This study employs the single grain pyrite Rb-Sr technique to date mineralization, using the example of the Linglong lode gold deposit, Jiaodong Peninsula, eastern China. Four pyrite samples from veins of different mineralization stages give an average isochron age of Hence, the successful attempt of the single grain Rb-Sr technique of pyrite, which occurs as a common mineral phase in orebodies and is genetically related to the mineralization, has great potential for precise geochronology of hydrothermal mineral deposits. Single grain pyrite Rb-Sr dating of the Linglong gold deposit, eastern China. N2 – This study employs the single grain pyrite Rb-Sr technique to date mineralization, using the example of the Linglong lode gold deposit, Jiaodong Peninsula, eastern China. AB – This study employs the single grain pyrite Rb-Sr technique to date mineralization, using the example of the Linglong lode gold deposit, Jiaodong Peninsula, eastern China. Overview Fingerprint. Abstract This study employs the single grain pyrite Rb-Sr technique to date mineralization, using the example of the Linglong lode gold deposit, Jiaodong Peninsula, eastern China.
Rubidium strontium dating example
All publications more feeds BibTeX file. Aliquots of a homogenized whole rock are called whole-rock samples. Whole-rock isochrons especially those of metamorphic rocks may be disturbed.
Rb-Rich minerals such as trace elements in the rock composition and rubidium–strontium method the quantities they. Co. Ice cores are the isochron for extremely.
Ruiz , L. Jones, W. Describes a Rb-Sr technique that permits ore deposits to be dated using common gangue minerals such as calcite and fluorite. The technique was tested using fluorite and calcite from three deposits ranging in age from Tertiary to Precambrian. Rubidium-strontium dating of ore deposits hosted by Rb-rich rocks, using calcite and other common Sr-bearing minerals.
T1 – Rubidium-strontium dating of ore deposits hosted by Rb-rich rocks, using calcite and other common Sr-bearing minerals. N2 – Describes a Rb-Sr technique that permits ore deposits to be dated using common gangue minerals such as calcite and fluorite. AB – Describes a Rb-Sr technique that permits ore deposits to be dated using common gangue minerals such as calcite and fluorite. Letters, Arts and Science, Division of. Overview Fingerprint. Abstract Describes a Rb-Sr technique that permits ore deposits to be dated using common gangue minerals such as calcite and fluorite.
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Dating multiple geological events in single samples using thermochronology and geochronology is relatively common but it is only with the recent advent of triple quadrupole LA-ICP-MS that in situ Rb-Sr dating has become a more commonly applied and powerful tool to date K- and Rb-bearing minerals. Here, we date, for the first time, two generations of mineral assemblages in individual thin sections using the in situ Rb-Sr method.
Two distinct mineral assemblages, both probably associated with Au mineralization, are identified in samples from the Tropicana gold mine in the Albany—Fraser Orogen, Western Australia.
Media in category “Rb-Sr dating“. The following 3 files are in this category, out of 3 total. Megalwalpng × ; 45 KB. × ; 3 KB.
Different lithologies impure marble, eclogite and granitic orthogneiss sampled from a restricted area of the coesite-bearing Brossasco—Isasca Unit Dora Maira Massif have been investigated to examine the behaviour of 40 Ar— 39 Ar and Rb—Sr systems in phengites developed under ultrahigh-pressure UHP metamorphism. Mineralogical and petrological data indicate that zoned phengites record distinct segments of the P — T path: prograde, peak to early retrograde in the marble, peak to early retrograde in the eclogite, and late retrograde in the orthogneiss.
Besides major element zoning, ion microprobe analysis of phengite in the marble also reveals a pronounced zoning of trace elements including Rb and Sr. These data confirm previous reports on excess Ar and, more significantly, highlight that phengite acted as a closed system in the different lithologies and that chemical exchange, not volume diffusion, was the main factor controlling the rate of Ar transport. Although this time interval matches Ar ages from the same sample, Rb—Sr data from phengite are not entirely consistent with the whole dataset.
The oldest age obtained from a millimetre-sized grain fraction enriched in prograde—peak phengites may represent a minimum age estimate for the prograde phengite relics. Results highlight the potential of the in situ 40 Ar— 39 Ar laser technique in resolving discrete P — T stages experienced by eclogite-facies rocks provided that excess Ar is demonstrably a negligible factor , and confirm the potential of Rb—Sr internal mineral isochrons in providing precise crystallization ages for eclogite-facies mineral assemblages.
Dating eclogite-facies rocks and their subsequent retrogression at upper crustal levels represents an invaluable, essential tool for constraining the rate of exhumation of these rocks from mantle depths, thus allowing development of theoretical models. To temporally quantify geological processes, isotopic ages must be linked to a specific stage of the P — T —deformation evolution of a rock. In the most popular approach, this link is established using the closure temperature concept T c ; Dodson, When interpreting isotopic ages in terms of temperature only, this concept has been used to derive the temperature—time path by analysing minerals with different T c.
However, high-pressure HP and ultrahigh-pressure UHP metamorphic rocks are peculiar systems, which experienced extreme physical conditions characterized by limited aqueous fluids with restricted mobility, and consequently by limited mass transfer and exceedingly sluggish reaction kinetics. In these circumstances, one cannot assume that radiogenic daughters diffusing out of a mineral are efficiently removed at the grain boundary and that the concentration of that isotope at the grain boundary is zero.
