几丁质合成抑制剂对小菜蛾的生物活性

几丁质合成抑制剂对小菜蛾户Plutella xylostella L.4龄幼虫毒力测定的结果显示, XRD-473 农梦特、卡死克、抑太保、灭幼脲1号、灭幼脲;号的毒力值(LC₅₀)分别为0.4768、0.8669、1.0754、1.2389、27.0680和36.8591ppm。 国外生产的几丁质合成抑制剂毒力显著高于国产的品种,这类药剂的毒力又明显高于常规药剂敌敌畏、氯氰菊酯、杀虫双等,它们的毒力值(LC₅₀)分别为818.0315、6419.9842、55,.4925ppm。抑太保对小菜蛾幼虫作用方式的研究结果表明,该药剂以胃毒为主,兼有触杀作用。以抑太保、卡死克50ppn的药液饲喂的小菜蛾雌、雄成蛾寿命比单用5%。蜜糖水饲喂的个体缩短1天和4天左右,产卵量减少2/3,卵孵化率显著降低。用抑太保、卡死克50ppm的药液浸渍的小菜蛾卵孵化串分别为5.35%和0。温度对抑太保的毒力有较大影响,在试验温度范围内(10-30℃),抑太保10ppm处理的小菜蛾种群50%或,75o、95%群体致死时间随着温度上升而缩短。     

阿维灭幼脲对马尾松毛虫幼虫的毒力测定

运用阿维灭幼脲生物复合剂对3-4龄的马尾松毛虫幼虫进行毒力测定,用机率分析法求得马尾松毛虫的死亡率与阿维灭幼脲剂量对数—机率直线,建立毒力回归线。研究表明,25%阿维灭幼脲悬浮剂对3-4龄幼虫的致死中稀释浓度为49.6倍液,即LC50=5.04 mg.L-1;阿维灭幼脲悬浮剂与尿素混合剂对3-4龄的致死中稀释浓度为52.5倍液,即LC50=4.76 mg.L-1;25%阿维灭幼脲悬浮剂10倍稀释液对3-4龄马尾松毛虫幼虫的LT50为0.57 d,到50倍稀释液时LT50为7.35 d;25%阿维灭幼脲悬浮剂与尿素混合剂10倍稀释液对3-4龄马尾松毛虫幼虫的LT50为0.71 d,到50倍稀释液时LT为6.13 d,随着浓度稀释倍数的增加,致死中时间延长。研究结果可为今后马尾松毛虫的林间防治提供科学依据。     

4种常用水产药物对青虾幼虾的毒性研究

采用静水法研究了4种常用水产药物对青虾幼虾的毒性。结果表明：水温29℃~30℃时,溴氯海因对青虾幼虾24 h、48 h和72 h的LC50分别为19.05 mg/L、11.75 mg/L、11.75 mg/L,安全浓度为1.24 mg/L;聚维酮碘对青虾幼虾的24 h、48 h和72 h的LC50分别为49.27 mg/L、44.61 mg/L、43.68 mg/L,安全浓度为10.52 mg/L;甲醛对青虾幼虾的24 h、48 h和72 h的LC50分别为72.47 mg/L、66.41 mg/L、53.71 mg/L,安全浓度为10.93 mg/L;高锰酸钾对青虾幼虾的24 h、48 h和72 h的半致死浓度（LC50）分别为6.06 mg/L、4.07 mg/L、3.79 mg/L,安全浓度为0.48 mg/L。4种药物对青虾幼虾的毒性依次为高锰酸钾〉溴氯海因〉聚维酮碘〉甲醛。     

