原甘松根际部分真菌的生物修复潜力。和臭虫(L.)R.M. King和H. Rob

E. Adongbede, A.A. Olomu
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摘要

植物与根际微生物的协同代谢是污染土壤根际修复的主要机制。本研究的目的是分离和筛选从拉各斯州阿卡卡拉各斯大学采集的两种菊科野生植物(tricax procumbens和Chromolaena odorata)的根际微真菌,研究其生物修复潜力。对原油微生物修复的根际真菌进行了分离、鉴定和评价。采用毒板法测定了不同浓度原油对最丰富真菌菌丝生长的抑制作用。采用连续稀释法和镀皿法,测定了芳香玉霉和原甘菊周围最丰富、最常见的真菌。对原春草和臭臭草根际土壤的分析表明,它们属于砂壤土类型。甘露草土壤的水分、有机碳和酸含量均高于原甘露草。黄曲霉和哈茨木霉分别是臭虫和原豆中数量最多和最常出现的真菌。从被试植株根际分离到20属39株微真菌。黄芽孢杆菌和哈兹芽孢杆菌对原油污染的耐受性为2.50% ~ 10.00%,菌丝生长抑制随时间的延长而降低。黄曲霉和哈氏霉对原油污染的降低率分别为68.45%和86.71%,且呈时间依赖性。丝状真菌~A。在一种名为根茎修复的创新技术中,黄曲霉和哈兹安曲霉可以分别与臭草和原甘菊联合使用,同时改善原油污染的土壤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bioremediation Potential of Selected Rhizosphere Fungi of Tridax Procumbens Linn. and Chromolaena odorata (L.) R.M. King & H. Rob
Co-metabolism between plants and rhizosphere microbes is the mainstay of rhizoremediation of contaminated soils. The aim of the current study was to isolate and screen selected rhizosphere micro-fungi of two Asteraceae (Tridax procumbens and Chromolaena odorata) collected from the wild in University of Lagos, Akoka, Lagos State for bioremediation potential. Rhizosphere fungi were isolated, identified and evaluated for crude oil myco-remediation. The inhibitory effect of different concentrations of crude oil on mycelial growth of the most abundant fungi was determined with poisoned plate assay method. The most abundant and recurring fungi around C. odorata and T. procumbens were determined using the serial dilution and plating methods. Analysis of the rhizosphere soil of T. procumbens and C. odorata showed they were sandy loam type. C. odorata soil had higher moisture, organic carbon, and acid content than T. procumbens. Aspergillus flavus and Trichoderma harzianum were the most abundant and recurring fungi in C. odorata and T. procumbens, respectively. Thirty-nine micro-fungi belonging to twenty genera were isolated from the test plants’ rhizosphere. A. flavus and T. harzianum tolerated 2.50 to 10.00% crude oil contamination assessed with their mycelial growth inhibition reducing with time. A. flavus and T. harzianum caused a 68.45% and 86.71% reduction of crude oil contamination respectively, in a time dependent manner. The filamentous fungi ~A. flavus and T. harzianum can potentially be used to simultaneously ameliorate crude oil contaminated soils in conjunction with C. odorata and T. procumbens, respectively in the innovative technology termed rhizoremediation.
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