Renyong Shi scite author profile

The effects and underlying mechanisms of crop residue-derived biochars on the pH buffering capacity (pHbuff) of an acidic Ultisol, with low pHbuff, were investigated through indoor incubation and simulated acidification experiments. The incorporation of biochars significantly increased soil pHbuff with the magnitude of the increase dependent on acid buffering capacity of the biochar incorporated to the soil. Cation release, resulting from the protonation of carboxyl groups on biochar surfaces and the dissolution of carbonates, was the predominant mechanism responsible for the increase in soil pHbuff at pH 4.0-7.0 and accounted for >67% of the increased pHbuff. The reaction of protons with soluble silica (Si) in biochars derived from rice straw and corn stover also accounted for ∼20% of the pHbuff increase due to HSiO precipitation. In conclusion, the incorporation of crop residue-derived biochars into acidic soils increased soil pHbuff with peanut stover biochar being the most effective biochar tested.

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Mechanisms for increasing soil resistance to acidification by long-term manure application

Shi

Liu

et al. 2019

Soil and Tillage Research

112

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Understanding the biochar's role in ameliorating soil acidity

Shi

et al. 2019

Journal of Integrative Agriculture

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Beneficial dual role of biochars in inhibiting soil acidification resulting from nitrification

Shi

Nkoh

et al. 2019

Chemosphere

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Renyong Shi

Mechanisms for Increasing the pH Buffering Capacity of an Acidic Ultisol by Crop Residue-Derived Biochars

Mechanisms for increasing soil resistance to acidification by long-term manure application

Understanding the biochar's role in ameliorating soil acidity

Beneficial dual role of biochars in inhibiting soil acidification resulting from nitrification

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