昆虫生长调节剂——卡死克(cascade)对几种寄生天敌效应的研究

卡死克对菜粉蝶Pieris rapae(L.)幼虫、蝶蛹金小蜂Pteromalus puparium L.成虫的LD_(50)分别为0.03和10189.1μg/g。用5ppm、2ppm、0.5ppm的卡死克和清水处理菜叶喂饲菜粉蝶5龄幼虫,同时接入蝶蛹金小蜂,寄生率分别为29.4％、27.2％、32.7％和38.9％,天敌成活率分别为2.9％、6.8％、13.7％和35.2％。从施用13ppm卡死克后第三天的菜地采回残存的小菜蛾Plutella xylostella(L.)幼虫饲养观察,发现30％以上的菜蛾绒茧蜂Apanteles plutellae Kurdjumov不能完成其个体发育而死亡。第15天,田间小菜蛾幼虫下降90％以上,菜绒绒茧蜂和菜蛾啮小蜂Tetrastichus sokolovskii Kurdjumov寄生率明显上升。表明卡死克对寄生性天敌成虫安全,但对其个体发育有一定的影响。     

Bioactivity and sublethal effects of benzoylphenylurea insecticides on Apolygus lucorum

本文系统地比较了有代表性的4种苯甲酰基脲类杀虫剂对绿盲蝽Apolygus lucorum(Meyer-Dür)的生物活性和亚致死剂量对绿盲蝽生长发育及繁殖的影响.结果表明,苯甲酰基脲类杀虫剂对绿盲蝽各龄若虫均有较高的毒力,供试苯甲酰基脲类杀虫剂中,氟啶脲对绿盲蝽2龄若虫的毒力最高,其LC50为51.63mg/L;氟铃脲对其3龄若虫毒力最高,其LC5o为66.87mg/L;杀铃脲对绿盲蝽4龄若虫毒力最高,其LC50为93.04mg/L,3种药剂毒力均高于马拉硫磷.以4种苯甲酰基脲类杀虫剂LC30-40剂量处理绿盲蝽若虫后,对其存活若虫的生长发育和繁殖产生明显的后续影响.氟铃脲对试虫的影响最大,处理2龄若虫,表现为其若虫发育历期延长、成虫产卵量略有降低、成虫寿命降低;处理4龄若虫,羽化率降低、成虫产卵量、成虫寿命均降低.     

以生物防治为主持续治理中华稻蝗的初步研究

1～3龄蝗蝻主要聚集于田埂、地头取食杂草,随后逐渐扩散到稻田内,4～6龄蝗蝻在稻田内趋于均匀分布。卡死克对中华稻蝗的致死中浓度(LC₅₀)为54.27 μg/mL,田间用５%卡死克^®水剂喷雾防治,以105 mL/hm²为最佳用量。卡死克与蝗虫微孢子虫协调应用于防治高密度稻蝗时,两者以２∶１的比例进行地毯式喷施效果最佳,当年感染微孢子虫的蝗虫达35.6%。这种防治措施费用低,持效期长,在持续性综合治理稻田蝗害中有很好的应用前景。     

几种昆虫生长调节剂对家白蚁的毒效试验

在室内条件下测定了卡死克、抑太保、灭幼豚3号、爱力螨克和扑虱灵五种昆虫生长调节剂对家白蚁的毒杀效果。初步筛选结果表明：卡死克、抑太保和爱力螨克对家白蚁的毒杀效果均较好,家白蚁对爱力螨克尤其敏感。2．30pm。yL爱力螨克、327．36pm0VL、卡死克和369．80V＊wL抑太保处理白蚁5～6天后,其死亡率可达100％。忌避性试验表明：卡死克、抑太保和爱力螨克对家白蚁均无明显的驱避作用。     

苯甲酰基脲类杀虫剂对绿盲蝽的生物活性及亚致死影响

本文系统地比较了有代表性的4种苯甲酰基脲类杀虫剂对绿盲蝽Apolygus lucorum(Meyer-Dür)的生物活性和亚致死剂量对绿盲蝽生长发育及繁殖的影响。结果表明,苯甲酰基脲类杀虫剂对绿盲蝽各龄若虫均有较高的毒力,供试苯甲酰基脲类杀虫剂中,氟啶脲对绿盲蝽2龄若虫的毒力最高,其LC50为51.63 mg/L;氟铃脲对其3龄若虫毒力最高,其LC50为66.87 mg/L;杀铃脲对绿盲蝽4龄若虫毒力最高,其LC50为93.04 mg/L,3种药剂毒力均高于马拉硫磷。以4种苯甲酰基脲类杀虫剂LC30～40剂量处理绿盲蝽若虫后,对其存活若虫的生长发育和繁殖产生明显的后续影响。氟铃脲对试虫的影响最大,处理2龄若虫,表现为其若虫发育历期延长、成虫产卵量略有降低、成虫寿命降低;处理4龄若虫,羽化率降低、成虫产卵量、成虫寿命均降低。     

