Bioremediation: Review on oil spill management using oil eating microorganisms, and spill effects on marine and terrestrial environment

Journal of Sustainable Environmental Pub Date : 2023-03-06 DOI:10.58921/jse.01.02.020

Qurat‐ul Ain, A. Rehman, Madiha Abbasi

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Abstract

With never ending increase in usage and demand of petroleum products worldwide chances of its spill also increase. Oil spills directly affect marine as well as terrestrial ecosystem, as petroleum product became source of water pollution. Marine shorelines serve as home to variety of wildlife oil spills thus destroying habitat of different animals by polluting coastline. Fishes and birds being the main victims. Different physical and chemical methods are used to manage oil spills. However bioremediation is considered as best procedure to manage oil spills around the world. Bioremediation uses the oil loving microbes (lyophilic) to cope oil spills, microbes are cable of destroying complex chemical compounds, some bacteria consume hydrocarbon as their ultimate energy and carbon source. Although process is considered as highly effective the rate at which degradation occur is very slow to prevent oil effecting shore and marine ecosystem, generally due to limitation of availability of nutrients which are generally nitrogen and phosphorous. Two type of methods are generally involved in bioremediation, these include bio augmentation and bio stimulation. In bio augmentation biodegradable bacteria are added to existing population at effected site while in bio stimulation, is addition of nutrients to make process more effective and efficient. Latest technology introduce use of nanoparticles in bioremediation. Along with bacteria some microalgae are under consideration for effective bioremediation. Challenges involve in biodegradation include slow bioremediation of polycyclic hydrocarbons of high molecular weight, i.e. asphaltenes can be difficult to deal .While failure of some techniques which are successful in laboratory at effected site is another problem .The review focus on oil spill effects, new trends in bioremediation developing technique and microbial bioremediation agents.

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生物修复:利用食油微生物进行溢油管理的综述，以及溢油对海洋和陆地环境的影响

随着世界范围内石油产品的使用和需求的不断增长，石油泄漏的可能性也在增加。石油泄漏直接影响海洋和陆地生态系统，石油产品成为水污染的来源。海洋海岸线是各种野生动物的家园，因此通过污染海岸线破坏了不同动物的栖息地。鱼类和鸟类是主要的受害者。不同的物理和化学方法被用来处理石油泄漏。然而，在世界范围内，生物修复被认为是处理石油泄漏的最佳方法。生物修复利用嗜油微生物(嗜冷微生物)来应对石油泄漏，微生物是破坏复杂化合物的电缆，一些细菌消耗碳氢化合物作为其最终的能量和碳源。虽然这一过程被认为是非常有效的，但为了防止石油影响海岸和海洋生态系统，降解的速度非常缓慢，这通常是由于营养物质的可得性有限，通常是氮和磷。生物修复通常涉及两种方法，即生物增强法和生物刺激法。在生物增强中，生物可降解细菌被添加到受影响部位的现有种群中，而在生物刺激中，添加营养物质使过程更有效和高效。最新技术介绍纳米粒子在生物修复中的应用。与细菌一起，一些微藻正在被考虑用于有效的生物修复。生物降解面临的挑战包括高分子量多环烃(即沥青质)的缓慢生物修复，而一些在实验室中成功的技术在受影响的现场失败是另一个问题。本文重点介绍了溢油影响、生物修复开发技术的新趋势和微生物生物修复剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Sustainable Environmental

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