陈丽华1,
李海玲2,
雒晓芳2,
张文博1,
王满刚2
1.西北民族大学化工学院,兰州 730030
2.西北民族大学实验中心,兰州 730030
基金项目: 国家民委中青年英才人才项目(民委发2016[57]号文件)
甘肃省科技计划项目(17JR5RA285)
中央高校基本科研项目(31920180126)
Biological degradation and transformation characteristics of total petroleum hydrocarbon in soil by oil-degradation bacteria adsorbed on a modified corn stalk
YU Jiarui1,,CHEN Lihua1,
LI Hailing2,
LUO Xiaofang2,
ZHANG Wenbo1,
WANG Mangang2
1.School of Chemical Engineering, Northwest Minzu University, Lanzhou 730030, China
2.Experimental Center, Northwest Minzu University, Lanzhou 730030, China
-->
摘要
HTML全文
图
参考文献
相关文章
施引文献
资源附件
访问统计
摘要:以甲基丙烯酸丁酯-苯乙烯改性玉米秸秆(BMGS)为载体吸附微生物对油污土壤进行了模拟降解实验,研究BMGS作为菌剂载体对油污土壤的降解效果,同时利用GC-MS指纹图谱深入分析TPH(total petroleum hydrocarbon)的重要组分——正构烷烃的降解演化规律和特性。结果表明:BMGS具有较高吸油能力(10.3 g·g-1),大于原秸秆(RMS)5.7 g·g-1;在3%含油量的油污土壤中,加入用BMGS吸附的菌剂的降解半衰期(14.8 d)均短于空白与用原秸秆(RMS)吸附的半衰期(36.1 d和33.0 d)。降解演化特性表明,2种秸秆RMS与BMGS材料对正构烷烃降解的促进作用依次提高,主峰碳数均出现前移,且BMGS的效果更为明显。加入BMGS后有利于菌剂降解较难降解的偶碳数正构烷烃和类异戊二烯烷烃,并且在降解前、后期,对低、高碳数正构烷烃的降解优势完成增效作用,高碳数正构烷烃平均降解率达到91.25%,较好地解释BMGS吸附菌剂后可以缩短降解TPH半衰期及提高降解率的原因。
关键词: 玉米秸秆/
生物修复/
降解动力学/
降解率/
生物演化
Abstract:Oil-degradation bacteria adsorbed on modified corn stalk with methyl butyl acrylate and styrene modified corn stalk (BMGS) were used to study degradation effects on oil-contaminated soil, that was based on a carrier BMGS in process of simulated experiment. At the same time, the degradation and transformation laws of normal alkanes of important components of TPH (total petroleum hydrocarbon) were studied through analysis of GC-MS fingerprint. The degradation effect shows that BMGS has high oil absorption capacity (10.3 g·g-1), more than the original straw (RMS) 5.7 g·g-1. In the 3% oil-contaminated soil, the half-life (14.84 d) of the bacteria degradation adsorbed on BMGS shortens than the half-life (36.1 d and 33.01 d) adsorbed with the original straw (RMS). The degradation transformation characteristics show that the degradation effect on normal alkanes with two kinds of RMS and BMGS straw material increases in order and the main peak carbon shows a forward movement, and the effect of BMGS is better obviously. It is helpful to degrade even carbon number normal alkanes and isoprenoid alkanes difficultly degradation with BMGS, and respectively in the pre and post of degradation, low and high carbon number alkanes is respectively used to important carbon source, the degradation rate of high carbon number alkanes reaches 91.25%, all above can explain satisfactorily the results of shortening half-life and increasing the rate of degradation dealt with oil-degradation bacteria adsorbed on BMGS.
