利用少孢根瘤菌(Rhizopus oligosporus)和根瘤菌(Rhizopus oryzae)组合提高真菌-菌丝处理硅砂耐久性的水力特性和培养方法

Aswin Lim , Jonathan Yosuardi Sunaryo , Martin Wijaya , Alfrendo Satyanaga , Anastasia Prima Kristijarti
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引用次数: 0

摘要

如今,真菌作为生物媒介土壤改良技术的应用正在不断发展。真菌菌丝体处理土壤的水力特性尚不清楚,而且处理后的样品往往耐久性较低。本文介绍了真菌菌丝体处理硅砂的水力传导性和剪切强度的实验结果。实验中使用的真菌是寡孢根瘤菌(Rhizopus oligosporus)和根瘤菌(Rhizopus oryzae)的组合。样品是通过将沙子与豆豉接种体混合制备而成的,豆豉接种体和米粉的用量各不相同,目的是提高处理后土壤的耐久性。结果表明,与未处理的土壤相比,处理后土壤的饱和渗透性降低了约 10 倍。此外,处理过的土壤的土壤-水特性曲线也有所发展。真菌的作用似乎是填补了土壤的空隙,从而增加了土壤的空气进入值和剩余吸力。事实证明,用 10%的豆豉接种体和 5%的豆豉接种体加 5%的米粉进行模外固化(O-方法)可以延长处理样品的耐久性,第 14 天的排水抗压强度约为 40 kPa。对持续 4 个月的样品进行了扫描电子显微镜观察。在不同比例的淡豆豉接种物和米粉中,仍然可以清楚地看到菌丝和菌丝体覆盖了所有沙粒。当菌丝覆盖了所有沙粒并填满了孔隙时,水流被部分阻断。这可能是因为真菌具有很强的疏水性,可以阻止水渗入土壤。
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Hydraulic characteristics and incubation methods for enhancing durability of Fungi- Mycelium treated silica sand using Rhizopus oligosporus and Rhizopus oryzae combination

Nowadays, the application of Fungi as a bio-mediated soil improvement technique is developing. The hydraulic properties of Rhizopus Fungi-Mycelium Treated Soil are unknown, and the treated sample tends to have low durability. This article presents experimental results on the hydraulic conductivity and shear strength of Fungi-mycelium-treated silica sand. The fungi used in the experiments are a combination of Rhizopus oligosporus and Rhizopus oryzae, which are popular for making Tempeh, a local soybean cuisine from Indonesia. The samples were prepared by mixing the sand with Tempeh inoculum at various treatments and Tempe inoculum and rice flour dosages for enhancing the durability of the treated soil. The results showed that the saturated permeability of the treated soil could be reduced by about 10 times compared to the untreated soil. In addition, the Soil-Water Characteristic Curve of the treated soil also developed. The effect of the fungi appears to fill the void of soil and hence increases the Air Entry Value and residual suction of soil. The curing method outside the mold (O-method) with 10% Tempeh inoculum, and 5% Tempeh inoculum with 5% rice flour is proven can extend the durability of the treated sample, the undrained compressive strength is about 40 kPa on day 14. Scanning electron microscope was performed on the samples, which lasted for 4 months. The mycelium and hyphae are still clearly seen covering all sand particles with different percentages of Tempeh inoculum and rice flour. When the mycelium covered all the sand particles and filled the pores, the water flow was partially blocked. It might be attributed to the strong hydrophobicity of the fungi, which could prevent water from penetrating the soil.

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