双酰胺类杀虫剂对棉铃虫和松毛虫赤眼蜂的选择毒力

为了指导棉铃虫防控中化学杀虫剂和天敌昆虫协调使用,本文采用浸叶法和玻管药膜法测定了4种双酰胺类杀虫剂对棉铃虫3龄幼虫和松毛虫赤眼蜂成蜂的毒力.结果表明,供试双酰胺类杀虫剂中氯虫苯甲酰胺、氟苯虫酰胺和氟氰虫酰胺对棉铃虫幼虫表现出了较高的毒力水平(LC50分别为0.2882、0.3894、0.8609 mg/L),稍低于对照药剂甲氨基阿维菌素苯甲酸盐(简称:甲维盐)(LC50为0.06493 mg/L);而溴氰虫酰胺对棉铃虫的毒力(LC50为3.7638 mg/L)明显低于甲维盐.从对天敌昆虫安全性来看,氯虫苯甲酰胺、氟苯虫酰胺和氟氰虫酰胺对松毛虫赤眼蜂的毒性(LC50分别为1.0060、0.9933、1.1541 mg/L)明显低于甲维盐(其LC50为0.1646 mg/L),表现出了较高的安全性;但是,溴氰虫酰胺对松毛虫赤眼蜂毒性较高(LC50为0.4952 mg/L),安全性较差.本研究将为棉铃虫防控中药剂与天敌协调使用提供依据.     

铜、锌、镉对唐鱼胚胎及初孵仔鱼的急性毒性及安全浓度评价

采用静水法生物测试研究铜（Cu2＋）、锌（Zn2＋）和镉（Cd2＋）对唐鱼（Tanichthys albonubes）胚胎和初孵仔鱼的急性毒性及安全浓度评价。结果显示,Cu2＋对唐鱼胚胎12、24h LC50分别为2.4092mg/L和0.4039mg/L;Zn2＋和Cd2＋对唐鱼胚胎24h LC50分别为372.9mg/L和50.0mg/L。Cu2＋对唐鱼初孵仔鱼12、24和48h LC50都是0.3228mg/L,其安全浓度为0.0986mg/L;Zn2＋对唐鱼初孵仔鱼24、48h LC50分别为72.44mg/L和25.17mg/L,其安全浓度为0.9116mg/L;Cd2＋对唐鱼初孵仔鱼24、48h LC50分别为36.5mg/L和20.59mg/L,其安全浓度为1.9654mg/L。结果表明,重金属元素对唐鱼胚胎和初孵仔鱼毒性依次为Cu2＋〉Cd2＋〉Zn2＋。     

广东白背飞虱种群对常用杀虫剂的敏感性测定

在室内采用稻茎浸渍法测定了广东省广州市和南雄市2个白背飞虱种群对吡虫啉、呋虫胺、烯啶虫胺、噻虫嗪、噻嗪酮、吡蚜酮等6种常用农药的敏感性。结果表明:不同白背飞虱种群对吡虫啉的敏感性最高,LC50值在0.0133-0.1538 mg/L之间;对噻嗪酮敏感性最低,LC50值在0.8806-1.6948 mg/L之间。不同白背飞虱种群对同一种杀虫剂的敏感性差异较大。     

