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Pedogenetic processes in anthrosols with pretic horizon (Amazonian Dark Earth) in Central Amazon, Brazil

Macedo, Rodrigo S ; Teixeira, Wenceslau G ; Corrêa, Marcelo M ; Martins, Gilvan C ; Vidal-Torrado, Pablo Paz-Ferreiro, Jorge (editor)

PLoS ONE, 2017, Vol.12(5) [Periódico revisado por pares]

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  • Título:
    Pedogenetic processes in anthrosols with pretic horizon (Amazonian Dark Earth) in Central Amazon, Brazil
  • Autor: Macedo, Rodrigo S ; Teixeira, Wenceslau G ; Corrêa, Marcelo M ; Martins, Gilvan C ; Vidal-Torrado, Pablo
  • Paz-Ferreiro, Jorge (editor)
  • Assuntos: Research Article ; Physical Sciences ; Engineering And Technology ; Physical Sciences ; Earth Sciences ; Earth Sciences ; Social Sciences ; Physical Sciences ; Physical Sciences ; Biology And Life Sciences ; Biology And Life Sciences ; Ecology And Environmental Sciences
  • É parte de: PLoS ONE, 2017, Vol.12(5)
  • Descrição: Anthrosols known as Amazonian Dark Earth (ADE) have borne witness to the intensification of sedentary patterns and the demographic increase in Central Amazon. As a result, a recurring pattern has been observed of mounds with ADE arising from domestic activities and the disposal of waste. The objective of this research was to demonstrate the relationship of these anthropic activities with pedogenetic formation processes of ADE in the municipality of Iranduba, Brazil. Disturbed and undisturbed soil samples were taken from two areas of ADE (pretic horizon) and from a non-anthropic pedon. Physical, chemical, micromorphological and SEM-EDS analyses were performed. The coarse material of the pretic horizons consisted predominantly of quartz, iron nodules, ceramics and charcoal fragments, and the fine material is organo-mineral. There was a direct relationship between the color of pretic horizons and the number of charcoal fragments. The thickness of the ADE results from the redistribution of charcoal at depth through bioturbation, transforming subsurface horizons into anthropic horizons. ADE presents granular microaggregates of geochemical and zoogenetic origin. Degradation of iron nodules is intensified in pretic horizons, promoting a reverse pedogenic process contributing to the xanthization process. Surprisingly the anthropic activities also favor clay dispersion and argilluviation; clay coatings on the ceramic fragments and in the pores demonstrate that this is a current process. Processes identified as contributing to ADE genesis included: i) addition of organic residues and ceramic artifacts (cumulization) with the use of fire; ii) mechanical action of humans, roots and macrofauna (bioturbation); iii) melanization of deeper horizons as a result of bioturbation; iv) argilluviation and degradation of iron nodules. This study offers new support to archaeological research in respect to ADE formation processes in Central Amazon and confirmed the hypothesis that ancient anthropic activities may trigger and/or accelerate pedogenetic processes previously credited only to natural causes.

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