Your search keyword '"Zheng Li"' showing total 2 results

1. Reconstruction and evaluation of oil-degrading consortia isolated from sediments of hydrothermal vents in the South Mid-Atlantic Ridge.

Author

Ma, Meng, Zheng, Li, Yin, Xiaofei, Gao, Wei, Han, Bin, Li, Qian, Zhu, Aimei, Chen, Hao, and Yang, Huanghao

Subjects

*HYDROTHERMAL vents, *HYDROCARBONS, *PSEUDOMONAS, *GAS chromatography/Mass spectrometry (GC-MS)

Abstract

In this study, sediments were collected from two different sites in the deep-sea hydrothermal region of the South Atlantic Ocean. Two microbial enrichment cultures (H7S and H11S), which were enriched from the sediments collected at two sample sites, could effectively degrade petroleum hydrocarbons. The bacterial diversity was analyzed by high-throughput sequencing method. The petroleum degradation ability were evaluated by gas chromatography–mass spectrometry and gravimetric analysis. We found that the dominant oil-degrading bacteria of enrichment cultures from the deep-sea hydrothermal area belonged to the genera Pseudomonas, Nitratireductor, Acinetobacter, and Brevundimonas. After a 14-day degradation experiment, the enrichment culture H11S, which was obtained near a hydrothermal vent, exhibited a higher degradation efficiency for alkanes (95%) and polycyclic aromatic hydrocarbons (88%) than the enrichment culture H7S. Interestingly, pristane and phytane as biomarkers were degraded up to 90% and 91% respectively by the enrichment culture H11S, and six culturable oil-degrading bacterial strains were isolated. Acinetobacter junii strain H11S-25, Nitratireductor sp. strain H11S-31 and Pseudomonas sp. strain H11S-28 were used at a density ratio of 95:4:1 to construct high-efficiency oil-degrading consortium H. After a three-day biodegradation experiment, consortium H showed high degradation efficiencies of 74.2% and 65.7% for total alkanes and PAHs, respectively. The degradation efficiency of biomarkers such as pristane and high-molecular-weight polycyclic aromatic hydrocarbons (such as CHR) reached 84.5% and 80.48%, respectively. The findings of this study indicate that the microorganisms in the deep-sea hydrothermal area are potential resources for degrading petroleum hydrocarbons. Consortium H, which was artificially constructed, showed a highly efficient oil-degrading capacity and has significant application prospects in oil pollution bioremediation. [ABSTRACT FROM AUTHOR]

Published

2021

2. Biodiversity and oil degradation capacity of oil-degrading bacteria isolated from deep-sea hydrothermal sediments of the South Mid-Atlantic Ridge.

Author

Ma, Meng, Gao, Wei, Li, Qian, Han, Bin, Zhu, Aimei, Yang, Huanghao, and Zheng, Li

Subjects

OIL spills, HYDROTHERMAL vents, BACTERIA, BIODIVERSITY, SEDIMENTS, PETROLEUM

Abstract

Studies have reported that various hydrocarbons and hydrocarbon-degrading bacteria are found in global deep-sea hydrothermal regions. However, little is known about degradation characteristics of culturable hydrocarbon-degrading bacteria from these regions. We speculate that these bacteria can be used as resources for the bioremediation of oil pollution. In this study, six oil-degrading consortia were obtained from the hydrothermal region of the Southern Mid-Atlantic Ridge through room-temperature enrichment experiments. The dominant oil-degrading bacteria belonged to Nitratireductor , Pseudonocardia , Brevundimonas and Acinetobacter. More varieties of hydrocarbon-degrading bacteria were obtained from sediments (preserved at 4 °C) near hydrothermal vents. Most strains had the ability to degrade high molecular weight petroleum components. In addition, Pseudonocardia was shown to exhibit a high degradation ability for phytane and pristine for the first time. This study may provide new insights into the community structure and biodiversity of culturable oil-degrading bacteria in deep-sea hydrothermal regions. [Display omitted] • The oil-degrading bacteria isolated from the sediment sample in NHV exhibited a high-degradation ability for phytane and pristane, with degradation rates higher than 86%. • Erythrobacter , Nitratireductor , Acinetobacter , Pseudonocardia and Brevundimonas were dominant oil-degrading bacteria in sediments of deep-sea hydrothermal region. • The diversity of oil-degrading bacteria in NHV was higher. We obtained more culturable oil-degrading bacteria from NHV stored at 4 °C. [ABSTRACT FROM AUTHOR]

Published

2021