一株毒死蜱降解菌的分离鉴定及降解性能研究

从农药厂废水处理池污泥中分离到一株对毒死蜱有较强降解能力的菌株CH3，通过生理生化试验初步将该菌鉴定为哈夫尼菌属(Hafnia sp.)。CH3能以毒死蜱为唯一碳源生长，在温度为30℃，pH为7.0，毒死蜱初始浓度为200 mg/L的条件下，历时6 d，毒死蜱的降解率可达78.5%。菌株最适生长温度为37℃，最适pH值为7.0，最适降解浓度为200 mg/L。对碳、氮源利用广泛，最佳碳源为蔗糖和葡萄糖，对氮源选择性不高，在无机氮源和有机氮源中均能较好地生长。     

氐温喹啉降解菌的筛选及降解性能

从吉林石化污水处理厂的活性污泥中驯化、筛选获得一株降解效率高且生长速率快高效耐冷菌，命名为WS-5。该菌能以喹啉作为惟一的碳源、氮源及能源。结合菌体的形态观察、生理生化特性实验及16SrDNA序列同源性对比分析，鉴定菌株WS-5为恶臭假单胞菌（Pseudomonasputida）。不同降解条件下的实验结果表明，菌株WS-5的最佳降解条件是投菌量为15％，pH值范围在8～10，摇床转速为100r／min。最佳降解环境下对200mg／L的喹啉在132h降解率达到了85．3％。菌株WS-5对初始喹啉浓度为50、100、200和300mg／L的初始喹啉浓度分别在36、72、192和262h内完全降解。这将为今后在低温条件下处理含喹啉废水提供技术指导。     

苯胺降解菌的分离和降解特性研究

通过驯化富集培养,从白洋淀底泥中分离筛选出数株能够有效降解苯胺的菌株,经过反复筛选,得到一株能够以苯胺为唯一碳源、高效降解苯胺的菌株BA-1-3.其利用苯胺的最适pH值为7.0,最适温度为30℃,在苯胺浓度为1000 mg/L,180 r/min条件下振荡培养60 h,降解率达到80%以上.经鉴定,菌株BA-1-3属苍白杆菌属(Ochrobactrumsp.).     

一株耐铬不动杆菌对十二烷基硫酸钠的降解特性

研究醋酸钙不动杆菌H1的降解广谱性时,发现其能在高浓度十二烷基硫酸钠(SDS)环境中生长。经过对菌株H1降解特性研究,结果表明,该菌利用SDS的最适温度为30℃,最适pH为7.0,最适接种量为2%,并适应低渗透压环境。当SDS浓度低于400 mg/L时,菌株H1对SDS的降解率在85%以上,且在SDS浓度为400 mg/L时,达到最大降解率94%。当K2Cr2O7为500 mg/L时,菌株H1对SDS的降解率仍达到50%左右。添加酵母浸出物可促进SDS的降解。     

一株乐果降解菌的筛选、鉴定及其降解特性研究

采用自制驯化装置,从土壤中分离纯化出一株能以乐果为单一碳源生长的菌株,命名为菌株LPx。根据生理生化特征和16S rRNA(GenBank Accession No.HM488993)基因序列分析,初步将该菌株鉴定为假单胞菌属(Pseudomonas sp.)。通过对其降解乐果特性研究,结果显示,菌株LPx降解乐果的最适pH为7.5、最适温度为30℃、最适接种量为10%(体积分数)。最适条件下,100 mg/L乐果可在120 h内基本被降解。菌株对乐果的降解属于高浓度底物抑制的酶促反应,vmax(不存在抑制剂时最大酶促反应速率)=0.734 d-1,km(米氏常数)=21.700 mg/L,k1(底物抑制系数)=259.215 mg/L。     

1，4-二氯苯降解菌的分离及其降解特性研究

从某污水处理曝气池的活性污泥中分离出一株能够以1，4-二氯苯为唯一碳源和能源生长的菌株DEB-1，通过形态特征和生理生化试验初步鉴定为黄杆菌属（Flavobacterium sp.）。实验结果表明，该菌株最适降解温度为32℃、最适降解pH为7.8，24 h对100 mg/L的1，4-二氯苯的降解率达94.5%。菌株DEB-1的降解谱较广，对5种氯苯类物质具有较高的降解率。并进一步研究了DEB-1的1，4-二氯苯降解酶粗酶液的性质，其最适反应温度和pH分别为30℃和8.5。对处理含氯代芳香化合物的有机废水具有一定的意义。     

