Bioremediation alternatives for total petroleum hydrocarbon removal in agricultural soil

Agro Productividad Pub Date : 2024-06-11 DOI:10.32854/agrop.v17i5.2861

E. Hernández-Acosta, E. García-Gallegos

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Abstract

Objective: The purpose of the present study is to highlight the importance of assessing bioremediation and total petroleum hydrocarbon removal by bioaugmentation and biostimulation on the rhizosphere. Design/methodology/approach: An 89-day experiment was established with treatments considering plant (corn) establishment–crude petroleum (25,000 mg kg-1)–bacteria and hydrocarbonoclastic fungi–adding nitrogen and phosphorus to agricultural soil. At the end of the experiment, hydrocarbonoclastic fungal and bacterial populations and total petroleum hydrocarbon removal were assessed. Results: Both microbial groups increased in number and time. The treatment with 120 kg nitrogen ha-1 and 12.5 kg phosphorus ha-1 allowed the highest population (227 x 103 g-1 of colony forming units (CFU) of hydrocarbonoclastic bacteria). A total of 83% petroleum hydrocarbon removal was obtained as established in 89 days. Limitations on study/implications: The effectiveness of bioremediation can vary significantly in real environments due to factors, such as soil variability, climate. Findings/conclusions: The previous results highlight the importance of using these bioremediation techniques to eliminate hydrocarbons in contaminated agricultural soils.

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去除农业土壤中总石油烃的生物修复替代方法

研究目的本研究旨在强调通过生物增殖和生物刺激对根瘤菌进行生物修复和总石油碳氢化合物去除评估的重要性。设计/方法/途径：进行了为期 89 天的实验，实验处理包括植物（玉米）生长-原油（25,000 毫克/千克）-细菌和碳氢化合物裂解真菌-向农业土壤中添加氮和磷。实验结束时，对碳氢化合物脆性真菌和细菌的数量以及石油碳氢化合物的总去除率进行了评估。结果显示两个微生物群在数量和时间上都有所增加。氮含量为 120 千克/公顷、磷含量为 12.5 千克/公顷的处理方法中，碳氢化合物脆化菌的数量最多（227 x 103 g-1 的菌落形成单位（CFU））。在 89 天内，石油碳氢化合物的去除率达到 83%。研究的局限性/影响：在实际环境中，由于土壤变异、气候等因素，生物修复的效果可能会有很大差异。研究结果/结论：之前的研究结果强调了使用这些生物修复技术消除受污染农业土壤中碳氢化合物的重要性。

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Agro Productividad

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