A new model for the biodegradation kinetics of oil droplets: application to the Deepwater Horizon oil spill in the Gulf of Mexico

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Javier Vilcáez, Li Li, Susan S Hubbard
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引用次数: 49

Abstract

Oil biodegradation by native bacteria is one of the most important natural processes that can attenuate the environmental impacts of marine oil spills. Existing models for oil biodegradation kinetics are mostly for dissolved oil. This work developed a new mathematical model for the biodegradation of oil droplets and applied the model to estimate the time scale for oil biodegradation under conditions relevant to the Deepwater Horizon oil spill in the Gulf of Mexico. In the model, oil is composed of droplets of various sizes following the gamma function distribution. Each oil droplet shrinks during the microbe-mediated degradation at the oil-water interface. Using our developed model, we find that the degradation of oil droplets typically goes through two stages. The first stage is characterized by microbial activity unlimited by oil-water interface with higher biodegradation rates than that of the dissolved oil. The second stage is governed by the availability of the oil-water interface, which results in much slower rates than that of soluble oil. As a result, compared to that of the dissolved oil, the degradation of oil droplets typically starts faster and then quickly slows down, ultimately reaching a smaller percentage of degraded oil in longer time. The availability of the water-oil interface plays a key role in determining the rates and extent of degradation. We find that several parameters control biodegradation rates, including size distribution of oil droplets, initial microbial concentrations, initial oil concentration and composition. Under conditions relevant to the Deepwater Horizon spill, we find that the size distribution of oil droplets (mean and coefficient of variance) is the most important parameter because it determines the availability of the oil-water interface. Smaller oil droplets with larger variance leads to faster and larger extent of degradation. The developed model will be useful for evaluating transport and fate of spilled oil, different remediation strategies, and risk assessment.

Abstract Image

油滴生物降解动力学的新模型:在墨西哥湾深水地平线漏油事故中的应用
天然细菌对石油的生物降解是减轻海洋石油泄漏对环境影响的重要自然过程之一。现有的石油生物降解动力学模型多为溶解油。本研究建立了一个新的油滴生物降解数学模型,并应用该模型估计了墨西哥湾深水地平线石油泄漏相关条件下石油生物降解的时间尺度。在模型中,油由不同大小的液滴组成,遵循伽马函数分布。在微生物介导的油水界面降解过程中,每个油滴都会收缩。利用所建立的模型,我们发现油滴的降解通常经历两个阶段。第一阶段微生物活性不受油水界面限制,生物降解率高于溶解油;第二阶段是由油水界面的可用性决定的,这导致了比可溶性油慢得多的速率。因此,与溶解油相比,油滴的降解通常开始得更快,然后迅速减慢,最终在更长的时间内达到更小的降解油百分比。水-油界面的可用性在决定降解速率和程度方面起着关键作用。我们发现几个参数控制生物降解速率,包括油滴的大小分布、初始微生物浓度、初始油浓度和组成。在深水地平线漏油事件的相关条件下,我们发现油滴的大小分布(均值和方差系数)是最重要的参数,因为它决定了油水界面的可用性。油滴越小,变化越大,降解速度越快,程度越大。所建立的模型将有助于评估溢油的运输和命运、不同的补救策略和风险评估。
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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
审稿时长
>12 weeks
期刊介绍: Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.
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