四环素高效降解酵母菌Trichosporon mycotoxinivorans XPY-10降解特性

Trichosporon mycotoxinivorans XPY-10是一株分离自抗生素制药厂的高效四环素降解酵母菌。为了建立该菌株降解四环素的适宜条件，分别研究了碳源、有机氮源、金属离子等营养物质及初始底物浓度、接种量、pH、温度、装液量、摇床转速等理化因素对菌体生长及四环素降解效率的影响。结果表明，菌株XPY-10生长的最适碳源和氮源分别为蔗糖和蛋白胨。在含有0．05％FeSO4的培养基中，菌株XPY—10降解四环素的适宜条件为：接种量2％，pH8，温度3422，装液量100mL（250mL三角瓶），摇床转速180r／min。在此条件下，菌株XPY—10在7d内对初始浓度为600mg／L的四环素降解率为83．63％。本菌株对养殖废水及制药废水中四环素的污染治理有一定的应用前景。     

烟酰胺降解菌的筛选及其降解特性

采用HPLC对某烟酰胺生产废水的主要成分进行分析，并模拟废水中的主要成分烟酰胺（nicotinamide）的浓度，对以烟酰胺为唯一碳源配制的培养基进行降解实验，获得有较佳降解率和生长能力的菌株YSI-1和YSI-2。结果表明．YSI菌株的混合菌降解效果优于单株菌，混合菌在初始OD600值为0．4，pH为7．0时，对浓度为2000mg／L的烟酰胺降解2d的降解率可达32．8％。延长处理时间或提高菌种的初始OD600值，烟酰胺的去除率均有较大的增加。     

高效阿特拉津降解菌株DNSIO降解条件优化

从长期施用阿特拉津的寒地黑土耕层（0～10cm）土壤中筛选到一株能以除草剂阿特拉津为氮源生长的降解菌株，结合16SrRNA序列分析结果，将该菌株命名为Arthrobacter sp．DNSl0。在接种量为10。CFU／mL的条件下，菌株DNSl0在24h内对100mg／L阿特拉津的降解率为99．41％。单因子实验结果表明，菌株DNSl0适宜生长和降解的条件范围是：温度25～35＇12，pH值5．0～8．0，培养液盐度0．1％～2％，对阿特拉津最大耐受浓度可达1200mg／L。正交实验法进一步表明，该菌株保持较好生长及降解能力的最优方案是温度30℃，pH值7．5，培养液盐度0．5％。影响其降解能力的环境因素的主次顺序依次是：温度〉盐度〉pH值。     

低温喹啉降解菌的筛选及降解性能

从吉林石化污水处理厂的活性污泥中驯化、筛选获得一株降解效率高且生长速率快高效耐冷菌,命名为WS-5.该菌能以喹啉作为惟一的碳源、氮源及能源.结合菌体的形态观察、生理生化特性实验及16S rDNA序列同源性对比分析,鉴定菌株WS-5为恶臭假单胞菌(Pseudomonas putida).不同降解条件下的实验结果表明,菌株WS-5的最佳降解条件是投菌量为15％,pH值范围在8～10,摇床转速为100 r/min.最佳降解环境下对200 mg/L的喹啉在132 h降解率达到了85.3％.菌株WS-5对初始喹啉浓度为50、100、200和300 mg/L的初始喹啉浓度分别在36、72、192和262 h内完全降解.这将为今后在低温条件下处理含喹啉废水提供技术指导.     

