生物测试法应用于判别除草剂环境污染

在实验室条件下进行了阿特拉津、乙草胺、甲磺隆3种除草剂对玉米根长抑制试验.结果表明,受试玉米对3种除草剂的敏感顺序为甲磺隆＞乙草胺＞阿特拉津.将此结果应用于农药环境污染事故的调查与诊断工作中,对污染因子进行了初步的分析和判定.     

降解除草剂阿特拉津的藤黄微球菌AD3菌株的分离、鉴定和降解特性研究

用富集培养法从农药厂的工业废水和污泥的混合物中分离到能够降解除草剂阿特拉津的AD3菌株,通过16SrRNA基因序列分析和Biolog细菌自动鉴定仪微量平板测定,该菌株被鉴定为藤黄微球菌(Micrococcusluteus).在以阿特拉津为唯一氮源(500μg·mL-1)的基本培养基中,AD3菌株能在48h内使阿特拉津降解97%以上.对AD3菌株和Pseudomonassp.ADP菌株的阿特拉津氯水解酶基因中间区的核苷酸序列和对应氨基酸序列进行比对结果表明,它们的核苷酸序列和氨基酸序列分别有5个位点和4个位点不同,核苷酸序列和氨基酸序列的类似性分别为99.1%和97.7%.     

二种除草剂遗传毒性的研究

以黄鳝为试验材料,研究了艾割和使它隆二种除草剂对鱼类的致突变性。对经腹腔注射染毒上述二种除草剂的受试黄鳝,通过对其活体肾细胞染色体数目和形态的观察,分析其突变率。研究结果(经t检验)显示:艾割和使它隆二种除草剂分别在其试验最低受试剂量50mg/kg和8.0mg/kg即可引起黄鳝的染色体畸变。采用SOS/Umu显色试验研究,在SOS/Umu试验中,使它隆和艾割2个受试除草剂可以诱发SOS阳性反应,且呈明显的剂量-效应关系。试验表明这二种除草剂具有遗传毒性,应对这二种除草剂严加管控,避免其对环境的影响。     

Biodegradation of acetanilide herbicides acetochlor and butachlor in soil

The biodegradation of two acetanilide herbicides, acetochlor and butachlor in soil after other environmental organic matters addition were measured during 35 days lal)oratory incubations. The herbicides were applied to soil alone, soiI-SDBS (sodium dodecylbenzene sulfonate) mixtures and soil-HA (humic acid) mixtures. Herbicide biodegradation kinetics were compared in the different treatment. Biodegradation products of herbicides in soil alone samples were identified by GC/MS at the end of incubation. Addition of SDBS and HA to soil decreased acetochlor biodegradation, but increased butachlor biodegradation. The biodegradation half-life of acetochlor and butachlor in soil alone, soilSDBS mixtures and soil-HA mixtures were 4.6d, 6, ld and 5.4d and 5.3d, 4.9d and 5.3d respectively. The biodegradation products were hydroxyacetochlor and 2-melhvl-6-ethvlaniline for acetochlor, and hvdroxvbutachlor and 2,6-diethvlaniline for butachlor.     

Effects of combination of plant and microorganism on degradation of simazine in soil

The degradative characteristics of simazine （SIM）, microbial biomass carbon, plate counts of heterotrophic bacteria and most probably number （MPN） of SIM degraders in uninoculated non-rhizosphere soil, uninoculated rhizosphere soil, inoculated non- rhizosphere soil, and inoculated rhizosphere soil were measured. At the initial concentration of 20 mg SIM/kg soil, the half-lives of SIM in the four treated soils were measured to be 73.0, 52.9, 16.9, and 7.8 d, respectively, and corresponding kinetic data fitted first-order kinetics. The experimental results indicated that higher degradation rates of SIM were observed in rhizosphere soils, especially in inoculated rhizosphere soil. The degradative characteristics of SIM were closely related to microbial process. Vegetation could enhance the magnitude of rhizosphere microbial communities, microbial biomass content, and heterotrophic bacterial community, but did little to influence those community components responsible for SIM degradation. This suggested that rhizosphere soil inoculated with microorganisms-degrading target herbicides was a useful pathway to achieve rapid degradation of the herbicides in soil.     

次氯酸钠氧化预处理草甘膦生产废水

利用次氯酸钠对草甘膦生产废水进行预处理，废水ｐＨ对处理效果影响不大，可将次氯酸钠直接投入到原碱性废水中，在其用量相当理论量的４０％、氧化时间为４ｈ时，草甘膦的去除率为９８％。预处理后的废水对厌氧消化过程不再产生抑制作用。     

水中BPMC等残留农药的分析方法研究

BPMC、Propyzamide、TPN、Diazinon、IBP、MEP、Benthiocarb、Isoxathion、EPN等农药是目前广泛使用的除草剂和杀虫剂,其中部分农药如BPMC被列为毒害品,然而目前还没有可行有效的、针对以上物质的统一检测方法。选用了合适的有机溶剂对多种组分进行同时萃取,经过净化后采用气相色谱-质谱法测定,分析效果较好。     

甲醇衍生法测定环境水体中八种酸性除草剂

文章建立了一种测定环境水体中8种酸性除草剂残留量的分析方法。1 000 mL样品在pH<2的情况下由乙醚分三次萃取后,萃取液经脱水,K-D浓缩至约1 mL,转移到衍生瓶中。在衍生瓶中补加2 mL正己烷、1 mL甲醇、8滴浓硫酸,80℃水浴加热1 h,进行甲醇衍生化处理,衍生后的样品运用气相色谱-质谱联用-分段选择离子扫描技术测定,内标法定量。结果表明:8种除草剂在0.05～2.5μg/L范围内线性均良好;方法灵敏度高,检出限均低于或等于0.02μg/L;方法的准确度和精密度高,在0.10、0.50、1.00、1.50μg/L添加水平下所有除草剂的回收率均在82.07%～116.99%之间,相对标准偏差RSD≤7.68%;经实际样品检测,可用于测定环境水体中酸性类除草剂的残留量。     

水中氯代酸性除草剂衍生气相色谱法主要要素探讨

建立了衍生气相色谱-负化学源质谱检测水中氯代酸性除草剂的方法,从四个方面对氯代酸性除草剂衍生气相色谱法中主要要素分析:针对不同需求选择确定萃取模式、萃取溶剂、酸度、浓缩方式等;对不同衍生方式进行比较,分析了辅助条件的必要性;针对衍生产物的不同选择离子源;标准物质的合理使用。     

阿特拉津生产废水排放对水稻危害的风险分析

阿特拉津是目前世界上广泛使用的除草剂之一,在我国主要使用于东北和华北地区。近年来我国一些地区接连发现了灌溉含有阿特拉津河水的水稻疫苗受害事件。以河北省宣化农药厂的生产工艺为例,通过使用概率评价的方法,进行了阿特拉津对水稻危害的风险分析研究结果表明,这种风险不仅与工厂废水中阿特拉津的排放有关,而且还取决于河水的流量及其风险率所得结果与该厂历史上的实际情况相吻合。