Key words:maize straw/
bioremediation/
degradation kinetics/
degradation rate/
biological evolution.
| [1] | .IIJIMA S.Helical microtubes of graphite carbon [J].Nature,1991,318:56-58 10.1038/354056a0 |
| [2] | .KISHORE E D, ASHIS K M.Crude petroleum-oil biodegradation efficiency of Bacillus subtilis and Pseudomonas aeruginosa strains isolated from a petroleum-oil contaminated soil from North-East India [J].Bioresource Technology,2007,98(7):1339-1345 10.1016/j.biortech.2006.05.032 |
| [3] | .LU L, HUGGINS T, JIN S, et al.Microbial metabolism and community structure in response to bioelectrochemically enhanced remediation of petroleum hydrocarbon-contaminated soil [J].Environmental Science & Technology,2014,48(7):4021-4029 10.1021/es4057906 |
| [4] | . 陈丽华,马金珠,雒晓芳,等. 添加混合菌剂对石油污染土壤的降解研究[J]. 中南大学学报,2012,43(11):4181-4189 |
| [5] | . 韩慧龙,汤晶,江皓,等. 真菌-细菌修复石油污染土壤的协同作用机制研究[J]. 环境科学,2008,29(1):189-195 |
| [6] | . 雒晓芳,杨琴,陈丽华,等. 石油降解菌株的分离鉴定及降油特性[J]. 微生物学杂志,2012,32(5):11-17 |
| [7] | . 王建龙. 生物固定化技术与水污染控制[M].北京: 科学出版社,2002 |
| [8] | .ZHENG L C, ZHU C F, DANG Z, et al.Preparation of cellulose derived from corn stalk and its application for cadmium ion adsorption from aqueous solution[J].Carbohydrate Polymers,2012,90(2):1008-1015 10.1016/j.carbpol.2012.06.035 |
| [9] | . 邵娟,尹华,彭辉,等. 秸秆固定化石油降解菌降解原油的初步研究[J]. 环境污染与防治,2006,28(8):565-568 |
| [10] | . 童乐,何丽媛,郭楚玲,等. 以农作物秸秆固定化混合菌去除原油[J]. 环境工程学报,2016,10(5):2707-2713 |
| [11] | . 王冬梅,陈丽华,雒晓芳,等. 鼠李糖脂与菌剂对原油污染土壤的联合修复[J]. 环境工程学报,2014,8(11):5003-5009 |
| [12] | . 张秀霞,武海杰,韩雨彤,等. 改性秸秆载体固定化微生物修复石油污染土壤[J]. 石油学报(石油加工),2014,30(5):915-920 |
| [13] | . 朱超飞,赵雅兰,郑刘春,等. 改性玉米秸秆材料的制备及吸油性能的研究[J]. 环境科学学报,2012,32(10):2428-2434 |
| [14] | . 王俏,张玉琦,魏清波. 苯乙烯-甲基丙烯酸甲酯悬浮聚合工艺优化[J]. 化学与生物工程,2011,28(4):80-82 |
| [15] | . 陈丽华,周立辉,雒晓芳,等. 微生物菌剂与冰草联合修复含油污染土壤[J]. 中南大学学报(自然科学版),2015,46(11):4377-4383 |
| [16] | .HUESEMANN M H, HAUSMANN T S, FORTMAN T J.Biodegradation of hopane prevents use as conservative biomarker during bioremediation of PAHs in petroleum contaminated soils [J].Bioremediation Journal,2003,7(2):111-117 10.1080/713607978 |
| [17] | . 张丽君,张静静,李银丽. 麦秆的红外光谱分析[C] //中国光学学会,中国化学学会,第十五届全国分子光谱学术报告会论文集,2008 |
| [18] | . 陈翠兰,张本山,陈福泉. 淀粉结晶度计算的新方法[J]. 食品科学,2011,32(9):68-71 |
| [19] | . 王丽娟,王哲,张翼龙,等. 土壤中石油烃降解菌群的构建及其在降解过程的特征分析[J]. 安徽农业科学,2010,38(20):10834-10836 |
| [20] | .SEO J S, KEUM Y S, LI Q X.Bacterial degradation of aromatic compounds [J].International Journal of Environmental Research,2009,6(1):278-309 10.3390/ijerph6010278 |
| [21] | .NADIM F, HOAG G E, LIU S.et al.Detection and remediation of soil and aquifer systems contaminated with petroleum products: An overview[J].Journal of Petroleum Science and Engineering,2000,26(1/2/3/4):169-178 10.1016/S0920-4105(00)00031-0 |
| [22] | . 汪本善,盛国英,粟能先,等. 正烷烃在石油地球化学中的作用[J]. 地球化学,1975(4):258-272 |
| [23] | . 陈丽华,孙万虹,李海玲,等. 石油降解菌对石油烃中不同组分的降解及演化特征研究[J]. 环境科学学报,2016,36(1):124-133 10.13671/j.hjkxxb.2015.0677 |
