Isolation and Identification of Bacteria from Soil Contaminated With Textile Dye And Tannery Effluents In Sokoto Metropolis

None Hauwa, H., None S.A. Adamu, None Yakubu H.
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Abstract

Soil contamination by textile and tannery effluents is a great concern to the environment, Complex effluents having a number of dyes accumulate in the soil there by polluting the environments and loss of microbial species in the soil. Samples were collected and the physicochemical analyses was determined. The pH was basic with 8.0 and 10.1 from tannery and dyeing site respectively. The organic carbon was very low with 0.76% and 0.06%, Nitrogen (0.067% and 0,095%), phosphorus 0.8mg/kg, and 1.62mg/kg), calcium (1.35mol/kg in both the two samples. Magnesium recorded 0.30mol/kg and 1.65mol/kg, potassium 0.85 mol/kg1.65mol/kg , Sodium 3.13mol/kg and 30.0 mol/kg in tannery and dyeing site respectively. The sand, silt and clay recorded (78.8% and 90.6%)(7.3% and 5.3%), (13.9% and 4.1%). The heavy metal content of the soil sample were determined the concentration of chromium was 0.0258 and 0.0043 from tannery and dyeing site respectively, while Nickel was almost unavailable in the site with -1.0700 and -1.0756. Lead recorded a very low concentration with -0.9164 and -7803. Thirteen bacterial species were isolated and identified based on morphology and biochemical charachteristics from the samples, tannery soil with frequency occurrences of 23.07% for Bacillus laterosporus, 15.38% for Bacillus subtilis and Bacillus megaterium while Bacillus firmus, Bacillus cereus, proteus vulgaris, proteus mirabilis and clostridium had 7.69% each. Fifteen species were isolated from the dyeing soil sample with Bacillus subtilis, Bacillus megaterium, and Pseudomonas aeruginosa with the highest frequency of occurrences with13.33% each. Burkholderia cepacia, P. florescense, Bacillus laterosporus,Bacillus amyloliquifeciens, Bacillus brevis and Proteus vulgaris had 6.66% each, all these were determine with the use of Microgen identification kit, molecular analysis was done on two bacterial isolates and were confirmed to be Alishwanella solinqauinati and Bacillus subtilis. These indicate that the species isolated can resist high amount of toxic chemicals and can withstand any harsh environment and hence their ability to serve as a potential biosorbents for bioremediation of the affected environments at a cheap cost.
索科托市纺织染料和制革废水污染土壤中细菌的分离与鉴定
纺织和制革废水对土壤的污染是一个非常令人关注的环境问题,具有许多染料的复杂废水通过污染环境和土壤中微生物物种的损失而积聚在土壤中。采集样品,进行理化分析。制革厂和印染厂的pH值分别为8.0和10.1。有机碳含量很低,分别为0.76%和0.06%,氮含量分别为0.067%和0.095%,磷含量分别为0.8mg/kg和1.62mg/kg,钙含量分别为1.35mol/kg。制革厂和印染厂镁、钾、钠分别为0.30mol/kg和1.65mol/kg、0.85 mol/kg和1.65mol/kg、3.13mol/kg和30.0 mol/kg。砂、粉、粘土分别为78.8%和90.6%(7.3%和5.3%)、13.9%和4.1%。土壤样品重金属含量测定结果显示,制革厂和印染厂土壤样品中铬的浓度分别为0.0258和0.0043,镍的浓度为-1.0700和-1.0756,几乎不可用。铅的浓度很低,为-0.9164和-7803。从制革土壤中分离鉴定出13种细菌,其中侧芽孢杆菌出现频率为23.07%,枯草芽孢杆菌和巨芽孢杆菌出现频率为15.38%,而硬芽孢杆菌、蜡样芽孢杆菌、普通变形杆菌、奇异变形杆菌和梭状芽孢杆菌出现频率分别为7.69%。染土样品中检出枯草芽孢杆菌、巨芽孢杆菌和铜绿假单胞菌15种,出现频率最高,各占13.33%。洋葱伯克霍尔德菌、花卉芽孢杆菌、侧孢芽孢杆菌、解淀粉芽孢杆菌、短芽孢杆菌和普通变形杆菌各占6.66%,采用Microgen鉴定试剂盒对其中2株进行了分子分析,确定为索林奎纳氏阿利什瓦氏菌和枯草芽孢杆菌。这表明,分离的物种能够抵抗大量有毒化学物质,能够承受任何恶劣的环境,因此它们能够以低廉的成本作为受影响环境的潜在生物吸附剂。
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