Impact of biochar application to soil on the root-associated bacterial community structure of fully developed greenhouse pepper plants

M Kolton, Y Meller Harel, Z Pasternak… - Applied and …, 2011 - Am Soc Microbiol
M Kolton, Y Meller Harel, Z Pasternak, ER Graber, Y Elad, E Cytryn
Applied and environmental microbiology, 2011Am Soc Microbiol
Adding biochar to soil has environmental and agricultural potential due to its long-term
carbon sequestration capacity and its ability to improve crop productivity. Recent studies
have demonstrated that soil-applied biochar promotes the systemic resistance of plants to
several prominent foliar pathogens. One potential mechanism for this phenomenon is root-
associated microbial elicitors whose presence is somehow augmented in the biochar-
amended soils. The objective of this study was to assess the effect of biochar amendment on …
Abstract
Adding biochar to soil has environmental and agricultural potential due to its long-term carbon sequestration capacity and its ability to improve crop productivity. Recent studies have demonstrated that soil-applied biochar promotes the systemic resistance of plants to several prominent foliar pathogens. One potential mechanism for this phenomenon is root-associated microbial elicitors whose presence is somehow augmented in the biochar-amended soils. The objective of this study was to assess the effect of biochar amendment on the root-associated bacterial community composition of mature sweet pepper (Capsicum annuum L.) plants. Molecular fingerprinting (denaturing gradient gel electrophoresis and terminal restriction fragment length polymorphism) of 16S rRNA gene fragments showed a clear differentiation between the root-associated bacterial community structures of biochar-amended and control plants. The pyrosequencing of 16S rRNA amplicons from the rhizoplane of both treatments generated a total of 20,142 sequences, 92 to 95% of which were affiliated with the Proteobacteria, Bacteroidetes, Actinobacteria, and Firmicutes phyla. The relative abundance of members of the Bacteroidetes phylum increased from 12 to 30% as a result of biochar amendment, while that of the Proteobacteria decreased from 71 to 47%. The Bacteroidetes-affiliated Flavobacterium was the strongest biochar-induced genus. The relative abundance of this group increased from 4.2% of total root-associated operational taxonomic units (OTUs) in control samples to 19.6% in biochar-amended samples. Additional biochar-induced genera included chitin and cellulose degraders (Chitinophaga and Cellvibrio, respectively) and aromatic compound degraders (Hydrogenophaga and Dechloromonas). We hypothesize that these biochar-augmented genera may be at least partially responsible for the beneficial effect of biochar amendment on plant growth and viability.
American Society for Microbiology
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