Turn off MathJax -->
点击查看大图计量
文章访问数:473
HTML全文浏览数:364
PDF下载数:136
施引文献:0
出版历程
刊出日期:2018-10-11
-->
改性秸秆吸附微生物对土壤中石油烃降解及演化特征的影响
于加瑞1,,陈丽华1,
李海玲2,
雒晓芳2,
张文博1,
王满刚2
1.西北民族大学化工学院,兰州 730030
2.西北民族大学实验中心,兰州 730030
基金项目: 国家民委中青年英才人才项目(民委发2016[57]号文件) 甘肃省科技计划项目(17JR5RA285) 中央高校基本科研项目(31920180126)
关键词: 玉米秸秆/
生物修复/
降解动力学/
降解率/
生物演化
摘要:以甲基丙烯酸丁酯-苯乙烯改性玉米秸秆(BMGS)为载体吸附微生物对油污土壤进行了模拟降解实验,研究BMGS作为菌剂载体对油污土壤的降解效果,同时利用GC-MS指纹图谱深入分析TPH(total petroleum hydrocarbon)的重要组分——正构烷烃的降解演化规律和特性。结果表明:BMGS具有较高吸油能力(10.3 g·g-1),大于原秸秆(RMS)5.7 g·g-1;在3%含油量的油污土壤中,加入用BMGS吸附的菌剂的降解半衰期(14.8 d)均短于空白与用原秸秆(RMS)吸附的半衰期(36.1 d和33.0 d)。降解演化特性表明,2种秸秆RMS与BMGS材料对正构烷烃降解的促进作用依次提高,主峰碳数均出现前移,且BMGS的效果更为明显。加入BMGS后有利于菌剂降解较难降解的偶碳数正构烷烃和类异戊二烯烷烃,并且在降解前、后期,对低、高碳数正构烷烃的降解优势完成增效作用,高碳数正构烷烃平均降解率达到91.25%,较好地解释BMGS吸附菌剂后可以缩短降解TPH半衰期及提高降解率的原因。
English Abstract
Biological degradation and transformation characteristics of total petroleum hydrocarbon in soil by oil-degradation bacteria adsorbed on a modified corn stalk
YU Jiarui1,,CHEN Lihua1,
LI Hailing2,
LUO Xiaofang2,
ZHANG Wenbo1,
WANG Mangang2
1.School of Chemical Engineering, Northwest Minzu University, Lanzhou 730030, China
2.Experimental Center, Northwest Minzu University, Lanzhou 730030, China
Keywords: maize straw/
bioremediation/
degradation kinetics/
degradation rate/
biological evolution
Abstract:Oil-degradation bacteria adsorbed on modified corn stalk with methyl butyl acrylate and styrene modified corn stalk (BMGS) were used to study degradation effects on oil-contaminated soil, that was based on a carrier BMGS in process of simulated experiment. At the same time, the degradation and transformation laws of normal alkanes of important components of TPH (total petroleum hydrocarbon) were studied through analysis of GC-MS fingerprint. The degradation effect shows that BMGS has high oil absorption capacity (10.3 g·g-1), more than the original straw (RMS) 5.7 g·g-1. In the 3% oil-contaminated soil, the half-life (14.84 d) of the bacteria degradation adsorbed on BMGS shortens than the half-life (36.1 d and 33.01 d) adsorbed with the original straw (RMS). The degradation transformation characteristics show that the degradation effect on normal alkanes with two kinds of RMS and BMGS straw material increases in order and the main peak carbon shows a forward movement, and the effect of BMGS is better obviously. It is helpful to degrade even carbon number normal alkanes and isoprenoid alkanes difficultly degradation with BMGS, and respectively in the pre and post of degradation, low and high carbon number alkanes is respectively used to important carbon source, the degradation rate of high carbon number alkanes reaches 91.25%, all above can explain satisfactorily the results of shortening half-life and increasing the rate of degradation dealt with oil-degradation bacteria adsorbed on BMGS.
