固定化假单胞菌降解甲胺磷的研究

采用聚乙烯醇（ＰＶＡ）加少量海藻酸钠及活性碳的方法对一株能高效降解甲胺磷的细菌假单胞菌Ｂ８２菌株进行固定化．正交试验结果表明,三者合适配比为聚乙烯醇１００（ρ／ｇＬ－１）,海藻酸钠５（ρ／ｇＬ－１）,活性碳５０（ρ／ｇＬ－１）．此方法制得的凝胶颗粒机械强度好、经久耐用．固定化Ｂ８２凝胶小球能在ｐＨ６～１１的范围内发挥其降解甲胺磷的作用,其最适作用温度为３５℃．Ｂ８２菌经固定化后,降解甲胺磷的速度明显加快．     

原生质体转化构建有机磷农药降解工程菌

降解有机磷农药甲胺磷、敌敌畏和对硫磷的菌株地衣芽孢杆菌 Ｐ１２（ Ｂａｃｉｌｌｕｓｌｉｃｈｅｎｉｆｏｒｍｉｓ） 经溶菌酶处理获得原生质体,加入降解乐果的供体菌 Ｇ１ Ｄ Ｎ Ａ,经ρ（ Ｐ Ｅ Ｇ６ ０００） ＝ ３００ ｇ Ｌ－ １ 诱导,在液体再生培养基中振荡培养ｔ＝ ２０ ｈ ,使其恢复细胞壁后,离心收集菌体,涂布于含乐果的基础培养基上,经筛选得一转化子 Ｊ Ｐ Ｚ．其菌落形态明显不同于出发菌株,乐果平板连续传代１０ 次,性状保持稳定．在θ＝ ３０ ℃,１００ ｒ／ｍｉｎ 的培养条件下,３ ｄ 内对ρ（ 甲胺磷） ＝ ０ ．５ ｇ Ｌ－ １ ,ρ（ 敌敌畏） ＝ ０ ．２ ｇ Ｌ－ １ ,ρ（ 对硫磷） ＝ ０ ．１ ｇ Ｌ－ １ ,ρ（ 乐果） ＝ ０ ．３ ｇ Ｌ－ １ 的降解率分别为 Ｒｄ ＝ ７９ ．１ ％ ,４６ ．７ ％ ,２９ ．４ ％ 和４６ ．４ ％ ．     

食酸丛毛单胞菌AN3菌株降解苯胺的研究

报道了各种环境因子对食酸丛毛单胞菌ＡＮ３菌株完整细胞降解苯胺的影响．在良好的通气条件下,该菌株完整细胞降解苯胺,最适湿细胞质量浓度ρＦＷ（ｃｅｌ）＝２０ｇ／Ｌ、最适ｐＨ和温度θ分别为７．０和３０℃,苯胺ρ＝１３００ｍｇ／Ｌ左右,经过６ｈ的作用即可被完全降解;各种有机物如葡萄糖和蛋白胨对苯胺的降解均有延缓的作用：除Ｈｇ２＋和Ａｇ＋外,其他重金属离子对苯胺降解抑制作用较小     

有机磷农药降解菌的紫外诱变育种

有机磷农药降解菌地衣芽孢杆菌（ Ｂａｃｉｌｌｕｓｌｉｃｈｅｎｉｆｏｒｍｉｓ） 经紫外线诱变后,筛选出突变菌株Ｐ１２ ．在θ＝３０℃,溶解氧ρ（Ｏ２） ＝２ ．５ ｍｇ Ｌ－１ 的培养条件下,３ ｄ 内对甲胺磷的降解率为８０ ．１％ ,比出发菌株提高了将近１０％的降解率．农药斜面连续传代１０ 次,降解活力保持稳定．     

一株甲醛转化霉菌Paecilomyces sp.H6的分离鉴定

甲醛广泛应用于室内装修材料中,造成室内空气污染,危害人的身心健康。本研究用含甲醛的培养基从驯化的菜园土中分离出一株霉菌,并观察平板培养特征、孢子形态,提取DNA,PCR扩增,产物测序,序列比对,查找同源率,构建系统发育树等,研究了其在一定浓度下的甲醛转化能力,结果表明：该菌株的培养特征、孢子形态和宛氏拟青霉（Paecilomycesvariotii）最相似,18S rDNA序列与宛氏拟青霉（Paecilomyces variotii）的同源率为100%,160 r.min-130℃摇床培养144 h,能将ρ（甲醛）=1 235、ρ（甲醛）=1 682 mg·L-1转化为ρ（甲醛）=0和ρ（甲醛）=65 mg·L-1,其转化能力分别为100%、96.1%,菌丝干质量分别从0.468 9、0.475 9 g增长到0.529 8、0.523 6 g,还能将ρ（甲醛）=2 377、ρ（甲醛）=2 849 mg·L-1转化为ρ（甲醛）=854、ρ（甲醛）=1 507 mg.L-1,其转化能力也能达到64.1%、47.1%,但菌丝增长缓慢,结果显示该菌株是高浓度的甲醛转化霉菌,具有重要的研究意义。     

