氟虫腈对斑马鱼和小菜蛾毒性的手性选择性研究

手性农药分子的不同对映体在环境中的降解速率和对于生物的毒性可能存在很大的差异,因此拆分并使用对靶标生物毒性较高或对非靶标生物毒性较低的单一或浓缩的对映体配方可以有效地降低杀虫剂的环境风险.本文用手性柱拆分了一种广泛使用的手性农药,氟虫腈的两种对映体,研究了这两种对映体和消旋体对靶标生物小菜蛾和非靶标生物斑马鱼的急性毒性.结果表明氟虫腈对受试靶标和非靶标生物的毒性均无手性选择性,说明无法通过对氟虫腈进行手性拆分并使用单一对映体配方来降低氟虫腈的环境风险.这一结论间接支持了农业部新近出台的禁止氟虫腈用于防治农田害虫的政策.     

Biodegradation of beta-cypermethrin by a novel Azoarcus indigens strain HZ5

A novel strain HZ5 was isolated from the activated sludge of a pesticide manufacturer in Hangzhou, which was capable of degrading beta-cypermethrin (beta-CP). Based on its physiological characteristics and analysis of 16S rDNA gene, strain HZ5 was identified as Azoarcus indigens, which was a new genus that can degrade beta-CP effectively. Strain HZ5 could degrade beta-CP over a wide range of temperature (20 to 40°C) and pH (5.5 to 9.0), and the optimal temperature and pH were 30°C and 7.0. The highest degradation rate was approximately 70% of 50 mg/L beta-CP within 144 h at pH 7.0 and 30°C in MSM. An additional carbon source could enhance the biodegradation of beta-CP. Studies on biodegradation of the beta-CP showed no significant enantioselectivity. During the process, two main intermediate metabolites were produced by strain HZ5 and determined as 3-phenoxybenzaldehyde and 3-phenoxybenzoic acid by gas chromatography-mass spectrometry (GC-MS) analysis. The results indicated that strain HZ5 may have potential application in bioremediation of beta-CP polluted environment.     

淤泥优势菌对手性农药2,4-滴丙酸甲酯的对映体选择性降解

考察了手性农药2,4-滴丙酸甲酯(DCPPM)生物降解过程中的对映体选择性,通过驯化、培养分离了1株对其具有降解能力的菌株DP,并且运用手性毛细管气相色谱测定了DCPPM在降解过程中的对映体分数(EF),评价了DCPPM在水相中的对映体选择性生物降解.研究表明在菌株DP接种过的介质中,2个对映异构体均被迅速降解,但是R型DCPPM的逸散速度明显快于相对应的S型;EF值发生了显著的偏离,从一开始的0.5变化到最后的1.证实了该菌种对DCPPM的降解存在着对映体选择性.     

土壤中两种手性有机氯农药的选择性降解研究

为了更深入的了解和阐释手性有机氯农药在土壤中的转化和环境归趋,采用实验室室内避光培养方法,研究了o,p＇-DDT及o,p＇-DDD 2种手性有机氯农药的外消旋体在水稻土厌氧培养体系和菜园土好氧培养体系中的选择性降解情况。为了更好的利用土壤中土著微生物的活性,我们选择了厌氧微生物比较丰富的水稻土和好氧微生物丰度比较高的菜园土来做培养实验。结果表明实验体系中o,p＇-DDT及o,p＇-DDD在水稻土和菜园土中的降解均没有明显的对映体选择性。这一结果与2种手性化合物不同对映体在自然环境中的含量普遍具有差异性有所不同,说明野外环境条件和室内模拟实验条件的差异会影响手性化合物的降解选择性。在2种体系中,o,p＇-DDT的降解速率均高于o,p＇-DDD的降解速率。这与以前的研究报道一致,DDD比DDT更难降解。通过2个体系的比较,发现DDT的降解速率在厌氧体系中高于好氧体系,而DDD的降解速率与之相反,好氧体系高于厌氧体系。这应该与DDT和DDD 2种化合物的化学结构及2种土壤中微生物群落的差异有关。对于厌氧体系中的2种水稻土,采自中山的水稻土中DDT的降解速率高于江门的水稻土,这应该与中山水稻土有机质含量高于江门的水稻土有关。有机质含量的高低直接反映了土壤中微生物的多少,进而会影响污染物的降解速率。研究发现本实验所用水稻土和菜园土总有机碳含量偏低可能是影响2种化合物的对映体无降解选择性的因素之一。此外,由于本研究采用缓冲溶液将pH 调控在中性,因此本文的土壤 pH 对降解选择性的影响仍有待进一步研究。本研究中好氧体系和厌氧体系对目标物的降解选择性无明显差异。     

