Response of Soil Chemical Properties under Tef (Eragrostis tef (Zucc.) Trotter) Field to Integrated Application of Lantana camara L. Weed Vermicompost and NPS Mineral Fertilizer

International Journal of Agronomy Pub Date : 2024-05-21 DOI:10.1155/2024/8814314

Kinfe Tekulu, Weldegebriel Gebrehiwot, Gebresemaeti Kahsu, T. Tadele, T. Berhe, Solomon Mebrahtom

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Abstract

Recently, the beauty of the environment, native forest plants, and crops were encroached with invasive weeds, and thus scientific community was concerned with searching for optional management of these horrible weeds. Accordingly, vermicomposting of invasive weeds with the purpose of utilization management was evaluated as an alternative option and cost-effective management. Utilization management included keeping the environment safe from expanding invasive weeds by using these weeds as vermicomposting materials. Consequently, vermicompost was produced from L. camara invasive weed and this produced vermicompost was interactively used with chemical fertilizer to appraise its effect on soil chemical properties after the tef crop was harvested. The experiment was arranged in a randomized complete block design (RCBD) in a factorial combination with three replications. Four levels of L. camara vermicompost amendment (0, 2, 4, and 6 t·ha−1) and four levels of NPS fertilizer (0, 100, 150, and 200 kg·ha−1) were used in the combination of the treatments. Disturbed composite soil sampling at a depth of 20 cm was carried out, one sample before planting and 48 samples after harvesting of the tef crop. The results showed that the combined addition of vermicompost and NPS fertilizers at the rate of 6 t·ha−1 and 200 kg·ha−1, respectively, significantly increased plant-available phosphorus (Av. P). Reversely, the pH of the soil remained unchanged when the soil was treated with the integration of vermicompost and NPS fertilizer or at their separate individual application. Most of the soil chemical properties, i.e. soil organic carbon (SOC), electrical conductivity (EC), Av. P, total nitrogen (TN), carbon-to-nitrogen ratio (C : N), and cation exchange capacity (CEC) were found to be improved when the soil was amended with the highest dose of sole L. camara vermicompost fertilizer. The two-year consecutive organic fertilizer fertilization rate increased SOC from 63.64% to 107.56%, EC from 8.70% to 22.22%, Av. P from 40.87% to 143.13%, TN from 50% to 100%, C : N ratio from 8.14% to 11.58%, and CEC from 42.11% to 63.67% versus untreated plot. Single-application NPS chemical fertilizer has only an encouraging effect on Av. P and CEC of soil. The principal driving factor for any change in soil chemical properties was the L. camara vermicompost amendment. Therefore, using L. camara weed as a vermicompost can enhance soil fertility. This study offers the opportunity to convert the large biomass of L. camara weed into vermicompost through vermicomposting.

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铁树（Eragrostis tef (Zucc.) Trotter）田间土壤化学性质对综合施用 Lantana camara L. 杂草蛭石和 NPS 矿物肥的反应

近来，环境美景、本地森林植物和农作物都受到了入侵杂草的侵扰，因此科学界开始关注如何对这些可怕的杂草进行选择性管理。因此，以利用管理为目的的入侵杂草蚯蚓堆肥被评估为一种替代选择和具有成本效益的管理方法。利用管理包括通过使用这些杂草作为蚯蚓堆肥材料，使环境免受入侵杂草蔓延的危害。因此，利用 L. camara 入侵杂草生产蛭石堆肥，并将生产的蛭石堆肥与化肥交互使用，以评估其在茶叶作物收获后对土壤化学性质的影响。实验采用随机完全区组设计（RCBD），三个重复的因子组合。在处理组合中使用了四个水平的 L. camara 蛭石堆肥（0、2、4 和 6 吨-公顷-1）和四个水平的 NPS 肥料（0、100、150 和 200 千克-公顷-1）。对 20 厘米深的土壤进行了扰动复合取样，其中一个样本在种植前，48 个样本在柚子收获后。结果表明，分别以 6 吨/公顷和 200 千克/公顷的比例添加蛭石堆肥和 NPS 肥料后，植物可利用磷（Av. P）显著增加。反之，在混合施用蛭石堆肥和 NPS 肥料或单独施用这两种肥料时，土壤的 pH 值保持不变。大多数土壤化学性质，即土壤有机碳（SOC）、导电率（EC）、Av.在施用最高剂量的蛭石堆肥后，土壤的大部分化学特性，如土壤有机碳（SOC）、电导率（EC）、平均磷（Av. P）、全氮（TN）、碳氮比（C : N）和阳离子交换容量（CEC）都得到了改善。连续两年施用有机肥，SOC 从 63.64% 增加到 107.56%，EC 从 8.70% 增加到 22.22%，Av.P 从 40.87% 增加到 143.13%，TN 从 50% 增加到 100%，C ：与未处理地块相比，氮磷比从 8.14% 提高到 11.58%，CEC 从 42.11% 提高到 63.67%。单次施用 NPS 化肥对土壤中 Av.P 和 CEC 的影响。土壤化学性质变化的主要驱动因素是 L. camara 蛭石堆肥。因此，使用 L. camara 杂草作为蛭石堆肥可以提高土壤肥力。这项研究为通过蚯蚓堆肥将骆驼蓬草的大量生物量转化为蚯蚓堆肥提供了机会。

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International Journal of Agronomy

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