Response of Soil Organic Carbon in Citrus Orchards at Different Slope Positions to Citrus Peel Biochar and Field Snail Shell Powder

Lening Hu; Zerui Ding; Rui Qin; Meifang Xiao; Mintuan Feng; Jingxiao Liang; Qijun Fan; Xianliang Li; Shengqiu Liu

Response of Soil Organic Carbon in Citrus Orchards at Different Slope Positions to Citrus Peel Biochar and Field Snail Shell Powder

2025

Soil organic carbon (SOC) loss in sloping farmland is a critical challenge for agricultural sustainability. This study investigated how citrus peel biochar (CPB), field snail shell powder (SSP), and their composite (CPB + SSP) differentially regulate SOC dynamics across slope positions (upper, middle, lower) in Guangxi&rsquo:s citrus orchards. Key findings revealed: CPB significantly increased SOC content (up to 5.5 g&middot:kg&minus:1 at lower slopes) via high carbon input but suppressed mineralization amount in lower slope position (reduction of 17.9%) due to its high C/N ratio. SSP neutralized soil acidity (pH 3.95 to 7.5), stimulating microbial activity and raising mineralization rates by 58.95% (lower slope), yet minimally enhanced SOC (only +0.7 g&middot:kg&minus:1). CPB + SSP effectively balanced carbon stability and active release: dissolved organic carbon (DOC) and readily oxidizable organic carbon (ROC) increased by 14.4 mg&middot:kg&minus:1 and 0.22 g&middot:kg&minus:1 (middle slope), while SOC rose significantly (e.g., +2.2 g&middot:kg&minus:1 at lower slope). Slope position effects strongly influenced outcomes: the lower slope (highest initial SOC) responded most strongly to CPB for carbon stabilization, while middle slopes benefited from CPB + SSP to reconcile carbon loss with fertility. These results provide slope-specific strategies for SOC management by integrating amendment synergy and machine learning-driven insights in citrus orchards.

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sloping land soc

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Agronomy

Volumen 15 Edición 9 ISSN 2073-4395

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Multidisciplinary Digital Publishing Institute

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Pls-sem; Random forest model; Machine learning prediction

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Journal Article

En AGRIS desde: 2025-10-30

Formato: AGRIS AP

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DOI https://www.mdpi.com/2073-4395/15/9/2209/pdf

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Response of Soil Organic Carbon in Citrus Orchards at Different Slope Positions to Citrus Peel Biochar and Field Snail Shell Powder

2025

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