有机磷农药废水碱性水解生物处理技术

本文报道了碱性水解和生物氧化两步法,处理有机磷农药-乐果、甲胺磷生产废水的研究结果.废水经碱性水解后,COD和有机磷浓度基本不变,但可生化性有明显改善.在遵循常规生物处理必须满足的条件下,碱性废水进一步用间歇或连续活性污泥法处理.COD去除率90%左右,有机磷去除率85%以上,有机磷含量以毒性磷计小于0.5mg/L.深入考察了碱解剂种类、水溶液的pH和温度等各种因素对碱性水解的影响,结果表明:NaOH作碱解剂时的碱解速率比Ca(OH),提高28%;碱解速率随pH和温度的升高而增大,pH每增加一个单位,碱解速率增加2～11倍;温度每升高10℃,碱解速率增加2～5倍.     

有机磷农药在土壤环境中的降解转化

有机磷农药是世界上应用最广泛的农药种类之一 ,它属于比较容易降解的、对环境污染较小的农药。从有机磷农药的性质出发 ,着重讨论了有机磷农药的水解、光解和微生物降解 ,这也是有机磷农药在土壤中的主要降解转化过程     

污水处理厂中有机磷阻燃剂的污染特征

为了研究污水处理厂中有机磷阻燃剂(organophosphorus flame retardants,OPFRs)的污染特征,于2017年采集苏州市8个污水处理厂(7个A2/O工艺与1个氧化沟工艺)的进水、二沉池出水、污水厂出水、生物池污泥以及脱水剩余污泥.采用加速溶剂萃取(ASE)-固相萃取方法测定了污水与污泥中10种OPFRs的浓度,并比较了两种不同工艺各个工艺段OPFRs的去除效果,估算了最终排入环境的日均排放量.结果表明:7种OPFRs在进水、出水、污泥中均有检出,进水和总出水中OPFRs总浓度范围分别为0.74~222.65μg·L~(-1)和0.46~175.41μg·L~(-1),均值分别为65.56μg·L~(-1)和22.99μg·L~(-1);二沉池出水中OPFRs总浓度为0.48~178.14μg·L~(-1),均值为43.14μg·L~(-1);估算污水厂出水中OPFRs日排放量为36.69~2 177.12 g·d~(-1).剩余污泥中OPFRs总含量(以干重计)范围为89.32~596.24μg·g~(-1),均值(以干重计)为249.35μg·g~(-1),剩余污泥中OPFRs的日排放量最小为3.57~7.15 kg·d~(-1),最大为47.70~95.40 kg·d~(-1).氧化沟工艺对OPFRs有较好去除,去除率达到92%;A_2/O工艺则为11%~99%,差异性较大.3种氯代类的OPFRs[分别为磷酸三(2-氯乙基)酯、磷酸三(1-氯-2-丙基)酯、磷酸三(1,3-二氯-2-丙基)酯]是进水与出水中主要成分,主要由于氯代OPFRs的使用量大和传统污水处理技术对其去除率低.     

应用植物酯酶固化酶检测有机磷和氨基甲酸酯农药

选用聚苯乙烯微孔反应板作为酶的载体,将自制的植物酯酶固定在载体上的微孔内壁表面,制成农药快速检测板.采用酶抑制显色方法,检测有机磷和氨基甲酸酯类农药,其检测灵敏度在0 01～0 1mg·kg-1范围.该农药快速检测板为现场检测这两类农药提供了简便而快捷的方法.     

通用浓度加和模型预测有机磷与三嗪农药对绿藻的联合毒性

基于微板藻毒性试验测定5个有机磷农药与4个三嗪类农药的单个及联合毒性.根据半数效应浓度(EC50),对斜生栅藻96h生长抑制的毒性大小顺序为:西草净>阿特拉津>扑灭通>苯嗪草酮>草甘膦>敌敌畏>磷胺>乙酰甲胺磷>甲胺磷.这表明直接干扰光合作用电子传输的三嗪除草剂的藻毒性明显大于有机磷农药.以通用浓度加和作为参考模型,三嗪类农药按EC50和EC10(10%效应浓度)浓度比的混合物对斜生栅藻呈现加和毒性.有机磷农药按EC50和EC10浓度比的混合物在低浓度呈现加和毒性,在高浓度呈现协同毒性.有机磷与三嗪类农药按EC50和EC10浓度比的混合物在低浓度为加和毒性,在高浓度为协同毒性.     

