Assessment of landscape impact on snow chemical composition in terms of mineral geochemical exploration

In areas with cold climate seasonal snowpack is an attractive sampling material for geochemical exploration of deep mineral accumulations. However, previous studies on assessment of exploration efficiency of snow cover have paid little attention to snow composition variability conditioned by local l...

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Veröffentlicht in:Applied geochemistry 2025-01, Vol.178, p.106238, Article 106238
Hauptverfasser: Sobolev, Igor S., Gavrilov, Roman Yu, Yazikov, Egor G., Tentyukov, Mikhail P., Matveenko, Irina A., Khvashchtvskaya, Albina А., Soboleva, Nadezhda P., Buchelnikov, Viktor S.
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Sprache:eng
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Zusammenfassung:In areas with cold climate seasonal snowpack is an attractive sampling material for geochemical exploration of deep mineral accumulations. However, previous studies on assessment of exploration efficiency of snow cover have paid little attention to snow composition variability conditioned by local landscape structure. The layered sampling of snow sections was performed in different landscape settings of the local area. The research area is characterized by the absence of ore mineralization zones and low anthropogenic load. The physical-chemical parameters and concentration of wide range of elements were identified in snowmelt. Multi-component data was integrated by means of factor principal component analysis. Besides, additive and differential geochemical indexes were used. The classification snow models were developed using hierarchical cluster analysis. The variance of chemical elements distribution and factor models of geochemical pattern were compared before and after reduction of background fluctuation. In terms of variation coefficient values of chemical elements the area has background parameters of chemical inhomogeneity. In total variance a lateral component prevails over a vertical one. The highest concentrations of chemical elements were found in snow section of forest landscape. It is necessary to take into account the fact of geochemical background fluctuation when interpreting the data of metal assay snow survey. After the reduction of lateral geochemical background fluctuation, the factor model has better classified the chemical elements in terms of their connection with soluble and insoluble occurrence forms. The values of differential index of liquid and solid phases have a similar satisfactory vertical variability in different landscapes. The analysis of chemical elements concentration reveals snow horizons that were or are affected by thaw and percolating water. The snow bottom layer, which is sampled at geochemical exploration, is not strong influenced by elution. •Background chemical inhomogeneity of snow should be taken in exploration.•The variance of geochemical pattern depends on the landscape.•The effect of local aeolian matter is significant.•It is necessary to take into account elution of sampled horizon.
ISSN:0883-2927
DOI:10.1016/j.apgeochem.2024.106238