Growth Optimization of Glyphosate-based Herbicides Utilizing Bacteria isolated from Lotic Water of Ogini Stream, Nigeria

R. Aso, C. Hammuel, M. Daji, J. Briska
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Abstract

Glyphosate-based herbicides are often used for the control of weeds grown on agricultural fields or farms. Different health problems have been reported to be associated with the use of glyphosate-based herbicides mainly due to their toxicity level. Thus, finding glyphosate utilizing microorganisms to remediate the glyphosate-based herbicides in the environment is crucial. The culture conditions for maximum utilization of glyphosate by bacterial isolates, Stenotrophomonas maltophilia, Bacillus cereus and Enterobacter aerogenes previously isolated from Ugini stream close to corn fields treated with glyphosate-based herbicide at Ofagbe, Delta State, Nigeria were optimized using mineral salt medium containing glyphosate as carbon source. The varied culture parameters assessed were temperature (30, 37 and 40 oC), pH (5, 6, 7, 8 and 9), initial glyphosate concentration (1, 3, 5, 7 and 9 g/L) and incubation time (2-14 days). Optical density (OD) at 560 nm of the culture was used to estimate cell growth or cell load of the glyphosate utilizing bacteria strains at every 2 days for 14 days. The following optimal conditions were determined: initial pH 9.0, incubation temperature 30 °C, initial concentration of glyphosate (1g/L) and incubation time of 12 days. Of the isolates on the medium containing the herbicide as sole carbon and energy source, Bacillus cereus showed the highest growth level (OD average, 0.127, pH average, 6.26. This was followed by Stenotrophomonas maltophilia (OD average = 0.114, pH average = 6.44) and Enterobacter aerogenes (OD average = 0.100, pH average, 6.56). At the increased of glyphosate in the medium there was decreased in growth of the bacteria. Bacillus cereus, Stenotrophomonas maltophilia and Enterobacter aerogenes indicated a high capacity to be able to degrade glyphosate. It is therefore concluded that the bacteria employed in this research can be recommended for bioremediation of environments contaminated with this chemical and further research should conducted to ascertain the catabolic genes present in these individual glyphosate degrading bacteria.
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利用从尼日利亚Ogini溪洗液中分离的细菌优化草甘膦除草剂的生长
草甘膦类除草剂通常用于控制农田或农场的杂草。据报道,草甘膦除草剂的使用主要由于其毒性水平而导致不同的健康问题。因此,找到利用微生物修复环境中草甘膦除草剂的草甘膦是至关重要的。使用含有草甘膦作为碳源的矿物盐培养基,优化了先前从尼日利亚三角洲州奥法格贝用草甘膦除草剂处理的玉米田附近的Ugini溪流中分离的细菌分离株、嗜麦芽窄食单胞菌、蜡状芽孢杆菌和产气肠杆菌最大限度地利用草甘膦的培养条件。评估的不同培养参数包括温度(30、37和40℃)、pH(5、6、7、8和9)、草甘膦初始浓度(1、3、5、7和9 g/L)和培养时间(2-14天)。使用培养物在560nm处的光密度(OD)来估计草甘膦利用细菌菌株在14天内每2天的细胞生长或细胞负荷。确定了以下最佳条件:初始pH 9.0,培养温度30°C,草甘膦初始浓度(1g/L),培养时间12天。在以除草剂为唯一碳源和能量源的培养基上,蜡状芽孢杆菌的生长水平最高(OD平均值为0.127,pH平均值为6.26。其次是嗜麦芽窄食单胞菌(OD平均=0.114,pH平均=6.44)和产气肠杆菌(OD平均=10100,pH平均6.56)。在培养基中草甘膦含量增加时,细菌的生长减少。蜡样芽孢杆菌、嗜麦芽窄食单胞菌和产气肠杆菌具有很高的降解草甘膦的能力。因此得出的结论是,本研究中使用的细菌可以被推荐用于被这种化学物质污染的环境的生物修复,并且应该进行进一步的研究,以确定这些草甘膦降解细菌中存在的分解代谢基因。
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