Degradation of diuron in aqueous solution by ozonation

Degradation of diuron [3-(3,4-dichlorophenyl)-1,1-dimethylurea] in aqueous solution and the proposed degradation mechanism of diuron by ozonation were investigated. The factors that affect the degradation efficiency of diuron were examined. The generated inorganic ions and organic acids during the ozonation process were detected. Total organic carbon removal rate and the amount of the released Cl^? increased with increasing ozonation time, but only 80.0% of the maximum theoretical concentration of Cl^? at total mineralization was detected when initial diuron concentration was 13.8 mg L^?1. For N species, the final concentrations of NO₃ ^? and NH₄ ⁺ after 60 min of reaction time were 0.28 and 0.19 mg L^?1, respectively. The generated acetic acid, formic acid and oxalic acid were detected during the reaction process. The main degradation pathway of diuron by ozonation involved a series of dechlorination-hydroxylation, dealkylation and oxidative opening of the aromatic ring processes, leading to small organic species and inorganic species. The degradation efficiency of diuron increased with decreasing initial diuron concentration. Higher pH value, more ozone dosage, additive Na₂CO₃, additive NaHCO₃ and additive H₂O₂ were all advantageous to improve the degradation efficiency of diuron.     

一株假单胞菌降解石油污染物的降解动力学与降解机制

从某石油污染场地土壤中分离出一株石油降解菌B-1(Pseudomonas),研究了该菌株降解石油污染物的动力学,通过气相色谱(GC)/质谱(MS)分析了石油组分降解前后的变化规律,并对其降解机制进行了初探。结果表明:(1)苯、二甲苯、萘的降解动力学拟合方程大部分与一级降解动力学方程拟合效果良好,苯、二甲苯、萘的降解半衰期分别为0.47~1.67、1.54~3.60、4.41~7.00d;(2)可以通过全扫描图谱及检索出的代谢产物明确微生物降解苯、二甲苯、萘的降解途径。     

含氯苯废水的超声降解研究

以氯苯模拟废水为考察对象,研究其浓度、pH、超声时间等因素对氯苯超声降解效率的影响。实验结果表明：超声反应时间小于5min,氯苯降解率很低;5－20min,氯苯降解率成线性增大;超过20min后,氯苯降解率增大缓慢。pH值的增大,氯苯降解率略有减小。水浴温度提高,氯苯降解率增大。反应时间小于15min,初始浓度低的溶液,降解率增加较快,反应时间大于15min,初始浓度高的溶液,降解率增加较快。     

Aerobic and anaerobic degradation of profluralin and trifluralin

Abstract

The degradation of profluralin [N‐(cyclopropylmethyl)‐α,α,α‐trifluoro‐2,6‐dinitro‐N‐propyl‐]p‐toluidine] and trifluralin (α,α,α‐trifluoro‐2,6‐dinitro‐N,N‐dipropyl‐p‐toluidine) was studied under aerobic and anaerobic soil conditions. Three soils (Goldsboro loamy sand, Cecil loamy sand, Drummer clay loam) were each treated with 1 ppmw herbicide; anaerobic conditions were maintained by flooding. Soil samples were extracted monthly and subjected to TLC analysis. No degradation was detected in sterile controls. Aerobic degradation of both herbicides was greatest in the Cecil loamy sand soil over the entire incubation period. Degradation of profluralin in Cecil soil under aerobic conditions was 86 percent after 4 months with three products detected; 83 percent of the trifluralin was degraded with two products detected. Anaerobic degradation accounted for 72 percent of the profluralin and 78 percent of the trifluralin after 4 months. Degradation of both herbicides increased with incubation time for the first 3 months and decreased slightly thereafter. Generally there was more extensive degradation (percent and in number of products formed) of profluralin than trifluralin under the conditions tested. More degradation products were detected for both herbicides under aerobic conditions than under anaerobic conditions.     

一株木材腐朽菌及其粗酶液对七氯的降解

Phlebia acanthocystis TMIC34875是一株具有七氯降解能力的木材腐朽菌。为利用微生物技术去除环境中的七氯残留提供理论依据,研究了该菌株及其粗酶液对七氯的降解性能及其动力学特性。结果表明,菌株在七氯的初始浓度为50μmol/L时具有最大降解速率,为0.3031μmol/（L·h）;而菌体接种量为15%时,降解速率达到最高,为0.2045μmol/（L·h）。降解酶定位研究表明,七氯的降解主要是胞内酶在起作用。七氯胞内酶降解的酶促反应最适温度是35℃,在30-40℃之间有较高的催化活性;最适pH值为5.0,在pH 4.5-6.0之间有较高的催化活性,最适条件下反应1 h后七氯的降解率为65%。胞内粗酶液降解七氯的米氏常数K m为5.42μmol/L,最大反应速率V max为4.55μmol/min。胞内酶处理体系的GC/MS图谱显示,主要降解产物为1-羟基六氯、1-羟基-2,3-环氧六氯和环氧七氯,表明胞内酶对七氯的初始代谢机理同菌株相似,均是通过环氧化和置换反应来完成的。     