石漠化地区豆科植物根瘤菌降解碳酸钙、镁能力研究

微生物对岩溶地区岩石风化、成土具有明显的促进作用,为了筛选出能够促进碳酸盐岩风化、加快成土速率的优势根瘤菌菌株,将其与豆科植物建立共生体系,进行石漠化地区修复与治理,实验以分离自云南石漠化地区的9株豆科植物根瘤菌为研究对象,将9株根瘤菌接种于加有难溶性碳酸钙或碳酸镁的液体培养液中,28.5℃、160 r·min-1摇床培养15 d,于0、1、3、6、10、15 d取样2 mL,每个样3个平行;将样品加入到10 mL体积比5∶1的硝酸高氯酸消化液中浸泡过夜,放在电热板上缓慢加热至溶液澄清透明,分别用含La3＋2%的盐酸溶液定容至10 mL,空白用同样方法处理;最后采用原子火焰吸收方法测定样品中Ca2＋和Mg2＋含量,筛选出对碳酸盐岩主要成分碳酸钙和碳酸镁具有强降解作用的根瘤菌菌株。结果表明：热带根瘤菌Rhizobium tropici （SWFU09）和根瘤菌Rhizobium sp.（SWFU02）对碳酸钙降解作用最强;对碳酸镁降解作用最好的菌株为根瘤菌Rhizobiumsp.（SWFU03）、热带根瘤菌Rhizobium tropici（SWFU05）和慢生根瘤菌Bradyrhizobium sp.（SWFU01）。溶液pH值对碳酸镁降解作用具重要的影响,对碳酸钙降解作用影响不大,说明根瘤菌代谢产生的酸性物质（有机酸、氨基酸）对碳酸钙和碳酸镁降解作用有一定影响,但不是唯一影响因素;也可能是微生物代谢产生的有机配体（基）吸附碳酸钙和碳酸镁表面,与水体中的成分形成复合物,改变溶解的平衡,置换出Ca2＋和Mg2＋。     

微生物降解蔬菜残留农药研究

从富集培养物中筛选到以甲胺磷为唯一碳源生长的菌株ＮＭＪ５和以乐果为唯一碳源生长的菌株ＮＭＬ３,经鉴定分别为芽孢杆菌属（Ｂａｃｉｌｕｓｓｐ．）和假单胞菌属（Ｐｓｅｕｄｏｍｏｎａｓｓｐ．）．它们利用甲胺磷、乐果生长的最适条件及在无机盐培养基中农药最大耐受浓度分别为ｐＨ７．５,ｔ＝３５℃,ρ＝１０００ｍｇ／Ｌ和ｐＨ７．５,ｔ＝３０℃,ρ＝２０００ｍｇ／Ｌ．在无碳基础培养基内单菌株培养８ｄ,５２４ｍｇ／Ｌ的甲胺磷好气降解４２．５％,厌气降解３５．９％,２５０ｍｇ／Ｌ的乐果好气降解５０．２％,厌气降解１６．４％．小区试验表明,ＮＭＪ５、ＮＭＬ３的菌液制剂对普通白菜的变种南农矮脚黄（Ｂｒａｓｉｃａｃａｍｐｅｓｔｒｉｓｓｐ．ｃｈｉｎｅｎｓｉｓＬ．ｖａｒ．ｃｏｍｍｕｎｉｓＴｓｅｎｅｔＬｅｅ）中残留的甲胺磷、乐果有明显的去除作用．     

混合菌株对三溴苯酚的降解特性

为提高有害物质2,4,6-三溴苯酚（TBP）的有效生物降解效果,在比较了不同菌株对TBP的降解状况的基础上,着重考察了诱变菌株TBPY UMP-f与粘质沙雷氏菌株SMA混合降解TBP的效果.结果表明,混合菌株比单一菌株降解效果好.考察影响混合降解相关因素的结果表明,适宜条件为两菌接种比例1∶1,SMA适于在TBPY U...     