Photodegradation of the organophosphorus herbicide “anilophos”

Photodecomposition of the organophosphorus herbicide anilophos [S‐(N‐(4‐chlorophenyl) N‐isopropyl carbaniloyl methyl] 0,0‐dimethyl phosphorodithioate has been studied in methanol. It underwent oxidation, hydrolysis and dimerisation on irradiation with U.V. light and produced a number of photoproducts which were characterised by ¹H‐NMR and Mass spectroscopy.     

Sublethal concentrations of azinphos-methyl induce biochemical and morphological alterations in Rhinella arenarum embryos

Considering that amphibians are good sentinels of environmental conditions, Rhinella arenarum embryos were used to investigate the effects of sublethal concentrations of the organophosphorus insecticide azinphos-methyl, focusing on its anticholinesterasic or pro-oxidant actions and its possible connection with the appearance of morphological alterations. Early amphibian embryos exposed to azinphos-methyl displayed a protective response through glutathione S-transferase induction, along with superoxide dismutase inhibition. At intermediate embryonic stages, embryos exposed to azinphos-methyl displayed superoxide dismutase inhibition and morphological alterations, although cholinesterase activity was not altered, suggesting that molecular targets other than cholinesterase were involved in the development of morphological alterations. At the end of embryonic development, decreases in reduced glutathione and cholinesterase inhibition were observed, along with a significant increase in the number of malformed embryos. The connection between biochemical alterations and the appearance of malformations was not evident in R. arenarum embryos. However, increased glutathione S-transferase and decreased superoxide dismutase activities could be considered as early markers of exposure to azinphos-methyl. The results obtained demonstrate that sublethal concentrations of azinphos-methyl are a serious threat to toad embryos in their natural habitats because biochemical and morphological alterations could impair their ability to deal with environmental stresses.     

太湖水体中5种有机磷农药混合物生态风险评价

有机磷农药是一类广泛分布于我国水环境中的污染物,即使在水体中的污染水平处于规定“安全标准”之下,其联合暴露产生的风险仍有可能威胁水生生态安全。采用基于浓度加和模型与生物敏感度分布曲线的混合物风险商法,评价了太湖水体中敌敌畏、对硫磷、甲基对硫磷、马拉硫磷和乐果5种有机磷农药混合物产生的生态风险。结果表明：2003～2004年期间3个不同时期太湖水体中5种有机磷农药的混合物生态风险商(RQ_m )均大于1,有机磷农药混合物在2003～2004年期间对太湖水生生物构成了一定威胁。     

Properties of a Poly(3-hydroxybutyrate) Depolymerase from Penicillium funiculosum

A poly(3-hydroxybutyrate) (PHB) depolymerase was purified from a fungus, Penicillium funiculosum (IFO6345), with phenyl-Toyopearl and its properties were compared with those of other PHB depolymerases. The molecular mass of the purified enzyme was estimated at about 33 kDa by sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis. The pH optimum and pI were 6.5 and 6.5, respectively. The purified protein showed affinity to Con A-Sepharose, indicating that it is a glycoprotein. Diisopropylfluorophosphate and dithiothreitol inhibited the depolymerase activity completely. The N-terminal amino acid sequence of the purified enzyme was TALPAFNVNPNSVSVSGLSSGGYMAAQL, which contained a lipase box sequence. This purified enzyme is one of the extracellular PHB depolymerase which belong to serine esterase. The purified enzyme showed relatively strong hydrolytic activity against 3-hydroxybutyrate oligomers compared with its PHB-degrading activity. PHB-binding experiments showed that P. funiculosum depolymerase has the weakest affinity for PHB of all the depolymerases examined.     

有机磷阻燃剂生产废水预处理工艺研究

采用液膜萃取—酸析沉降—络合萃取组合工艺对有机磷阻燃剂生产废水进行预处理.最佳工艺条件为:液膜萃取时,液膜油相(表面活性剂与煤油的混合液)与内水相(H2SO4溶液)的体积比2∶1、乳化液膜与废水的体积比1∶8、废水pH 13.0,硫酸体积分数10％、煤油中表面活性剂质量浓度30 g/L、液膜萃取时间 15 min;酸析沉降时,废水pH l.0,酸析沉降时间30 min;络合萃取时,络合萃取剂(烷基叔胺N235与煤油的混合液)中烷基叔胺N235体积分数30％,络合萃取剂与废水的体积比1∶4,废水pH l.0,络合萃取时间30 min.在此最佳处理条件下,废水COD总去除率可达93％,吡啶去除率达99.9％以上,总磷去除率可达97％,BOD5/COD提高至0.32,有利于后续生化处理.