Valorisation of Auriferous Indices: Case of the Siribaya Deposit, Western Mali

The purpose of this paper is to understand the valorization of gold showings in the Seribaya deposit, western Mali. Samples taken from Air Core (AC) boreholes were subjected respectively to the magnetic susceptibility test and the X-ray fluorescence analysis. These results lead to the development of a simple methodology, based on signatures/indicators geochemical to identify lithology or to locate mineralization. We note that, compared to other chemical elements, Arsenic remains the most correlated with gold in the study area. Since this correlation remains weak (r = 0.16), it shows that Arsenic does not always accompany gold. There would be a generation of Arsenic related to mineralization, and other generations that would not be. The observation of the strip logs led to the identification of the lithologies (focusing on the im-mobile elements, Ti, V, Cr, Y, Zr) and the establishment of the alteration pro-file. Highly altered levels (Saprolite ± Saprock) are characterized by the dis-appearance of most mobile elements. A medium to strong correlation between gold mineralization and magnetic susceptibility measurements has been observed, in some places, and at depths. These mineralized intervals typically consist of quartz veins, suggesting that they have structural control over the mineralization. Gold mineralization is believed to be related to quartz veins. In addition, gold would be in paragenesis with a generation of Arsenic hosted in coarse sediments.


Introduction
In Mali, gold export has substantially increased since the 1990s [1]. The Siribaya deposit is located in the eastern part of Kedougou Kéniéba Inlier (KKI). From the geological point of view, the study area is located in West Africa Craton ( Figure 1). This sector contains several gold deposits (e.g., Wiliwili, Hamdallaye, Dandôko) that are located around the Senegalese-Malian Shear-Zone (SMSZ) within the Kofi group. The SMSZ and its secondary structures are recognized as controlling gold mineralization in the KKI. The intensity of gold Artisanal Mining Sites (AMS) emphasizes that the study area is a highly promising area in gold. Prospective studies are still ongoing in these areas in order to find resources that can be exploited.
The purpose of this paper is to valorize the gold showings while identifying the possibilities and methodologies that are favorable. West Africa suffers from artisanal and small-scale mining formalization problems as other mineral-rich countries in the region [2]. The purpose of this paper is to understand the valorization of gold showings in the Seribaya deposit, western Mali.

Geological Setting
The West African Craton (WAC) is composed of Archean age formations at Figure 1. Geological map of West African Craton (after [15], simplified by [16]). Proterozoic paleo and has undergone numerous tectonic movements before being canonized in a single block. The WAC is bounded on the north and south by the Réguibat and Léo Man shields (Figure 1), and halfway between these two shields are the Kédougou-Kéniéba (Senegal and Mali) and Kayes (Mali) Inliers [3]. These geological zones have been subdivided into domains including: the sedimentary domain, the pan-African folded belts, and the Hercynian belts ( Figure 1).
This WAC has an opening zone known as the Kedougou-Kenieba Inlier (KKI), which is located on the Senegal-Malian border ( Figure 1). According to the available geological information [4] [5] [6], there is limited research on gold resource in Mali. Then further study with the realization of the thin blade or fluid inclusion could answer this question [7] [8]. The interaction of hydrothermal fluids with metamorphosed carbonaceous matter (CM) could be one of the causes of the reduction of hydrothermal fluids and the formation of the respective mineralization [9]. However, all primary gold deposits in West Africa can be classified as orogenic type gold deposits [10]. The WAC is formerly subdivided into two (2) sectors, which are: The Mako sector, the Dialé-Daléma sector [11].
This district is located in the KKI, which is of deformed Birimian rocks (Paleo-

Research Methodology
This paper discusses the methodologies adopted for the valorization of gold showings.
The methodology applied for this gold index valuation study focused on the measurement of magnetic susceptibility through the SM30 instrument, and on the geochemical analysis of the X-ray elements, on the other hand. Their fluorescence on the samples: Olympus X-5000.
In this paper, the first work begins with the treatment that is based on the AC drill samples, the lithological description, the magnetic susceptibility measurements. The next step is the X-ray analysis, and the establishment of the trip logs under the Geosoft software. Finally, the use of binary diagrams visualizes the