茚虫威和六伏隆对小菜蛾卵、幼虫和成虫的药效（英文）

化学防治是世界各地防治小菜蛾Plutella xylostella (L.)的主要方法。选择对小菜蛾各发育阶段高效的杀虫剂有助于很好地控制这一害虫。本研究用浸叶法测定了茚虫威和六伏隆对小菜蛾卵、幼虫和成虫的毒性。茚虫威和六伏隆对小菜蛾卵的LC₅₀值分别为201.40 和 37.32 mg/L。茚虫威和六伏隆对3龄幼虫也有很好的毒性（茚虫威的LC₅₀ 为 4.82 mg/L; 六伏隆的LC₅₀ 为1.48 mg/L)。对成虫的毒性结果表明, 这两种杀虫剂对成虫均没有理想的毒性（茚虫威的LC₅₀ 为845.20 mg/L; 六伏隆的LC₅₀ 为3 438 mg/L)。根据计算的LC₅₀值, 六伏隆对小菜蛾卵和幼虫的毒性比茚虫威高, 但是茚虫威对成虫的毒性更高。     

Acute and joint toxicity of three agrochemicals to Chinese tiger frog(Hoplobatrachus chinensis) tadpoles

We studied acute and joint toxicity of three different agrochemicals(chlorantraniliprole, flubendiamide-abamectin and penoxsulam) to Chinese tiger frog(Hoplobatrachus chinensis) tadpoles with the method of stability water tests. Results showed that the three agrochemicals increased tadpole mortality. For acute toxicity, the LC50 values after 24, 48 and 72 h of chlorantraniliprole, flubendiamide-abamectin and penoxsulam exposure were 5.37, 4.90 and 4.68 mg/L; 0.035, 0.025 and 0.021 mg/L; 1.74, 1.45 and 1.29 mg/L, respectively. The safety concentrations(SC) of chlorantraniliprole, flubendiamide-abamectin and penoxsulam to the tadpoles were 1.23, 0.30 and 0.003 mg/L, respectively. Based on these findings, chlorantraniliprole and penoxsulam were moderately toxic, while flubendiamide-abamectin was highly toxic. All pairwise joint toxicity tests showed moderate toxicity. The LC50 values after 24, 48 and 72 h of exposure were 7.08, 6.61 and 6.03 mg/L for chlorantraniliprole+penoxsulam, with corresponding values of 2.455, 2.328 and 2.183 mg/L for chlorantraniliprole+flubendiamide-abamectin, and 1.132, 1.084 and 1.050 mg/L for penoxsulam+flubendiamide-abamectin, with safe concentrations of 1.73, 0.63 and 0.30 mg/L, respectively. For toxic evaluations of pairwise combinations of the three agrochemicals, only the joint toxicity of chlorantraniliprole and flubendiamide-abamectin after 24 h was found to be synergistic, whereas all other tests were antagonistic. Our findings provide valuable information on the toxic effects of agrochemicals on amphibians and how various types of agrochemicals can be reasonably used in agricultural areas.     

双酚A和壬基酚对隆线溞和微型裸腹溞的毒性

我们以隆线溞和微型裸腹溞为实验动物,进行了两种酚类内分泌干扰物双酚A（BPA）和壬基酚(NP)的毒性效应研究。急性实验测定出双酚A对隆线溞的24h和48h半数致死浓度（LC50）为：12.02mg/L和11.64mg/L,对微型裸腹溞24h和48h半数致死浓度LC50为：13.70mg/L和9.63mg/L。而壬基酚对隆线溞的24h和48h半数致死浓度（LC50）分别为：0.221mg/L和0.159mg/L,对微型裸腹溞的24h和48h半数致死浓度（LC50）分别为：0.334mg/L和0.126mg/L。实验表明微型裸腹溞对双酚A和壬基酚的敏感度高于隆线溞,能够很好的指示水环境的污染。慢性毒性实验发现双酚A对微型裸腹溞后代的雌雄比例有明显的影响,影响类似于hormesis现象。而壬基酚对隆线溞的慢性毒性研究发现,隆线溞的生活史、后代成活率均受到暴露的壬基酚浓度升高的不利影响。这些研究表明低浓度双酚A长期暴露的潜在毒性与高浓度壬基酚的急性毒性在这两种内分泌干扰物污染环境的研究中有重要意义。     

