(70)90101-4 ◽

1970 ◽

Vol 17 (1) ◽

pp. 211-212

Author(s):

R.B. Whitmarsh

Keyword(s):

Earth’S Crust ◽

History Of ◽

Earth's Crust

Download Full-text

II.—On Faults in Strata

Geological Magazine ◽

10.1017/s0016756800162697 ◽

1869 ◽

Vol 6 (62) ◽

pp. 341-347

Author(s):

Henry B. Medlicott

Keyword(s):

Structural Features ◽

Earth’S Crust ◽

Geological Survey ◽

Rock Series ◽

Experimental Field ◽

History Of ◽

The Subject ◽

Earth's Crust

A Little time back there appeared in the Magazine, some short papers on the subject of faults, and on the nature of the conditions and the forces through which these important structural features may-have been produced. The points I would now bring to notice are more elementary; they refer to the evidence for faults; hence involving the principal data upon which the higher discussion of the phenomena must be based, and the same data very argely affect our attempted restoration and history of bygone phases of the earth's surface. Faults and flexures in stratified rocks are the leading features through which we interpret the disturbances that have affected the earth's crust; and any looseness in determining their existence, form and amount, must vitiate many of our inferences. No one but an experimental field geologist can appreciate the difficulty of such determinations, and understand how faults are particularly liable to elude observation. This circumstance accounts for, but does not justify, the arbitrary use of faults in interpreting sections. To call in question the evidence upon such a familiar subject implies, of course, dissatisfaction at the manner in which it is handled in practice. This I at once admit, and will proceed to explain. The criticism I have to make is no more than might oceur to one who had never left his study; but I would state that with me it has had a most practical origin: in the progress of the work of the Geological Survey of India, several great boundary faults have been proposed in connection with our main rock-series, and in some cases published descriptions have been already given; but both on the score of the in-sufficiency of the evidence brought forward, and after personal examination in the field, I am unable to admit that some of the features in question can, without very implicit qualifications, be brought within the received definitions of a fault.

Download Full-text