LHG1菌株的分离和降解环己烷的研究

通过选择性培养从石油废水污染的土壤中分离出一株以环己烷为唯一碳源和能源的降解菌株 Ｌ Ｈ Ｇ１ ,对 Ｌ Ｈ Ｇ１ 菌株的降解特性进行了研究．确定 Ｌ Ｈ Ｇ１ 菌株最适培养条件为：培养时间６０ ～１００ ｈ 、环己烷浓度４６０ ～７７０ ｍｇ／ Ｌ、ｐ Ｈ６ ～８ 、ρ（ Ｎａ Ｃｌ） ＝ １０ ｇ Ｌ－ １ 、θ＝ ２５ ～４０ ℃． Ｌ Ｈ Ｇ１ 菌株能够利用环烷烃代谢的中间产物环己酮和环戊酮．此外, Ｌ Ｈ Ｇ１ 菌株还能降解液体石蜡、固体石蜡、萘和苯酚等链烃、芳香烃和酚类     

基于均匀设计优化新鞘氨醇菌US6-1对高分子量多环芳烃的降解条件

运用均匀设计优化一株新鞘氨醇菌Novosphingobium pentaromativorans stain US6-1对芘、荧蒽、苯并[a]芘等高分子量多环芳烃(High molecular weigh polycyclic aromatic hydrocarbons,HMW-PAHs)的降解条件.结果表明,在最适生长条件(30℃、pH 6.5及NaCl浓度为2.5%)下,接种量与底物浓度是影响该菌降解能力的关键因素.在接种量D660 nm为0.6、芘初始浓度56 mg L-1、培养时间5 d的情况下,菌株US6-1对芘的降解达到32.5 mg L-1,预测平均准确率达99.38%;在接种量D660 nm为0.6、荧蒽初始浓度48 mg L-1、培养时间5 d的情况下,对荧蒽的降解达到34.3 mg L-1,预测平均准确率达99.61%;在接种量D660 nm为0.1、苯并[a]芘初始浓度60 mg L-1、培养时间为5 d时,对苯并[a]芘的降解达到24 mg L-1,预测平均准确率达98.75%.菌株US6-1对芘及苯并[a]芘的降解能力比未优化前分别提高了29.2%与58%.     

A comparative study of Cu (II) biosorption on Ca-alginate and immobilized live and inactivated Cladosporium sp

Spores of Cladosporium sp. were immobilized into Ca-alginate beads via entrapment. The alginate beads and both entrapped live and inactivated spores of Cladosporium sp. were used for comparison of biosorptive capacity from aqueous solutions. The factors affecting the adsorption ability on Cu (II), such as the contact time, initial pH, temperature were investigated. The results showed that the Ca-alginate beads containing live spores of Cladosporium sp. had the maximum biosorptive capacity. The biosorption equilibrium was established in about 3 h. The maximum biosorption of Cu (II) on Ca-alginate entrapping spores and no spores were obtained between pH 4.0 and 3.5. Temperature over the range of 15-45 degrees C had no significant effect on the biosorption capacity. The biosorptive capacity increased with initial concentrations in the concentration range of 30-800mg/l. The equilibrium was well described by Langmuir biosorption isotherms. The Ca-alginate beads could be regenerated using 0.1M HCl, The biosorbents were reused in three biosorption-desorption cycles with negligible decrease in biosorptive capacity.     

Impacts of sublethal lead exposure on the hemato-immunological parameters in tilapia (Oreochromis mossambicus)

The effects of exposure of tilapia (Oreochromis mossambicus) to sublethal concentrations of lead on hematological and immunological parameters were investigated. The fish were semistatically exposed to low (L) (0.5 mg L^?1), medium (M) (2.5 mg L^?1), and high (H) (5 mg L^?1) lead concentrations for 14 days. At the end of the trial, red blood cell (RBC) count, hematocrit (Hct) ratio and hemoglobin levels showed significant decreases in M and H groups, while RBC was significantly increased in L group compared to control group. Lysozyme activity showed a decrease in all groups on day 14 compared to control. A decrease in myeloperoxidase activity was seen in M and H groups on day 7, and in all treatment groups on day 14. In conclusion, it was found that exposure of O. mossambicus to lead concentrations affected hematological and immunogical parameters adversely.     