新型杀虫剂吡嗪酮(Pymetrozine)对褐飞虱、萝卜蚜的生物活性及作用方式研究

研究表明 ,吡嗪酮 (Pymetrozine)对萝卜蚜和褐飞虱具有优异的生物活性。就 L C90 比较 ,对萝卜蚜的活性是速灭杀丁的 12 .3倍 ;对褐飞虱 2、3龄若虫的活性与扑虱灵相近。该药具有很强的触杀、根吸传导作用。试验还表明其对萝卜蚜和褐飞虱 2、3龄若虫的残效期分别为 15天和 2 0天左右     

Molluscicidal activity of various solvent extracts from Solanum nigrum var. villosum L. aerial parts against Galba truncatula

Molluscicidal activity of Solanum nigrum var. villosum (morelle velue) extracts and their fractions were tested against the mollusca gastropoda Galba truncatula intermediate host of Fasciola hepatica. The results indicated that the hydro-methanol (MeOH-H2O) immature fruit extract possess the highest molluscicidal activity (LC50 = 3.96 mg/L) against Galba truncatula compared with other tested compounds. After acido-basic treatment, the methanolic extract fraction isolated from the immature fruits and the richest in alkaloids was the most toxic (LC50 = 1.65 mg/L). The fractions richest in saponosides obtained from the hydromethanolic and methanolic extracts of immature fruits showed interesting molluscicidal activities (LC50 = 6.15 mg/L and LC50 = 7.91 mg/L, respectively). The observed molluscicide activity could be attributed to the presence of alkaloids or saponosides. So, the immature fruits of Solanum nigrum var. villosum could be substrates of choice for molluscicide activity. In addition, total alkaloids and saponosides present in this plant deserve further investigations in order to identify the active principles and demonstrate their activities on mollusks in their natural habitat. According to the World Health Organization's guidelines on screening for plant molluscicides, use of these fractions may add to the arsenal of methods to control snail transmitting fasciolosis in tropical and Third World countries where fasciolosis is a common disease.     

Azadirachtin as a larvicide against the horn fly, stable fly, and house fly (Diptera: Muscidae)

Effects of azadirachtin, a triterpenoid extracted from neem seed, Azadirachta indica A. Juss., were similar to those of insect growth regulators against the immature stages of the born fly, Haematobia irritans (L.), the stable fly, Stomoxys calcitrans (L.), and the house fly, Musca domestica L. When an ethanolic extract of ground seed was blended into cow manure, LC50 and LC90's for larval horn flies were 0.096 and 0.133 ppm azadirachtin, respectively. An emulsifiable concentrate (EC) had an LC50 for larval horn flies of 0.151 ppm and an LC90 of 0.268 ppm. For larval stable flies, the EC formulation had an LC50 of 7.7 ppm and an LC90 of 18.7 ppm azadirachtin in manure. Against larval house flies, the LC50 and LC90 were 10.5 and 20.2 ppm, respectively. When the EC formulation was administered orally to cattle at a rate of greater than or equal to 0.03 mg azadirachtin per kg of body weight per day or when ground neem seed was given as a daily supplement of greater than or equal to 10 mg seed per kg body weight, horn fly development in the manure was almost completely inhibited. In contrast, ground seed mixed in cattle feed at the rate of 100-400 mg seed per kg of body weight per day caused less than 50% inhibition of stable flies in the manure.     

球形芽孢杆菌TS—1灭蚊毒蛋白的酶联免疫吸附测定

Bacillus sphaericus Ts-1 Mosquito larvicidal toxins 42 k Da and 43 k Da were isolated by Sephadex G-200 chromatography. Three strains of highly toxic B. sphaericus and two non toxic strains were screened for toxic proteins using ELISA. The lowest detectable toxin level was 1.56 X 10(-5) mg/ml. Non toxic strains did not produce antigens reacting to either the 42 kDa or the 43 kDa antibodies. Ts-1 cultures were examined at 12 and 24 h by LC50 bioassay against Culex pipiens. The LC50's at 12 h and 24 h were 0.71 ppm and 0.154 ppm, respectively, i.e., the toxin level at 24 h was 4.6 times the level at 12 h. ELISA tests established total toxin at 0.049 mg/ml and 0.225 mg/ml at 12 h and 24 h, respectively, confirming the LC50 study.