安徽农学通报
安徽農學通報
안휘농학통보
AUHUI AGRICULTURAL SCIENCE BULLETIN
2014年
11期
27-30
,共4页
丁海涛%岳梅%邓呈逊*%李玉晖%彭春莲
丁海濤%嶽梅%鄧呈遜*%李玉暉%彭春蓮
정해도%악매%산정손*%리옥휘%팽춘련
嗜酸氧化亚铁硫杆菌%分离%氧化活性
嗜痠氧化亞鐵硫桿菌%分離%氧化活性
기산양화아철류간균%분리%양화활성
Acidithiobacillus ferrooxidans%Isolation%Oxidation activity
本研究从铜陵新桥矿区的高硫矿堆废水中分离一株嗜酸菌S t1,经生理生化特征及16S rDNA分子鉴定,确定其为嗜酸性氧化亚铁硫杆菌。该菌株分别在含有FeSO4·7H2O、S0、黄铁矿石颗粒(FeS2)的9K无机盐液体培养基中获得生长所需要的能量。结果嗜酸菌S t1对Fe2+氧化速率最快,培养到36h时溶液中44.1g·L-1 FeSO4·7H2O有95%被氧化;S0为能量底物的培养体系中,培养到26d时培养液中SO42-浓度达到2.2412 mg· mL-1,pH值降至1.18;黄铁矿石颗粒(FeS2)为能量底物的培养体系中,SO42-平均生成速率为1.3602 mmol·L-1·d-1,黄铁矿石颗粒氧化速率达到0.068mmol·d-1·g-1。
本研究從銅陵新橋礦區的高硫礦堆廢水中分離一株嗜痠菌S t1,經生理生化特徵及16S rDNA分子鑒定,確定其為嗜痠性氧化亞鐵硫桿菌。該菌株分彆在含有FeSO4·7H2O、S0、黃鐵礦石顆粒(FeS2)的9K無機鹽液體培養基中穫得生長所需要的能量。結果嗜痠菌S t1對Fe2+氧化速率最快,培養到36h時溶液中44.1g·L-1 FeSO4·7H2O有95%被氧化;S0為能量底物的培養體繫中,培養到26d時培養液中SO42-濃度達到2.2412 mg· mL-1,pH值降至1.18;黃鐵礦石顆粒(FeS2)為能量底物的培養體繫中,SO42-平均生成速率為1.3602 mmol·L-1·d-1,黃鐵礦石顆粒氧化速率達到0.068mmol·d-1·g-1。
본연구종동릉신교광구적고류광퇴폐수중분리일주기산균S t1,경생리생화특정급16S rDNA분자감정,학정기위기산성양화아철류간균。해균주분별재함유FeSO4·7H2O、S0、황철광석과립(FeS2)적9K무궤염액체배양기중획득생장소수요적능량。결과기산균S t1대Fe2+양화속솔최쾌,배양도36h시용액중44.1g·L-1 FeSO4·7H2O유95%피양화;S0위능량저물적배양체계중,배양도26d시배양액중SO42-농도체도2.2412 mg· mL-1,pH치강지1.18;황철광석과립(FeS2)위능량저물적배양체계중,SO42-평균생성속솔위1.3602 mmol·L-1·d-1,황철광석과립양화속솔체도0.068mmol·d-1·g-1。
A strain of Acidithiobacillus ferrooxidans was isolated from the acid mine drainage of Xinqiao Coal Mine, Tongling county. Strain S t1 was identified as Acidithiobacillus ferrooxidans by morphological and phylogenetic analysis of its 16S rDNA gene sequence. It’s oxidation activity with ferrous ion(Fe2+)、ele-mental sulfur(S0) and pyrite (FeS2)as substrates in 9K medium was studied. When the A.f strain was cul-tured in 9K mediun with 44.1g·L-1 FeSO4·7H2O as the substrates,95%of the FeSO4·7H2O was oxidized in 36h. When the A.f strain was cultured in 9K mediun with S0 as the substrates, 2.241 2 mg · mL-1 SO42-concentration, pH value 1.18 was observed in 26d. When the A.f strain was cultured in 9K mediun with FeS2 as the substrates,the average rate of SO42- product was 1.360 2mmol·L-1·d-1,The rate of oxidation of FeS2 was 0.068 mmol·d-1·g-1.
