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Sewage sludge biochar alters root colonization of mycorrhizal fungi in a soil cultivated with corn

Sewage sludge biochar (SSB) has demonstrated a large potential to improve soil quality, availability of nutrients, particularly phosphorus (P), and increase crop productivity. There is a lack of information on the effect of P from SSB on the soil microbiota, especially on arbuscular mycorrhizal fung...

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Bibliographic Details
Published in:European journal of soil biology 2019-07, Vol.93, p.103092, Article 103092
Main Authors: Figueiredo, Cícero Célio de, Farias, Walda Monteiro, Coser, Thais Rodrigues, Monteiro de Paula, Alessandra, Sartori da Silva, Maria Regina, Paz-Ferreiro, Jorge
Format: Article
Language:English
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Summary:Sewage sludge biochar (SSB) has demonstrated a large potential to improve soil quality, availability of nutrients, particularly phosphorus (P), and increase crop productivity. There is a lack of information on the effect of P from SSB on the soil microbiota, especially on arbuscular mycorrhizal fungi. Six treatments were arranged in randomized blocks, with four replicates: 1) Control - without any amendments; 2) Mineral fertilization with NPK; 3) Biochar prepared at 300 °C (BC300); 4) Biochar prepared at 500 °C (BC500); 5) BC300 + NPK; 6) BC500 + NPK. Amendments were applied in two consecutive harvests. Microbial biomass carbon (MBC), percentage of mycorrhizal colonization (MC) and easily extractable glomalin-related soil protein (EEG) of soil mycorrhizal fungi were evaluated in all treatments. Amendment with BC300 resulted in an increase in MBC, while all treatments resulted in an increase in the colonization of corn roots by AMF. Consequently, SSB stimulated the synthesis and excretion of EEG from the soil. Biochar, NPK mineral fertilizer and their combinations increased MC in corn compared to the control. However, no additive effects of SSB and NPK addition were observed. •Mycorrhizal fungal response to NPK with and without sewage sludge biochar (300, 500 °C) was evaluated.•Colonization of maize roots increased in all treatments compared to the control.•High P concentrations provided by biochar limited potential mycorrhizal colonization.•Biochar (300 °C) increased soil microbial biomass most, probably due to its C chemistry.
ISSN:1164-5563
DOI:10.1016/j.ejsobi.2019.103092