Biodegradation of organic compounds in the coal gangue by Bacillus sp. into humic acid

IF 3.1 4区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biodegradation Pub Date : 2023-01-03 DOI:10.1007/s10532-022-10007-0

Chenxu Liu, Shuhua Ma, Xiaohui Wang, Yanjun Ou, Hao Du

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引用次数: 1

Abstract

Coal gangue (CG), one of the world’s largest industrial solid wastes produced during coal mining, is extremely difficult to be used owing to its combined contents of clay minerals and organic macromolecules. This study explored a novel process of degrading the harmful organic compounds in the CG into humic acid using a biological method characterized by scanning electron microscope–energy dispersive spectrometer, Fourier transform infrared spectroscopy (FTIR), X-ray photoelectron spectroscopy (XPS), and elemental analyzer. The results reveal that adding selected Bacillus sp. to the CG for 40 days can increase the humic acid content by ~ 17 times, reaching 17338.17 mg/kg, which is also the best level for promoting plant growth. FTIR and XPS spectra show that the organic compounds in the CG transforms primarily from C=C to C=O, COOH, and O–H groups, indicating that the organic compounds are gradually oxidized and activated, improving the humic acid concentration of soil. In addition, Bacillus sp. decreases pH and benzo[a]pyrene contents, and increases the content of available nutrients. After microbial degradation, coal gangue can be turned into ecological restoration materials.

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芽孢杆菌将煤矸石中的有机物降解为腐植酸

煤矸石是煤炭开采过程中产生的最大的工业固体废物之一，由于其粘土矿物和有机大分子的组合含量极难利用。本研究利用扫描电镜-能量色散光谱仪、傅里叶变换红外光谱(FTIR)、x射线光电子能谱(XPS)和元素分析仪对生物方法进行表征，探索了一种将CG中有害有机化合物降解为腐植酸的新工艺。结果表明，在CG中添加选定的芽孢杆菌40 d，腐植酸含量可提高~ 17倍，达到17338.17 mg/kg，这也是促进植物生长的最佳水平。FTIR和XPS光谱显示，土壤中的有机化合物主要由C=C转变为C=O、COOH和O - h基团，说明有机化合物逐渐被氧化和活化，提高了土壤腐殖酸浓度。此外，芽孢杆菌降低pH值和苯并[a]芘含量，提高速效养分含量。煤矸石经微生物降解后可转化为生态修复材料。

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来源期刊

Biodegradation 工程技术-生物工程与应用微生物

CiteScore

5.60

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Biodegradation publishes papers, reviews and mini-reviews on the biotransformation, mineralization, detoxification, recycling, amelioration or treatment of chemicals or waste materials by naturally-occurring microbial strains, microbial associations, or recombinant organisms. Coverage spans a range of topics, including Biochemistry of biodegradative pathways; Genetics of biodegradative organisms and development of recombinant biodegrading organisms; Molecular biology-based studies of biodegradative microbial communities; Enhancement of naturally-occurring biodegradative properties and activities. Also featured are novel applications of biodegradation and biotransformation technology, to soil, water, sewage, heavy metals and radionuclides, organohalogens, high-COD wastes, straight-, branched-chain and aromatic hydrocarbons; Coverage extends to design and scale-up of laboratory processes and bioreactor systems. Also offered are papers on economic and legal aspects of biological treatment of waste.