Structural organization and matter differentiationof bolshezemelskaya tundra south-east automorphic soils

The detailed studies on automorphic loamy soils of the European North-East ofRussia using up-to-date methods and approaches allowed tracing interdependencebetween soil structure components and between characters and sequence of theirchanges in time as well as differentiating between recent and inherited features andtransforming them during cryopedogenesis. The soils were identified for two stages ofpedogenesis. The stages were isolated on the basis of morphologic features (structuralorganization and differentiation of cutan complex), humus pedorelics, recent andinherited pedogenesis and cryogenesis processes and the intensity of lithomatrixtransformation. Top soil has signs of recent cryogenic evolution phase. Middle and lowsoil went through the taiga soil formation stage diagnosable by fragments of clay cutansand buried humus horizon, high intensity of lithomatrix transformation. Cryogenicstructural metamorphism of middle and low soil and deformation of cutan complexare aftereffects of a sudden temperature drop in the subboreal period of Holocene thatcaused a burial of middle-Holocene texturally-differentiated soil.The analysis of sand-silty cutans on recent migration ways of solutions diagnosesAl-Fe-humus illuviation process and conserving properties matter within aggregatereflect an eluvial-illuvial differentiation which is inherited from the taiga soil formationstage. Study of evolution, genesis, structural organization, differentiation of functioningproducts, high intensity of lithomatrix transformation and humus pedorelicts occurringin the south tundra subzone allowed to identify a combination of recent and inheritedfeatures connected with changes in bioclimatic factors in Holocene and human-inducedimpact. Diagnostic criteria of polygenetic soil genesis are offered.

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