{"title":"Effective Treatment of Tannery Effluent by Biofilm-Forming Bacteria and Evaluation of their Toxicity Reduction","authors":"Annapurna Maurya, Rajesh Kumar, Abhay Raj","doi":"10.1007/s11270-024-07714-0","DOIUrl":null,"url":null,"abstract":"<div><p>This study investigates the treatment efficiency of biofilm immobilized MBBR (moving bed biofilm reactor) system for tannery effluent compared to suspended cells system. A mixed culture of biofilm-forming strains <i>Bacillus vallismortis, Bacillus haynesii, Alcaligenes aquatilis,</i> and <i>Enterococcus faecium</i> showed increased biofilm formation and Cr(VI) reduction compared to individual strains. The MBBR carriers were shown to have a greater biofilm formation (cell viability = 8.255 log units) and EPS yield (58 mg/g total solids) compared to the PUF (polyurethane foam) carriers (cell viability = 6.806 log units, and EPS yield = 36.4 mg/g total solids). The COD removal efficiency of the biofilm immobilized MBBR was higher (82.5%) compared to suspended cells treatment (61.3%) in the fed-batch treatment method. GC–MS analysis showed that 2,6-Bis(tert-butyl) phenol and 1-monopalmitin compounds were either diminished or transformed during treatment with biofilm immobilized MBBR. Furthermore, phytotoxicity and genotoxicity tests confirmed the lower toxicity of biofilm stabilized MBBR treated effluent compared to treated suspended cells on fenugreek plant and <i>Allium cepa</i> L. roots, respectively. The study indicates that treating tannery effluent with a mixed culture of <i>B. vallismortis, B. haynesii, A. aquatilis,</i> and <i>E. faecium</i> immobilized on MBBR effectively removes both organic and inorganic contaminants along with genotoxic effects.</p></div>","PeriodicalId":808,"journal":{"name":"Water, Air, & Soil Pollution","volume":"236 2","pages":""},"PeriodicalIF":3.8000,"publicationDate":"2025-01-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Water, Air, & Soil Pollution","FirstCategoryId":"6","ListUrlMain":"https://link.springer.com/article/10.1007/s11270-024-07714-0","RegionNum":4,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"ENVIRONMENTAL SCIENCES","Score":null,"Total":0}
引用次数: 0
Abstract
This study investigates the treatment efficiency of biofilm immobilized MBBR (moving bed biofilm reactor) system for tannery effluent compared to suspended cells system. A mixed culture of biofilm-forming strains Bacillus vallismortis, Bacillus haynesii, Alcaligenes aquatilis, and Enterococcus faecium showed increased biofilm formation and Cr(VI) reduction compared to individual strains. The MBBR carriers were shown to have a greater biofilm formation (cell viability = 8.255 log units) and EPS yield (58 mg/g total solids) compared to the PUF (polyurethane foam) carriers (cell viability = 6.806 log units, and EPS yield = 36.4 mg/g total solids). The COD removal efficiency of the biofilm immobilized MBBR was higher (82.5%) compared to suspended cells treatment (61.3%) in the fed-batch treatment method. GC–MS analysis showed that 2,6-Bis(tert-butyl) phenol and 1-monopalmitin compounds were either diminished or transformed during treatment with biofilm immobilized MBBR. Furthermore, phytotoxicity and genotoxicity tests confirmed the lower toxicity of biofilm stabilized MBBR treated effluent compared to treated suspended cells on fenugreek plant and Allium cepa L. roots, respectively. The study indicates that treating tannery effluent with a mixed culture of B. vallismortis, B. haynesii, A. aquatilis, and E. faecium immobilized on MBBR effectively removes both organic and inorganic contaminants along with genotoxic effects.
期刊介绍:
Water, Air, & Soil Pollution is an international, interdisciplinary journal on all aspects of pollution and solutions to pollution in the biosphere. This includes chemical, physical and biological processes affecting flora, fauna, water, air and soil in relation to environmental pollution. Because of its scope, the subject areas are diverse and include all aspects of pollution sources, transport, deposition, accumulation, acid precipitation, atmospheric pollution, metals, aquatic pollution including marine pollution and ground water, waste water, pesticides, soil pollution, sewage, sediment pollution, forestry pollution, effects of pollutants on humans, vegetation, fish, aquatic species, micro-organisms, and animals, environmental and molecular toxicology applied to pollution research, biosensors, global and climate change, ecological implications of pollution and pollution models. Water, Air, & Soil Pollution also publishes manuscripts on novel methods used in the study of environmental pollutants, environmental toxicology, environmental biology, novel environmental engineering related to pollution, biodiversity as influenced by pollution, novel environmental biotechnology as applied to pollution (e.g. bioremediation), environmental modelling and biorestoration of polluted environments.
Articles should not be submitted that are of local interest only and do not advance international knowledge in environmental pollution and solutions to pollution. Articles that simply replicate known knowledge or techniques while researching a local pollution problem will normally be rejected without review. Submitted articles must have up-to-date references, employ the correct experimental replication and statistical analysis, where needed and contain a significant contribution to new knowledge. The publishing and editorial team sincerely appreciate your cooperation.
Water, Air, & Soil Pollution publishes research papers; review articles; mini-reviews; and book reviews.
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