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Bacterial community composition of anthropogenic biochar and Amazonian anthrosols assessed by 16S rRNA gene 454 pyrosequencing
Authors:Rodrigo Gouvêa Taketani  Amanda Barbosa Lima  Ederson da Conceição Jesus  Wenceslau Geraldes Teixeira  James M. Tiedje  Siu Mui Tsai
Affiliation:1. Laboratory of Cellular and Molecular Biology, Centro de Energia Nuclear na Agricultura, Universidade de S?o Paulo, Piracicaba, SP, Brazil
3. Laboratório de Microbiologia Ambiental, Embrapa Meio Ambiente, Rodovia SP 340, Km 127,5, Caixa Postal 69, Jaguariúna, SP, CEP 13820-000, Brazil
2. Department of Soil and Crop Sciences, Center for Microbial Ecology, Michigan State University, East Lansing, MI, USA
4. EMBRAPA Agrobiology, Seropédica, RJ, Brazil
5. EMBRAPA Western Amazon, Manaus, AM, Brazil
Abstract:Biochar (BC) is a common minor constituent of soils and is usually derived from the burning of wood materials. In the case of Amazonian dark earth (ADE) soils, the increased amount of this material is believed to be due to anthropogenic action by ancient indigenous populations. In this study, we use 16S rRNA gene pyrosequencing to assess the bacterial diversity observed in the BC found in ADEs as well as in the dark earth itself and the adjacent Acrisol. Samples were taken from two sites, one cultivated with manioc and one with secondary forest cover. Analyses revealed that the community structure found in each sample had unique features. At a coarse phylogenetic resolution, the most abundant phyla in all sequence libraries were Actinobacteria, Acidobacteria, Verrucomicrobia and Proteobacteria that were present in similar relative abundance across all samples. However, the class composition varied between them highlighting the difference between the Acrisol and the remaining samples. This result was also corroborated by the comparison of the OTU composition (at 97 % identity). Also, soil coverage has shown an effect over the community structure observed in all samples. This pattern was found to be significant through unweighted UniFrac as well as P tests. These results indicate that, although the ADEs are found in patches within the Acrisols, the contrasting characteristics found between them led to the development of significantly different communities.
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