Filamentous fungal-mediated melanin nanoparticles for heavy metal detoxification via bioadsorption: a sustainable approach [0.03%]
丝状真菌介导的黑色素纳米粒子通过生物吸附法进行重金属解毒的一种可持续方法
Michael Helan Soundra Rani,Sivakumar Sujith
Michael Helan Soundra Rani
The eradication of heavy metal contamination has emerged as a paramount objective in preserving and conserving global water resources. The present study highlights the potential of halophilic fungal melanin derived from Curvularia lunata as...
Improved hydrolyzed polyacrylamide biodegradation and gel breaking performance of composite bacteria [0.03%]
改良型复合菌降解水解聚丙烯酰胺及破胶性能研究
Jiqian Wang,Xuanyu Zhang,Han Han et al.
Jiqian Wang et al.
Polymer flooding technology enhances crude oil recovery but generates a large amount of wastewater containing hydrolyzed polyacrylamide (HPAM) and HPAM residue in oil reservoirs, which induce serious environmental problems. Effective degrad...
Microbial degradation of diesel fuel as a potential environmental bioremediation [0.03%]
柴油燃料的微生物降解作为潜在的环境生物修复方法
Letícia Beatriz Ueda Melo,Bruna Bacaro Borrego,Louise Hase Gracioso et al.
Letícia Beatriz Ueda Melo et al.
Diesel oil is a fossil fuel widely utilized globally and a significant source of environmental contamination. Its presence poses substantial ecological challenges. Bioremediation emerges as a viable solution for restoring diesel-contaminate...
Bioremediation potential assessment of oil-degrading bacterial consortium prepared from local bacterial strains and its survival using different porous carriers [0.03%]
基于当地菌株的高效原油降解菌剂的制备及其固定化性能研究
Sareh Sadeghianfard Boroojeni,Hossein Motamedi
Sareh Sadeghianfard Boroojeni
Oil sludge contains high levels of heavy chain petroleum hydrocarbons and heavy metals that hinder its biodegradation. Hence for successful remediation, selecting potent isolates and construction of efficient bacterial consortium is inevita...
The mechanism underlying lignite biodegradation by Cupriavidus sp isolated from sludge [0.03%]
从污泥中分离出的铜绿假单胞菌降解褐煤的作用机制研究
Yaya Wang,Weilong Cao,Tianyu Zhu et al.
Yaya Wang et al.
Lignite, a low-rank coal, is commonly utilized as a fuel source. However, its high sulfur and ash content can result in the release of harmful substances during combustion. Microbial coal degradation offers a more environmentally friendly a...
The mechanism underlying lignite biodegradation by Cupriavidus sp isolated from sludge [0.03%]
从污泥中分离出的铜绿假单胞菌降解褐煤的作用机理研究
Yaya Wang,Weilong Cao,Tianyu Zhu et al.
Yaya Wang et al.
Lignite, a low-rank coal, is commonly utilized as a fuel source. However, its high sulfur and ash content can result in the release of harmful substances during combustion. Microbial coal degradation offers a more environmentally friendly a...
Biodegradation of heavy petroleum polycyclic aromatic hydrocarbons (PAHs) in polluted soil by biofilm-forming Bacillus tropicus UCB and Pseudomonas aeruginosa SYLI isolated from crude oil-contaminated sludge [0.03%]
分离自受油泥污染地点的生物被膜形成菌枯草芽孢杆菌UCB和恶臭假单胞菌SYLI对多环芳烃污染土壤的降解作用研究
Uchechukwu Chinwe Nebo,Daniel Juwon Arotupin,Adewale Oluwasogo Olalemi
Uchechukwu Chinwe Nebo
Crude oil pollution poses a threat to soil ecosystems, particularly in oil-producing regions. This study assessed the biodegradation potential of biofilm-forming Bacillus tropicus UCB and Pseudomonas aeruginosa SYLI isolated from crude oil ...
Thermophilic anaerobic digestion of polylactic acid, polyethylene and polypropylene microplastics: effect of inoculum-substrate ratio and microbiome [0.03%]
高温厌氧消化降解聚乳酸、聚乙烯和聚丙烯微塑料颗粒:接种物-底物比例及微生物群落的影响
Mahesh Mohan,Zain Ul Abedien,Prasad Kaparaju
Mahesh Mohan
Microplastics (MPs) generated from major plastic polymers have impacted the environment and formulation of an end-of-life scenario is a need of the hour. In the current study, the effects of inoculum to substrate ratios (ISR) 2, 4 and 6 on ...
Isolation and identification of a novel cellulolytic bacterium and optimization of FPase production for bagasse hydrolysis [0.03%]
一株新型纤维素分解菌的分离鉴定及FPase产酶优化以促进甘蔗渣降解
Nguyen Thi Hong,Le Duy Khuong
Nguyen Thi Hong
The current study's primary objectives were to screen for novel FPase-producing bacteria and optimize hydrolysis conditions for alkali-thermally pretreated sugarcane bagasse. This study carefully screened cellulolytic bacteria from soil and...
Metabolic fingerprinting to elucidate the biodegradation of phosphonoacetic acid and its impact on Penicillium metabolism [0.03%]
代谢指纹揭示磷酸丙酸的生物降解及其对青霉菌代谢的影响
Natalia Zielonka,Adam Ząbek,Karolina Anna Mielko-Niziałek et al.
Natalia Zielonka et al.
The application of metabolomic analysis to the study of fungal cell physiology provides a valuable means of elucidating the metabolic diversity of fungi. This study aims to identify metabolites that distinguish the metabolism of moulds base...