Persistence and biodegradation of carbaryl in soils

Abstract

The persistence of the methylcarbamate pesticide carbaryl was studied in four soils under flooded conditions. A substantial portion of the pesticide was recovered from all soils even after 15 days of its application, with the recovery ranging from 37% in an alluvial soil to 73% in an acid sulfate soil. The degradation of carbaryl was more rapid under flooded conditions than under nonflooded conditions. A bacterium, Pseudomonas cepacia, isolated from a flooded soil amended with a related methylcarbamate pesticide carbofuran, degraded carbaryl in a mineral medium supplemented with yeast extract.     

Molarity provides better clarity – using molar-based data when evaluating chlorinated volatile organic compound impacted sites

Abstract

Chlorinated volatile organic compounds are common constituents observed at many contaminated groundwater sites. Common industry practice has been to measure these constituents in groundwater on a weight concentration basis (e.g. µg/l, mg/l). This paper highlights the use of molar-based concentrations, especially in the case of parent-daughter degradation sequences commonly observed with the chloroethene, chloroethane, and chloromethane families of compounds. Converting to molar-based concentrations provides the practitioner greater insight into groundwater plume behavior including better evaluation of degradation processes, remedial progress, possible commingling, and/or sourcing. For example, this paper provides a tank analogy to evaluate whether the commonly misinterpreted observation of “DCE-stall” may be occurring at a site. Multiple examples of the benefits of using molar-based concentration data are also summarized in a project case study presented herein. As demonstrated in this paper, molarity does provide better clarity and can be a powerful evaluation tool in the groundwater practitioner’s toolbox.     

Fate of CL-20 in sandy soils: degradation products as potential markers of natural attenuation

Hexanitrohexaazaisowurtzitane (CL-20) is an emerging explosive that may replace the currently used explosives such as RDX and HMX, but little is known about its fate in soil. The present study was conducted to determine degradation products of CL-20 in two sandy soils under abiotic and biotic anaerobic conditions. Biotic degradation was prevalent in the slightly acidic VT soil, which contained a greater organic C content, while the slightly alkaline SAC soil favored hydrolysis. CL-20 degradation was accompanied by the formation of formate, glyoxal, nitrite, ammonium, and nitrous oxide. Biotic degradation of CL-20 occurred through the formation of its denitrohydrogenated derivative (m/z 393 Da) while hydrolysis occurred through the formation of a ring cleavage product (m/z 156 Da) that was tentatively identified as CH₂N-C(N-NO₂)-CHN-CHO or its isomer N(NO₂)CH-CHN-CO-CHNH. Due to their chemical specificity, these two intermediates may be considered as markers of in situ attenuation of CL-20 in soil.     

低温1,2,4-TCB降解菌的选育、降解特性及邻苯二酚1,2-双加氧酶基因表达水平

从长期受1,2,4-三氯苯(1,2,4-TCB)污染的地下水中筛选出一株低温寡营养降解菌A2,对A2菌进行革兰氏染色鉴定和16S rDNA鉴定,研究了不同pH、温度、盐度等因素对A2菌降解1,2,4-TCB效果以及对邻苯二酚1,2-双加氧酶基因表达的影响,并进行了正交实验。结果表明,A2菌为革兰氏阴性短杆细菌,初步鉴定为假单胞菌;在pH值为7、培养温度30℃、盐度0.8%、培养时间6 d时,A2菌对1,2,4-TCB降解效果最好,降解率达到88.14%,同时该条件下邻苯二酚1,2-双加氧酶基因相对表达水平最高;培养温度为10℃时,A2菌对1,2,4-TCB降解率可达到85.3%,同时邻苯二酚1,2-双加氧酶基因也有较高的相对表达水平。以上结果说明,将A2菌应用于低温寡营养地下水的生物修复是可能的。