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Soil Organic Carbon Accumulation and Stability Under Rice Straw, Ash, and Biochar Amendment in Saline‐Alkali Soil

修正案 生物炭 碱土 稻草 土壤碳 总有机碳 碱金属 环境科学 土壤改良剂 碳纤维 稻草 农学 粉煤灰 生理盐水 斜线和字符 土壤有机质 环境化学 化学 土壤科学 土壤水分 材料科学 生物 热解 有机化学 复合数 政治学 法学 复合材料 内分泌学
作者
Ya Jiang,Wenhao Zhu,Yuhang Han,Cuilan Li,Jinjing Zhang
出处
期刊:Land Degradation & Development [Wiley]
卷期号:36 (5): 1527-1539 被引量:3
标识
DOI:10.1002/ldr.5442
摘要

ABSTRACT Salinization and alkalization contribute significantly to soil degradation. Rice ( Oryza sativa L.) cultivation is an effective approach to remediate saline‐alkali soil. However, how rice straw (RS), rice straw biochar (RSB), and rice straw ash (RSA) impact soil organic carbon (SOC) accumulation and stability in saline‐alkali soil remains unknown. Herein, SOC and SOC fractions contents in bulk soil and its particle‐ and aggregate‐size classes under RS, RSB, and RSA amendments and control with amendments (CK) were investigated by field experiment. Carbon‐13 nuclear magnetic resonance spectroscopy was used to evaluate bulk SOC chemical composition. The SOC and SOC fractions contents ranked as CK<RSA<RS<RSB. Aromatic C was higher whereas O‐alkyl C was lower in RSB relative to other treatments. The contents of SOC and SOC fractions in bulk soil were generally positively correlated with those in particle‐ and aggregate‐size classes as well as with aromatic C. Redundancy analysis showed that exchangeable sodium and electrical conductivity were the most significant factors in shaping SOC contents and chemical composition. The results indicated that RSB is more beneficial for SOC accumulation and stabilization as compared to RS and RSA. The primary mechanisms of SOC accumulation in RSB‐amended soil included physical protection afforded by aggregate classes, chemical protection mediated by silt and clay fractions, and biochemical protection with recalcitrant aromatic C. Our findings suggest that converting RS into RSB and the subsequent application of this biochar have the potential for improving soil quality in saline‐alkali paddy field.
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