References
- Phenrat T. Community citizen science for risk management of a spontaneously combusting coal‐mine waste heap in ban chaung, dawei district, myanmar. GeoHealth. 2020;4(6):1–16.
- Peng B, Guo D, Qiao H, et al. Bibliometric and visualized analysis of China’s coal research 2000-2015. J Clean Prod. 2018;197:1177–1189.
- Yang YP, Xu L, Feng F, et al. Site types and characteristics of gangue hills based on vegetation reconstruction in ningdong mining area. Bull Soil Water Conserv. 2020;40(3):202–207. (in Chinese).
- Run J, Li N, Du MH, et al. Study on the effect of synergy effect between the mixed cultures on the power generation of microbial fuel cells. Bioengieered. 2021;12(1):844–854.
- Wasilewski S. Monitoring the thermal and gaseous activity of coal waste dumps. Environ Earth Sci. 2020;79(20):474.
- Zhang J, Li PZ. Using soil microorganism to construct a new index of soil quality evaluation. IOP Conf Ser Earth Environ Sci. 2020;440(5):20–23.
- Jeyanthi V, Kanimozhi S. Plant growth promoting rhizobacteria (PGPR) - prospective and mechanisms: a review. J Pure Appl Microbiol. 2018;12(2):733–749.
- Guo D, Ren C, Ali A, et al. Streptomyces pactum combined with manure compost alters soil fertility and enzymatic activities, enhancing phytoextraction of potentially toxic metals (ptms) in a smelter-contaminated soil. Ecotoxicol Environ Saf. 2019;181:312–320.
- Vurukonda S, Sandhya V. Enhancement of drought stress tolerance in crops by plant growth promoting rhizobacteria. Microbiol Res. 2016;184(3):13–24.
- Dangi SR, Stahl PD, Wick AF, et al. Soil microbial community recovery in reclaimed soils on a surface coal mine site. Soil Sci Soc Am J. 2012;76(3):915–924.
- Li Y, Wang Y, Wang Y, et al. Effects of vitex negundo root properties on soil resistance caused by pull-out forces at different positions around the stem. Catena. 2017;158:148–160.
- Ji YF, Liu ZX. Effects of different afforestation management modes on soil physical and chemical properties after reclamation of abandoned construction land. Agric Technol. 2020;362(21):78–82.
- Li W, Shen S, Chen H. Bio-herbicidal potential of wheat rhizosphere bacteria on Avena fatua L. grass. Bioengineered. 2021;12(1):516–526.
- Yuan XC, Li GC, Yang WH, et al. Distribution characteristics of microbial community structure in atmospheric particulates of the typical industrial city in Jiangsu province, China. Bioengineered. 2021;12(1):615–626.
- Chen S, Zhou Y, Chen Y, et al. Fastp: an ultra-fast all-in-one fastq preprocessor. Bioinformatics. 2018;34(17):i884–i890.
- Magoč T, Salzberg SL. FLASH: fast length adjustment of short reads to improve genome assemblies. Bioinformatics. 2011;27(21):2957–2963.
- Edgar RC. Uparse: highly accurate otu sequences from microbial amplicon reads. Nat Methods. 2013;10(10):996.
- Wang Q, Garrity GM, Tiedje JM, et al. Naïve bayesian classifier for rapid assignment of rrna sequences into the new bacterial taxonomy. Appl Environ Microbiol. 2007;73(16):5261–5267.
- Monteil CL, Benzerara K, Menguy N, et al. Intracellular amorphous ca-carbonate and magnetite biomineralization by a magnetotactic bacterium affiliated to the alphaproteobacteria. ISME J. 2020;15:1–18.
- Tian W, Wang H, Xiang X, et al. Structural variations of bacterial community driven by sphagnum microhabitat differentiation in a subalpine peatland. Front Microbiol. 1661;2019(10). DOI:10.3389/fmicb.2019.01661
- Hu D, Zang Y, Mao Y, et al. Identification of molecular markers that are specific to the class thermoleophilia. Front Microbiol. 2019;10:1185.
- Lin Y, Liu RH, Zhou S, et al. Diversity of culturable heterotrophic bacteria in sediments of the mariana trench and their biodegradability with DMCSP. Chinese J Microbiol. 2021;3(31):1–21. (in Chinese).
- Chyrene M, Christiane H, Astrid G, et al. Microbial community composition of sediments influenced by intensive mariculture activity. FEMS Microbiol Ecol. 2019;95(2):1–12.
- Wu H, Li Y, Zhang J, et al. Sediment bacterial communities in a eutrophic lake influenced by multiple inflow-rivers. Environ Sci Pollut Res. 2017;24(24):19795–19806.
- Francine A, Patricia LS, Jennifer SH, et al. Isolation and characterization of novel iron-oxidizing autotrophic and mixotrophic bacteria from boiling springs lake, an oligotrophic, acidic geothermal habitat. Geomicrobiol J. 2014;32:140–157.
- Jang JH, Maeng S, Jung HY, et al. Nocardioides jejuensis sp. nov. isolated from soil. Antonie Van Leeuwenhoek. 2020;113(3):339–347.
- Da CMS, Rainey FA, Albuquerque L. Sulfobacillus. Bergey’s Manual Syst Archaea Bacteria. 2015;179:1–6.
- Zhang L. Experimental study on the separation of high-sulfur coal gangue. Dissertation. 2019; (in Chinese). doi:10.27200/d.cnki.gkmlu.2019.001512
- Huang S, Jaffé PR. Defluorination of perfluorooctanoic acid (pfoa) and perfluorooctane sulfonate (pfos) by acidimicrobium sp. strain a6. Environ Sci Technol. 2019;53(19):11410–11419.
- Kanazawa H, Ozaki S, Doi Y, et al. Symbiotic riboflavin degradation by microbacterium and nocardioides bacteria. Biosci Biotechnol Biochem. 2020;84(5):1056–1061.
- Teng T, Liang J, Zhang M, et al. Biodegradation of crude oil under low temperature by mixed culture isolated from alpine meadow soil. Water Air Soil Pollut. 2021;232(3):1–12.
- Sharma U, Bekturova A, Ventura Y, et al. Sulfite oxidase activity level determines the sulfite toxicity effect in leaves and fruits of tomato plants. Agronomy. 2020;10(5):694.
- Yan Y, Wang S, Wei M, et al. Effect of different rootstocks on the salt stress tolerance in watermelon seedlings. Horticult Plant J. 2018;4(6):239–249.
- Meng SL, Li XB, Tung CH, et al. Nitrogenase inspired artificial photosynthetic nitrogen fixation. Chem. 2020;7:1–20.
- Cai K, Frederick RO, Tonelli M, et al. Interactions of iron-bound frataxin with iscu and ferredoxin on the cysteine desulfurase complex leading to fe-s cluster assembly. J Inorg Biochem. 2018;183:107–116.
- Nakamura R, Hikita M, Ogawa S, et al. Snapshots of PLP‐substrate and PLP‐product external aldimines as intermediates in two types of cysteine desulfurase enzymes. FEBS J. 2019;287(6):1138–1154.
- Forouhar F, Arragain S, Atta M, et al. Two Fe-S clusters catalyze sulfur insertion by radical-SAM methylthio transferases. Nat Chem Biol. 2013;9(5):333–338.
- Abdoulaye S, Kenza B, Karim L, et al. Efficacy of phosphate solubilizing Actinobacteria to improve rock phosphate agronomic effectiveness and plant growth promotion, Rhizosphere. 2021;17:100284. DOI:10.1016/j.rhisph.2020.100284