Green waste biochar effects on sandy soil physicochemical properties

JOURNAL OF OASIS AGRICULTURE AND SUSTAINABLE DEVELOPMENT Pub Date : 2022-09-01 DOI:10.56027/joasd.142022

Habib Lamourou, Nissaf Karbout, Zied Zriba, I. Zoghlami, M. Ouessar, M. Moussa

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Abstract

The organic amendment of degraded soil in South East of Tunisia was used to restore the chemical, and physical properties of soil quality investigated in this study. Biochar derived from pyrolyzed green waste at 360°C was used like organic amendment. Nines randomized plots with one square meter of the area of each plot in three replicates have been installed in the Institute of Arid Area in Mednine South East of Tunisia, with two rates of biochar 20 and 40 t/ha were investigated: 20 tons/ha (B20) (2 kg/m²) and 40 tons/ha (B40) (4 kg/m²). The results showed that biochar had a positive effect on soil's physical and chemical properties compared to non-amended soil (Untreated soil). Biochar supply at rates of 20 and 40 tons/ha, causes a decrease in electrical conductivity to achieve 2.66 mS/cm for the B40 dose after 1 year of amendment, also a decrease in the bulk density at the surface layer (0-20 cm) has been registered, the total porosity which was decreased with depth. The hydraulic conductivity is favored by the incorporation of biochar in the soil which increases the volume of voids and tends to create preferential flow paths.

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绿色废弃物生物炭对沙质土壤理化性质的影响

本文研究了突尼斯东南部退化土壤的有机修复，以恢复土壤质量的化学性质和物理性质。从360°C的绿色废弃物热解中提取的生物炭作为有机改进剂使用。在突尼斯东南部Mednine干旱地区研究所设置了9个随机样地，每个样地的面积为1平方米，分3个重复，研究了20和40吨/公顷的生物炭配比:20吨/公顷(B20) (2 kg/m²)和40吨/公顷(B40) (4 kg/m²)。结果表明，与未处理土壤相比，生物炭对土壤理化性质有积极的影响。生物炭以20和40吨/公顷的速率供应，导致电导率下降，经过1年的修正，B40剂量达到2.66 mS/cm，表层(0-20 cm)的体积密度也有所下降，总孔隙率随深度而下降。生物炭在土壤中的掺入增加了空隙的体积，并倾向于创造优先的流动路径，从而有利于水力导电性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JOURNAL OF OASIS AGRICULTURE AND SUSTAINABLE DEVELOPMENT

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