手性氟虫腈对意大利蜜蜂和稻螟赤眼蜂的急性毒性及安全评价

手性农药多以外消旋体形式用于农业生产和卫生害虫防治中。但手性农药对映体通常具有不同的生物活性和毒性,这种现象在农药环境风险评价过程中往往被忽视。本研究以氟虫腈为例,首先用高效液相色谱-手性固定相(HPLC-CSP)技术拆分出氟虫腈的S型和R型2种对映体,分别采用点滴法和药膜法测定了氟虫腈对映体及外消旋体对意大利蜜蜂(Apis mellifera L.)和稻螟赤眼蜂(Trichogramma japonicum Ashmead)的急性毒性。结果显示,S(+)-氟虫腈、R(-)-氟虫腈和外消旋体对意大利蜜蜂的48h-LD50分别为0.00341、0.00396和0.00383μg·蜂-1,对稻螟赤眼蜂的24h-LR50分别为7.56×10-7、8.06×10-7和7.29×10-7mg·cm-2。研究表明,氟虫腈对意大利蜜蜂具有高毒性风险,对稻螟赤眼蜂有极高毒性风险,且氟虫腈对意大利蜜蜂和稻螟赤眼蜂的急性毒性无明显的对映体选择性。因此,使用氟虫腈单一对映体不会降低其对环境生物的毒害风险。     

新烟碱类农药呋虫胺对映体选择性研究进展

农业生产中,呋虫胺以外消旋体的形式销售和使用,在进入生态环境后出现对映体选择性降解、吸收、代谢、排泄等.不区分对映体间差异的传统风险评估给呋虫胺的合理使用与生态安全带来了诸多隐患.研究指出S-呋虫胺既是高毒体也是高活体,其生态毒性为R-呋虫胺的13.9~145.9倍,但R-呋虫胺也表现出较高的杀虫活性,且作物中优先降解,开发高比例的R体农药有利于维持杀虫活性的同时降低对非靶生物和生态环境的负效应.本文旨在综述呋虫胺对映体选择性生物活性、生态毒性及环境行为研究进展,为其科学难题的解决提供新思路,也为其科学有效管理提供理论依据.     

手性污染物环境行为的对映体差异性

环境中手性污染物对映体选择性行为的研究历史不长 ,但由于手性化合物对映体生物活性的差异性 ,手性污染物在环境中的对映体选择性行为已愈来愈引起人们的关注。本文对近 10多年来手性污染物的环境行为研究进行全面评述     

Rac-及S-异丙甲草胺对2种微藻毒性特征影响研究

应用急性毒性试验方法,在对映体水平上研究了除草剂Rac-及S-异丙甲草胺对斜生栅藻(Scenedesmus obliquus)和普通核小球藻(Chlorella vulgaris)的急性毒性特征及腐殖酸对除草剂毒性的影响.结果表明,Rac-及S-异丙甲草胺的急性毒性与浓度及暴露时间呈正相关,Rac-及S-异丙甲草胺对微藻细胞的急性毒性存在立体选择性差异.Rac-异丙甲草胺对普通核小球藻和斜生栅藻的EC50,96 h分别是S-异丙甲草胺的2.25和1.81倍,S-异丙甲草胺对微藻细胞的生态毒性较大,而斜生栅藻对Rac-及S-异丙甲草胺的敏感性更强,且Rac-及S-异丙甲草胺对斜生栅藻和普通核小球藻的急性毒性存在一定的线性相关性.腐殖酸的加入能够改变Rac-及S-异丙甲草胺对微藻细胞生态毒性,对S-异丙甲草胺的生态毒性的影响更为明显(P<0.05).     

Isolation,identification, and acetochlor-degrading potential of a novel Rhodococcus sp. MZ-3

A new species of Rhodococcus, designated strain MZ-3, which could degrade acetochlor efficiently were isolated and identified. The isolate could degrade and utilize acetochlor as the sole source of carbon, nitrogen, and energy for growth. The optimal conditions for the degradation and growth of MZ-3 were pH 7.0 and 30°C. Under these conditions, this strain could completely degrade 200 mg/L of acetochlor within 12 h of incubation. During the biodegradation process, the enantioselectivity of the strain was investigated using a chiral high-performance liquid chromatography (HPLC) system. However, no obvious enantioselectivities were found. 2-chloro-N-(2-methyl-6-ethylphenyl) acetamide (CMEPA) was detected as the intermediate using liquid chromatography-mass spectrometry (LC-MS) analyses. Our results suggest that strain MZ-3 might be a promising microorganism for the bioremediation of acetochlor-contaminated environments because of its acetochlor-degrading performance.     

Enantioselective effects of herbicide imazapyr on Arabidopsis thaliana

The enantioselective toxicity of chiral herbicides in the environment is of increasing concern. To investigate the enantioselective effects of the chiral herbicide imazapyr on target organisms, we exposed Arabidopsis thaliana to imazapyr enantiomers and racemate. The results show that imazapyr was enantioselectively toxic to A. thaliana. The total chlorophyll content in A. thaliana was affected more by (+)-imazapyr than (±)-imazapyr and (?)-imazapyr. Concentrations of proline and malondialdehyde reflected a toxic effect in the order of (+)-imazapyr > (±)-imazapyr > (?)-imazapyr at every concentration. Acetolactate synthase (ALS) activity was inhibited more by (+)-imazapyr than (±)-imazapyr or (?)-imazapyr. At 100 mg L^?1 of imazapyr, ALS activity was 78%, 43%, and 19% with (?)-, (±)-, and (+)-imazapyr, respectively. The results suggest the significant enantioselective toxicity of imazapyr in A. thaliana for greater toxicity with (+)-imazapyr than (±)-imazapyr and (?)-imazapyr, which suggests that (+)-imazapyr has more herbicidal effect.