腐殖酸存在下镉和铅对土壤脱氢酶活性的影响

采用室内培养试验研究Cd和Pb污染红壤添加不同组分腐殖酸后,其脱氢酶活性的变化,结果表明,红壤遭受镉和铅污染后,脱氢酶活性显著降低,然而腐殖酸特别是胡敏酸的存在能够使脱氢酶活性得到显著回升,说明腐殖酸与重金属的相互作用对重金属污染土壤微生物活性的改善和修复功能,对土壤有一定的去污降毒作用.不同腐殖酸组分的效应大小为:灰色胡敏酸(GHA)>棕色胡敏酸(BHA)>富里酸(FA),表明分子量愈大、芳构化程度愈高的腐殖酸组分,其对重金属的钝化愈强,从而解除土壤重金属对生物毒害的能力愈强.     

Accumulation of lead and zinc and effects on activities of catalase and GPT in the clam Ruditapes philippinarum A

Acute toxicities of Pb and Zn to clam (if. philippinarum) were determined by a semistatic bioassay. The 96 h LC50 values were 14.28 mg/L for Pb, and 16.40 mg/L for Zn. Exposure of R. philippinarum to various concentration of lead and zinc for a period of 4 days showed that different organs have different capacities for accumulating metals, with high levels in the gill, followed by soft body, and lower amounts in the cavity fluid. Accumulation tests showed that R. philippinarum is a strong accumulator of Pb and weaker accumulator of Zn. The effect of lead on activities of Catalase and GPT were studied in soft body of R. philippinarum. The result showed that the activities of CAT in soft body decreased at all exposure groups, the activities of CAT were negatively correlated with exposure concentration of lead, the special inhibition effect was observed in exposure group of Zn, the CAT activities significantly decreased at lower Zn concentration, then increased slowly with the Zn concentration, finally, decreased to the lowest. The activities of GPT in soft body were significantly increased at high exposure concentrations.     

Influence of some abiotic environmental factors on acute toxicity of inorganic lead to Cyprinus carpio var communis (Linn.) and Catla catla (Ham.) in simulated toxic aquatic environment

With the increase of water hardness from 60 to 720?mg/L CaCO₃, total alkalinity from 32 to 376?mg/L CaCO_3, pH from 7.6 to 7.9 and chloride from 28 to 350?mg/L, 96?h LC₅₀ on the basis of total lead increased from 8.2 to 1291?mg/L for Cyprinus carpio and 5.3 to 865?mg/L for Catla catla, when soil sediments were included these values were further raised to 1356 and 874?mg/L, respectively. The dissolved lead LC₅₀ values in all the treatments of soil and water was consistent with fixed amount of dissolved lead (1.04–1.78?mg/L) being needed for median lethal toxicity. Total lead toxicity also decreased with increase in pH from 6.3 to 11.3. 96?h LC₅₀ values increased for common carp 15 to 631?mg/L and for catla, 8 to 355?mg/L. But dissolved lead toxicity was found to increase with the increase of pH from 6.3 to 11.3 for both common carp (LC₅₀, 3.53 to 0.24?mg/L) and catla (LC₅₀, 2.21 to 0.09?mg/L). Removal of dissolved Pb with increasing carbonate content, particulate matter and pH due to adsorption, precipitation or coprecipitation reaction, reduced the dissolved lead concentration and thus the total lead toxicity. Increase in toxicity of lead with increase of exposure time was the biological response of longer contact time and decrease in dissolved lead toxicity with decrease in pH was due to increase H⁺ ion competition.     

不同铅化合物对红壤中微生物生物量的毒性差异(英)

为了评估红壤中不同铅化合物对微生物生物量的毒性差异,进行了实验室培养试验铅化合物为氯化铅和醋酸铅,施加的6个不同浓度（w／10－6）为0（背景值）,100,200,300,450和600在铅水平相同时,醋酸铅比氯化铅对土壤中微生物生物量碳（Cmic）和微生物生物量氮（Nmic）的降低更为明显土壤中微生物量C／N比和有机碳／微生物量碳比［m（Corg）／m（Cmic）］随着醋酸铅水平的增加而显著提高,而氯化铅在相同水平下,提高的幅度大大减少,这些结果表明,不同铅化合物的溶解度和不同相伴阴离子是决定铅化合物毒性的重要因素.     

