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).     

异丙甲草胺与锌共存对斜生栅藻毒性手性差异影响

为评价重金属与手性农药共存的生物选择性毒性,采用毒性试验标准方法研究了Rac-、S-异丙甲草胺单独及与锌共存对斜生栅藻的手性毒性差异.结果表明,Zn2+存在条件下Rac-、S-异丙甲草胺对斜生栅藻的生长趋势影响与除草剂单独作用时的趋势基本相同,Zn2+的存在降低了高浓度除草剂对斜生栅藻的生长抑制作用,处理初期(24 h)0.30 mg·L-1Rac-和S-异丙甲草胺单独对斜生栅藻生长的抑制率分别为49.61%和59.73%,与Zn2+联合作用其抑制率分别为38.41%和42.52%.Zn2+的存在增加了Rac-和S-异丙甲草胺对斜生栅藻的立体选择性毒性差异,使S-异丙甲草胺急性毒性增大的程度大于Rac-异丙甲草胺毒性的增加;与Zn2+的联合毒性作用类型表现为除草剂在低浓度下为部分相加作用,高浓度下为拮抗作用;除草剂单独及与Zn2+联合作用处理96 h后的斜生栅藻叶绿素含量变化与其生长趋势基本一致.     

铜、毒死蜱单一与复合暴露对蚯蚓的毒性作用

土壤环境中重金属-农药复合污染已经对土壤生态和人类生存环境构成严重威胁.其中重金属铜和有机磷农药毒死蜱作为土壤环境中两类常见的污染物,其复合污染的环境效应值得关注.本文采用OECD标准滤纸接触法、人工土壤法研究了铜-毒死蜱单一及复合暴露对蚯蚓急性致死作用及回避行为的影响.结果表明,滤纸法和人工土壤法Cu对蚯蚓急性毒性的48h-LC50和14 d-LC50分别为2.23μg·cm-2和496.05 mg·kg-1;而毒死蜱对蚯蚓急性毒性的48 h-LC50和14 d-LC50分别为5.94μg·cm-2和186.07 mg·kg-1.滤纸法和人工土壤法铜、毒死蜱浓度单位配比1∶1时,铜、毒死蜱对蚯蚓急性毒性联合作用类型均近似表现为相加作用,而毒性单位配比1∶1的滤纸法和人工土壤法试验结果分别为协同作用和拮抗作用.回避行为试验结果表明,铜、毒死蜱对蚯蚓回避行为的联合作用类型为拮抗作用.     

异丙甲草胺对蚯蚓体重及酶活性的影响

采用自然土壤法,研究了异丙甲草胺对蚯蚓体重及体内纤维素酶、超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和过氧化物酶(POD)活性的影响.结果表明,蚯蚓体重及纤维素酶活性在异丙甲草胺作用下均受到抑制;蚯蚓体内SOD、CAT、POD活性对异丙甲草胺响应不同,CAT活性受影响最大,POD次之,SOD最小.异丙甲草胺浓度对蚯蚓体重及体内纤维素酶和CAT活性影响显著,对SOD和POD则无显著性影响;处理时间对蚯蚓体重及体内纤维素酶、SOD、CAT和POD活性均有极显著影响;而异丙甲草胺浓度和处理时间二者交互作用对蚯蚓体内CAT和POD活性有极显著影响,对蚯蚓体重及体内纤维素酶和SOD活性则影响不大.     

镉与S-异丙甲草胺对斜生栅藻的联合毒性作用

采用毒性标准实验方法研究了Cd2+与S-异丙甲草胺单独及联合作用对斜生栅藻急性毒性、总可溶性蛋白含量、超氧化物歧化酶(SOD)活性和细胞膜通透性的影响.结果表明Cd2+与S-异丙甲草胺单独作用时EC50均随时间的延长而减小,且S-异丙甲草胺的急性毒性大于Cd2+;Cd2+、S-异丙甲草胺的EC50-24h分别为0.27 mg·L-1、0.24 mg·L-1,EC50-96h分别为0.16mg·L-1、0.13 mg·L-1.Cd2+与S-异丙甲草胺联合作用时低浓度表现为协同作用,高浓度表现为拮抗作用.暴露96 h后,Cd2+与S-异丙甲草胺单独及联合作用下,随有毒物质浓度升高,斜生栅藻总可溶性蛋白含量降低,SOD酶活性先激活后抑制,细胞膜通透性逐渐增大.     