Measurements of Magnetic Susceptibility
Magnetic susceptibility is a physical parameter that makes it possible to measure the reaction of a body subjected to a magnetic field. It is during the composite sampling that approximately 200 g of each metric sample is taken and placed in a plastic bag and will be used to carry out a magnetic susceptibility test.
An observation of the strip logs was realized with the data resulting from the magnetic susceptibility. It shows an increase in magnetic susceptibility in lateritic cuirass zones ( Figure 2 & Figure 3).
We notice a peak of magnetic susceptibility in sandstone and corresponding to a quartz vein zone. When excluding any erroneous value, this peak could correspond to the presence of magnetic sulphide such as pyrrhotite or oxides such as magnetite. This interval corresponds to a mineralized zone, which suggests the existence of a spatial relationship between gold and pyrrhotite or magnetite. This hypothesis remains partial until we have more data to corroborate this statement ( Figure 2).
We also notice a medium magnetic susceptibility mainly in the lithologies described as argillites. This magnetism may be due to the graphite alteration in this unit ( Figure 3).  In view of the different observations, we could deduce that the gold mineralization has a structural control with respect to the spatial relationship between the zones of quartz veins and the presence of gold. Even if this relationship is not totally continuous over all the drillings, this could be justified by admitting that a certain category of the vein (that is to say of a given mineralogical composition) seems to confirm this hypothesis. In addition, some mineralized levels where quartz fragments have been observed have medium magnetic susceptibility to elevation, which probably corresponds to the presence of oxidized sulphide such as pyrrhotite or oxides such as magnetite. Due to the degree of oxidation, none of its elements could be observed on rock flakes.

XRF Analyzes
XRF (X-Ray Florescence) analysis is an analytical method that detects the chemical elements of a sample as it passes through the X-ray. The machine used by IEM is the Olympus X-5000. It is a table XRF giving semi-quantitative results.
This tool is suitable for analyzing RC/DD samples.
The purpose is to evaluate the main litho-geochemical characteristics, while checking the type of lithology defined during the drilling description.
In Table 1 we have the correlation between gold and chemical elements from XRF analyzes. In Table 2  marked by the absence of yellow background data and a significant decrease in light green background observed for the same chemical element. Correlation coefficients provide a synthetic measure of the intensity of the relationship between two characters (populations) and its meaning when this relationship is monotonic.
Let (r) be the correlation coefficient between two variables, it varies between −1 and +1. The sign of r thus indicates the direction of the relationship while its absolute value represents the intensity of the relation.
That is, the ability to predict the values of Y versus X. The correlation matrix produced under Geosoft shows that only arsenic (As) is the chemical element with a very low correlation coefficient (r) with Au. It is 0.16 (r = 0.16) and has a population sufficient to mark an exploitable correlation with Au.
Other elements with sufficient population also show strong to medium corre- Fe is very strongly correlated with Co (r = 0.86), and strongly with Cr (r = 0.75).

Results and Discussion
In this paper, the result of the study gave the characterization of the lithologies. These proven lithologies can be classified and give the markers of gold mineralization.

The Intrusive Rocks
The intrusive rocks are essentially the granites whose geochemical characteristics are underlined by peaks of Ba, Sr, K against a Zr and Ti depletion and to see a total absence of Cr, Co, Fe.
Strip logs show that at certain levels, specifically in saprolitic zones, decreases in the content of elements such as Ba, K, Sr. This can be explained by the degree of mobility of these chemical elements ( Figure 6).

Coarse Sediments
The coarse sediments described consist of sandstones and greywackes whose geochemical signatures are as follows: In the greywackes, we notice mean values of Ti, Y, Zr, with a decrease in Cr, Co, Fe, whose values remain substantially constant and the absence of Mn. As for sandstones we observe peaks in Sr, Ba, Th, and Zr, against a decrease in Ti, Y. Elements such as Cr, Co, Fe, Mn are almost zero. Zn has similar behavior in greywackes than in sandstones (Figure 7).

The Fine Sediments
In fine sediments, the geochemical characteristics marking the shales are as follows: there is an increase in Th and Zr and a depletion of the elements Ti, Y, Sr, and also low values of Cr, Co, Fe are visible on the log (Figure 8).

The Markers of Gold Mineralization Following the Result XRF Analysis
The individualized observation of the strips logs reveals that: As a result of the observations, we note that only Arsenic is the element most correlated with gold with a low degree (r = 0.16). This shows that the chemical element Arsenic does not always accompany gold. The realized logs show that some drillings have significant levels of Arsenic; there is no associated gold mineralization ( Figure 9).
This discontinuous relationship between Arsenic and Gold allows us to hypothesize which, it would have two or more generations of Arsenic some of which

Conclusions
In this paper, it may be noted that gold is marked in places, and at depths, a medium to strong correlation with the magnetic susceptibility data. The mineralized intervals usually consist of quartz veins, which allows advancing the hypothesis according to which the latter has a structural control on the mineralization.
In the sandstone, there is a para-genetic link between gold and arsenic, more or less strong.
Families of veins sometimes not containing gold are characterized by a high to medium magnetic susceptibility. Gold and arsenic would not be the only element at the base of magnetic susceptibility. Gold mineralization is believed to be related to quartz veins. Also, gold would be in paragenesis with a generation of Arsenic hosted in coarse sediments.