铅在植物-环境体系中的吸收、分布和迁移规律的稳定同位素示踪法研究

以低浓度的稳定铅同位素为示踪剂,采用电感耦合等离子质谱法,通过盆栽实验,考察了在不同的pH值环境和不同铅源引入方式下,茶树植株对铅的吸收情况以及铅在植株体内的分布及迁移规律.结果表明:茶树植株对大气铅源污染的反应比土壤铅源污染灵敏;大气铅源污染有往顶端(芽)迁移的趋势,而土壤铅源污染则主要聚集在根部;低pH条件增强植株对铅的吸收且能促使植株体内的铅的往高处迁移.本实验方法危害小,更接近植株承受低浓度污染的实际情况,能区分实验引入铅源和环境引入铅源.     

Current uses of the EPA lead model to assess health risk and action levels for soil

The EPA lead model predicts mean blood lead levels and risk of elevated blood lead levels in children based on lead uptake from multiple sources. In the latest model versions, environmental data from individual homes within a community can be used to predict the overall blood lead distribution and percent risk of exceeding a specific blood lead level (i.e. 10 g dl^–1). Recent criteria used by the EPA to evaluate this information include no more than 5% of houses with a greater than 5% lead risk, and a community weighted-average risk below 5%. Environmental (primarily soil) and blood lead data from a residential community near a smelter were used to illustrate recent uses of the model. Scheduled remediation in the community will remove soil for approximately 60% of the houses (i.e. those with lead levels > 1000 mg kg^–1). After remediation, the model results indicate a relatively low community risk (0.5–1.9%), although the percentage of houses with lead risks above 5% ranged from 3 to as high as 13%, depending on the variation in blood lead and assuming the model's 7 g dl^–1 increase in blood lead with each 1000 mg kg^–1 increase in soil lead level. A comparison of the limited blood lead data with soil lead levels below 1000 mg kg^–1, however, indicated no apparent relationship. Given these uncertainties, less invasive actions than additional soil removal (e.g. exposure intervention, monitoring conditions, and follow-up as necessary) may be appropriate under the new EPA guidance for lead in soil.     

高浓度洗毛废水生物降解的研究

根据高浓度洗毛废水的水质特性,选择、驯化出高效污泥和菌株,并对生物降解该废水时的工艺、污泥量、时间三要素进行了深入的研究．结果表明,对于物化处理彻底的废水, Ｈ／ Ｏ 工艺（ 水解／ 好氧工艺） 与好氧工艺处理差异不大;７０ ％ 左右物化效果时, Ｈ／ Ｏ 工艺处理时, Ｃ Ｏ Ｄｃｒ 去除率增加;废水在处理过程中成分变化大,后段水可用筛选优势菌的方法处理．实验室流动模型运行结果为：在原水ρ（ Ｃ Ｏ Ｄｃｒ） １８５４４ ｍｇ／ Ｌ 和设定ｔ Ｈ Ｒ（ 延滞期） 下,混凝后出水ρ（ Ｃ Ｏ Ｄｃｒ） ５３２２ ｍｇ／ Ｌ,水解池出水ρ（ Ｃ Ｏ Ｄｃｒ） ４７６３ ｍｇ／ Ｌ,好氧池出水 Ｃ Ｏ Ｄｃｒ１９９ ．９ ｍｇ／ Ｌ,总 Ｃ Ｏ Ｄｃｒ去除率为９８ ．９ ％     

Effects of paclobutrazol (PP333) on lead and zinc accumulations in Pseudostellaria maximowicziana

Paclobutrazol (PP333) can enhance the resistance capabilities of plants to stress conditions. In this study, PP333 were sprayed on the lead (Pb) and zinc (Zn) accumulator plant Pseudostellaria maximowicziana, which was planted in Pb–Zn contaminated soil, and the effects of PP333 on Pb and Zn accumulation levels in P. maximowicziana were studied. Spraying 10?mg/L PP333 increased, while 20, 30 and 50?mg/L PP333 decreased, the biomass of P. maximowicziana compared with the control. The 10?mg/L PP333 had no significant effects on the photosynthetic pigment contents of P. maximowicziana compared with the control, while the other doses increased the contents. The activities of antioxidant enzymes (superoxide dismutase, peroxidase and catalase) and the Pb and Zn concentrations in P. maximowicziana were increased by PP333 compared with the control. These items had the increase trend with the increase of PP333 concentrations. Only 10 and 20?mg/L PP333 increased the amount of Pb extracted by P. maximowicziana shoots, while all of the doses increased the amount of Zn extracted by P. maximowicziana shoots. Thus, low concentration of PP333 could promote the growth and heavy metal extraction ability of P. maximowicziana shoots, with the 10?mg/L being the best.