稀土钇对蚯蚓的急性毒性及蚓体内蓄积研究

文章以蚯蚓为指示生物,分别采用滤纸接触法和自然土壤法研究了稀土元素钇对蚯蚓的急性毒性效应。结果表明,滤纸接触法测得钇对蚯蚓的半数致死浓度LC50为0.18 g/L;土壤法所测LC50值为1.08 g/kg。可见,稀土钇对蚯蚓具有毒性作用,但属低毒级,并且自然土壤法中蚯蚓的半数致死浓度要低于滤纸接触法中的结果。应用ICP-AES分别研究了2种实验方法中钇在蚯蚓体内的富集情况,发现硝酸钇浓度及染毒时间、蚯蚓的死亡率及速度和钇在蚯蚓体内的富集三者存在显著的相关性。     

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.     

应用标准方法测定农药对蚯蚓的毒性

本文论述使用标准化的人工土壤测定农药对蚯蚓的急性毒性的方法.实验结果证明,适用于测定农药对蚯蚓毒性的人工土壤组成为:石英砂830g/kg(干重,下同)、草炭100g/kg、膨润土50g/kg、碳酸钙10g/kg、马粪10g/kg.利用人工土壤测定久效磷、多菌灵、呋喃丹、林丹及甲基对硫磷对蚯蚓(Eiseniafoetida)的毒性.其半数致死浓度(LC_(50))分别是:0.18、4.27、12.9、70.85、74.52ppm.经用三种不同类型的自然土壤(东北黑土、华北褐土、江西红壤)及人工土壤测定呋喃丹对蚯蚓的毒性后,证实呋喃丹在人工土壤中对蚯蚓的半数致死浓度(12.9ppm)处于三种自然土壤的LC_(50)值(褐土6.9ppm、红壤12.7ppm、黑土19.2ppm)之间,表明人工土壤具有一定的代表性,用人工土壤进行农药对蚯蚓的毒性研究是可行的.     

典型手性农药的光解研究

文章以汞灯为光源,在对映体水平上考察了六种典型手性农药的光化学降解。丙溴磷、马拉硫磷、稻丰散、三唑酮和甲氰菊酯等五种农药含有1个手性中心,存在两个对映体,对各对映体分别进行光解,结果表明光解速率基本一致,且几种手性农药是手性稳定的,未发现对映体转化现象,几种农药中有机磷农药降解较快,而甲氰菊酯降解最慢,半衰期长达280h。氯氰菊酯含有3个手性中心,存在4个可在非手性硅胶柱上得到拆分的异构体,每个异构体又存在两个对映体,因此共8个对映体。进一步对氯氰菊酯的一个反式异构体所含的一个单一对映体进行光解,结果发现存在一定的异构体转化,氯氰菊酯的另外3个异构体均有生成,按氯氰菊酯各异构体总量计算的光解半衰期为66.7h。     