Complications in the application of the closure temperature concept to natural samples thus arise from mineral complexities i.
Generation and distortion of Rb/Sr whole-rock isochrons – effects of metamorphism and alteration
Read the full text on a web page. The Rb-Sr beta-decay dating system is one of the most attractive tools in geochronology, as Rb is sufficiently abundant in common K-bearing minerals like biotite, muscovite and K-feldspar. This allows dating of a wide variety of rocks e. However, this advantage was to date negatively counteracted by the lack of a suitable in-situ technique, as beta decay systems by nature have isobaric interferences of the daughter isotope by their respective parent isotope.
A reaction cell sandwiched between two quadrupoles within an inductively coupled plasma mass spectrometer ICP-MS allows exactly this, the online chemical separation of two different elements. Coupled to a laser ablation LA system, in-situ Rb-Sr dating is therefore possible if a suitable reaction gas within the reaction cell can be found that separates Sr from Rb.
Download publication. Skip to main content. Menu Search. Go to page: Projects. You are here Home. Samples of pervasively cleaved mudstones and claystones from two different parts of the Gaissa Nappe Complex in Finnmark were subjected to Rb-Sr analytical investigation with the aim of trying to dtermine the metamorphic age of the rocks in this thrust sheet.
Although neither of the two groups of samples yielded atrue isochron i. This event is throuht to reflect an iverall, pervasive metamorphic imprint on the rock formations of the Gaissa Nappe Complex. Previous radiometric dating evidence from the Gaissa Nappe Complex has given ambiguous results, some pointing to Finnmarkian Late Cambrian-Early Ordovician deformation whereas other data hace indicated a Scandian late Silurian-Early Devonian age.
The Rb-Sr analytical data reported here do tend to favour a likely Finnmarkian age for the very low-grade mertamorphism; and this fits with viverse isotopic data obtained from the overlying nappe complexes, as well as with the biostratigraphic evidence where the youngest rocks in the Gaissa thrust sheet are of Early Tremadoc age. Facebook Twitter Print E-mail.
Single grain pyrite Rb-Sr dating of the Linglong gold deposit, eastern China
In this article I shall introduce the Rb-Sr dating method, and explain how it works; in the process the reader should learn to appreciate the general reasoning.
With heat, daughter isotopes diffuse out of their host minerals but are incorporated into other minerals in the rock. When the rock again cools, the minerals close and again accumulate daughter products to record the time since the second event. Remarkably, the isotopes remain within the rock sample analyzed, and so a suite of whole rocks can still provide a valid primary age.
This situation is easily visualized on an isochron diagram, where a series of rocks plots on a steep line showing the primary age, but the minerals in each rock plot on a series of parallel lines that indicate the time since the heating event. If cooling is very slow, the minerals with the lowest blocking temperature, such as biotite mica, will fall below the upper end of the line.
The rock itself gives the integrated , more gradual increase. Approaches to this ideal case are commonly observed, but peculiar results are found in situations where the heating is minimal. Epidote, a low-temperature alteration mineral with a very high concentration of radiogenic strontium, has been found in rocks wherein biotite has lost strontium by diffusion.
The rock itself has a much lower ratio, so that it did not take part in this exchange. Although rubidium—strontium dating is not as precise as the uranium—lead method, it was the first to be exploited and has provided much of the prevailing knowledge of Earth history. The procedures of sample preparation , chemical separation, and mass spectrometry are relatively easy to carry out, and datable minerals occur in most rocks.
Precise ages can be obtained on high-level rocks i. The mobility of rubidium in deep-level crustal fluids and melts that can infiltrate other rocks during metamorphism as well as in fluids involved in weathering can complicate the results. The radioactive decay of samarium of mass Sm to neodymium of mass Nd has been shown to be capable of providing useful isochron ages for certain geologic materials.
The rubidium-strontium dating method is a radiometric dating technique used by scientists to determine the age of rocks and minerals from the quantities they contain of specific isotopes of rubidium 87 Rb and strontium 87 Sr, 86 Sr. Development of this process was aided by German chemists Otto Hahn and Fritz Strassmann , who later went on to discover nuclear fission in December The utility of the rubidium — strontium isotope system results from the fact that 87 Rb one of two naturally occurring isotopes of rubidium decays to 87 Sr with a half-life of In addition, Rb is a highly incompatible element that, during partial melting of the mantle, prefers to join the magmatic melt rather than remain in mantle minerals.
In this article I shall introduce the Rb-Sr dating method, and explain how it works; in the process the reader should learn to appreciate the general reasoning behind the isochron method. There are three isotopes used in Rb-Sr dating. It produces the stable daughter isotope 87 Sr strontium by beta minus decay. The third isotope we need to consider is 86 Sr, which is stable and is not radiogenic , meaning that in any closed system the quantity of 86 Sr will remain the same. As rubidium easily substitutes chemically for potassium, it can be found doing so in small quantities in potassium-containing minerals such as biotite , potassium feldspar , and hornblende.
The quantity will be small because there is much more potassium than rubidium in the Universe. But there is no reason at all to suppose that there was no 87 Sr present initially. When we produced the formula for K-Ar dating , it was reasonable enough to think that there was little to no argon present in the original state of the rock, because argon is an inert gas, does not take part in chemical processes, and so in particular does not take part in mineral formation.