1. Exploring metal(loid)s dynamics and bacterial community shifts in contaminated paddy soil: Impact of MgO-laden biochar under different water conditions.
- Author
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Wang, Yan, Wang, Yichen, Ma, Suhan, Zhao, Kankan, Ding, Fenghua, and Liu, Xingmei
- Subjects
BIOCHAR ,SOIL pollution ,BACTERIAL communities ,BACTERIAL diversity ,CORN straw ,SOIL stabilization ,ARSENIC - Abstract
In this study, a soil incubation experiment was conducted to explore the influence MgO-treated corn straw biochar (MCB) on the bioavailability and chemical forms of cadmium (Cd), lead (Pb), and arsenic (As), alongside the impact on the bacterial community within paddy soil subjected to both flooded and non-flooded conditions. Raw corn straw biochar (CB) served as the unmodified biochar control, aiding in the understanding of the biochar's role within the composite. The results showed that even at a minimal concentration of 0.5 %, MCB exhibited higher effectiveness in reducing the bioavailability of Pb and Cd compared to 1 % CB. In non-flooded conditions, 0.5 % MCB reduced the bioavailable Pb and Cd by 99.7 % and 87.4 %, respectively, while NaH 2 PO 4 -extracted As displayed a 14.5 % increase. With increasing MCB concentrations (from 0.5 % to 1.5 %), soil pH, DOC, EC, available phosphorus, and bioavailable As increased, while bioavailable Pb and Cd exhibited declining tendencies. Flooding did not notably alter MCB's role in reducing Pb and Cd bioavailability, yet it systematically amplified As release. Heavy metal fractions extracted by acetic acid increased in the MCB groups under flooding conditions, especially for As. The inclusion of 0.5 % MCB did not noticeably affect bacterial diversity, whereas higher doses led to reduced diversity and substantial changes in community composition. Specifically, the groups with MCB showed an increase in the Bacteroidetes and Proteobacteria phyla, accompanied by a decrease in Acidobacteria. These alterations were primarily attributed to the increased pH and EC resulting from MgO hydrolysis. Consequently, for Pb/Cd stabilization and soil bacterial diversity, a low dosage of MgO-treated biochar is recommended. However, caution is advised when employing MgO-treated biochar in soils with elevated arsenic levels, particularly under flooded conditions. [Display omitted] • MCB significantly reduced Pb/Cd bioavailability under different water conditions. • Waterlogging treatment and MCB synergistically promoted As release. • MCB increased soil pH, DOC and available P, affecting HMs transformation. • HOAc-extracted fractions in groups with MCB addition was enhanced by flooding. • Soil bacterial diversity decreased with increasing MCB due to high EC. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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