水华微囊藻对除草剂S-异丙甲草胺胁迫的光合活性响应

随着农业生产的发展,酰胺类除草剂的大量使用造成了一系列环境污染问题.为探究酰胺类除草剂——S-异丙甲草胺对水生生态系统造成的影响,运用浮游植物分类荧光仪(Phyto-PAM),以蓝藻中的水华微囊藻(Microcystis flos-aquae)为受试生物,测定了水华微囊藻在不同ρ(S-异丙甲草胺)胁迫下7 d内光合色素含量及相关叶绿素荧光参数的变化.结果表明:①培养周期内,随ρ(S-异丙甲草胺)的增加水华微囊藻叶绿素a与类胡萝卜素的含量均受到不同程度的抑制.②各S-异丙甲草胺处理组的实际光能转化效率〔Y(Ⅱ)〕在培养后1~5 d均低于对照组,到第7天时均恢复正常水平.③从第3天起,各S-异丙甲草胺处理组最大光能转化效率(F_v/F_m)、半饱和光照强度点(I_k)均高于对照组,并且10、25和50 mg/L S-异丙甲草胺处理组的最大电子传递速率(P_nmax)也高于对照组.④从第5天起,10、25和50 mg/L S-异丙甲草胺处理组的快速光响应曲线均高于对照组.⑤除50 mg/L S-异丙甲草胺处理组的α(光能利用率)显著低于对照组外,其余各S-异丙甲草胺处理组的α值随培养时间的增加出现波动,到第5天又恢复正常水平.研究显示:当ρ(S-异丙甲草胺)范围为0.1~50 mg/L时,水华微囊藻中光合色素含量降低,而水华微囊藻能通过稳定实际光能转化效率及光能利用率来提高最大光能转化效率、电子传递速率及耐强光能力,从而增强光合活性耐受外来胁迫;当ρ(S-异丙甲草胺)为50 mg/L时,水华微囊藻抗胁迫能力有所降低.      

Assessing cypermethrin-contaminated soil with three different earthworm test methods

A series of tests (lethal,sublethal,and behavioral) on earthworms were conducted as an eco-assessment of pesticides.In this study,the toxicity of cypermethrin-contaminating soil on adult and juvenile earthworms was assessed.Beside the acute and chronic tests,an avoidance response test was carried out.It was shown that the all-round toxicity from cypermethrin was weak on adult earthworms.Compared with adult earthworms,the toxicity of juvenile earthworms from cypermethrin especially chronic toxicity increased...     

Assessing cypermethrin-contaminated soil with three di erent earthworm test methods

A series of tests (lethal, sublethal, and behavioral) on earthworms were conducted as an eco-assessment of pesticides. In this study, the toxicity of cypermethrin-contaminating soil on adult and juvenile earthworms was assessed. Beside the acute and chronic tests, an avoidance response test was carried out. It was shown that the all-round toxicity from cypermethrin was weak on adult earthworms. Compared with adult earthworms, the toxicity of juvenile earthworms from cypermethrin especially chronic toxicity increased significantly. Growth and reproduction of earthworms appeared to be more severely a ected by cypermethrin at juvenile stage than at adult stage. Applied at 10 mg/kg, cypermethrin had obvious adverse impact on the growth of juvenile earthworms, while 20 mg/kg, cypermethrin caused significant toxic e ects in reproduction. The results also indicated that ecotoxicological risk assessment using only adult specimens may underestimate the e ects of cypermethrin on soil invertebrate populations.     

DDT和三氯杀螨醇对蚯蚓的急性和亚急性毒性影响

采用人工土培养法,通过急性和亚急性暴露实验,研究了DDT和三氯杀螨醇对蚯蚓(赤子爱胜蚓)的存活、生长和繁殖能力的影响.结果表明,DDT在急性暴露期对蚯蚓存活具有一定的毒性,其14 d的LC50为484.76 mg·kg-1;三氯杀螨醇对蚯蚓的存活基本没有影响(LC50＞4000 mg·kg-1).DDT在急性和亚急性暴露期(10～28 d)对蚯蚓的生长都具有显著的抑制作用(p＜0.05),三氯杀螨醇在急性期对蚯蚓的生长没有抑制作用(p＞0.05),在亚急性期对蚯蚓生长的影响尚不确定.DDT和三氯杀螨醇都显著抑制蚯蚓的繁殖能力(p＜0.05).     

Toxicity assessing for chlorpyrifos-contaminated soil with three different earthworm test methods

Earthworm toxicity tests are useful tools for terrestrial risk assessment but require a hierarchy of test designs that differ in effect levels (behavior, sublethal, lethal). In this study, the toxicity of chlorpyrifos contaminated soil on earthworms was assessed. In addition to the acute and chronic tests, an avoidance response test was applied. Earthworms were exposed to sublethal and lethal concentration of chlorpyrifos, and evaluated for acute toxicity, growth, fecundity and avoidance response after a certain exposure period. The test methods covered all important ecological relevant endpoints (acute, chronic, behavioral). Concentration of 78.91 mg/kg, chlorpyrifos caused significant toxic effects in all test methods, but at lower test concentrations, only significant chronic toxic effects could be observed. In the present study, chlorpyrifos had adverse effect on growth and fecundity in earthworm exposed to 5 mg/kg chlorpyrifos after eight weeks. The avoidance response test, however, showed significant repellent effects concentration of 40 mg/kg chlorpyrifos. For chlorpyrifos, concentration affecting avoidance response was far greater than growth and fecundity, it seemed likely that earthworms were not able to escape from pesticide-contaminated soil into the clean soil in field and hence were exposed continuously to elevated concentrations of pesticides.     

Toxicity assessment for chlorpyrifos-contaminated soil with three di erent earthworm test methods

Earthworm toxicity tests are useful tools for terrestrial risk assessment but require a hierarchy of test designs that differ in effect levels （behavior, sublethal, lethal）. In this study, the toxicity of chlorpyrifos contaminated soil on earthworms was assessed. In addition to the acute and chronic tests, an avoidance response test was applied. Earthworms were exposed to sublethal and lethal concentration of chlorpyrifos, and evaluated for acute toxicity, growth, fecundity and avoidance response after a certain exposure period. The test methods covered all important ecological relevant endpoints （acute, chronic, behavioral）. Concentration of 78.91 mg/kg, chlorpyrifos caused significant toxic effects in all test methods, but at lower test concentrations, only significant chronic toxic effects could be observed. In present study, chlorpyrifos had adverse effect on growth and fecundity in earthworm exposed to 5 mg/kg chlorpyrifos after eight weeks. The avoidance response test, however, showed significant repellent effects at concentration of 40 mg/kg chlorpyrifos. For chlorpyrifos, concentration affecting avoidance response was far greater than growth and fecundity, it seemed likely that earthworms were not able to escape from pesticide-contaminated soil into the clean soil in field and hence were exposed continuously to elevated concentrations of pesticides.     

氯苯和邻二氯苯的蚯蚓急性毒性研究

文章以赤子爱胜蚓(Eisenia foetida)滤纸急性毒性实验研究氯苯和邻二氯苯对蚯蚓的单一和联合毒性效应。单一毒性实验发现,蚯蚓死亡率和氯苯与邻二氯苯的曝露浓度显著正相关(P<0.05),其48 h LC50分别为5.680 mL/L和2.750 mL/L,表明氯苯的毒性小于邻二氯苯;同时通过观察可知,氯苯以皮肤渗入赤子爱胜蚓体内的毒性效应高于邻二氯苯;另外,实验期间,蚯蚓的体重明显下降,且与污染物浓度呈一定的线性关系(氯苯R2=0.780和P<0.05)。联合毒性实验发现,氯苯和邻二氯苯共存时蚯蚓的死亡率增加,表明氯苯和邻二氯苯复合污染时两者的毒性呈协同作用。可见,氯苯和邻二氯苯污染对土壤生态系统安全和土壤健康质量存在较大的威胁,同时这两种污染物的共存进一步加大了潜在危害性,且复合毒性效应与各组浓度组合密切相关。     

Individual and combined toxic effects of cypermethrin and chlorpyrifos on earthworm

Toxicities were assessed for a pyrethroid (cypermethrin) and an organophosphate insecticide (chlorpyrifos) individually and in combination. A series of tests were conducted on di erent responses (acute, chronic, behavioral) of earthworms of species Eisenia fetida andrei in the ecological risk assessment of these pesticides. The results showed that the toxicity of the mixture of cypermethrin and chlorpyrifos was significantly higher than either of these pesticides individually, especially on the earthworm’s chronic responses. At a concentration of 5 mg/kg, the mixture caused significant reductions on the growth and reproduction rates of earthworms, but did not cause any significant e ect when the individual was tested. The increase in toxicity of the pesticide mixture means that the use of toxicity data obtained exclusively from single-pesticide experiments may underestimate the ecological risk of pesticides that actually present in the field.