虫生真菌玫烟色棒束孢PF904表面活性剂的筛选

为筛选适用于玫烟色棒束孢Isaria fumosorosea PF904菌株的表面活性剂,采用OWRK法和表面张力法测定了甘蓝、苹果、茄子和黄瓜叶片的表面自由能以及添加4种表面活性剂后玫烟色棒束孢孢子悬浮液的表面张力和临界胶束浓度(CMC),并采用量角法和重量差值法测定了4种不同植物叶片上的接触角和最大稳定持留量,同时对筛选获得的表面活性剂进行了安全性评价。结果表明:PEG-12聚二甲基硅氧烷(OFX-0193)、ɑ-烯基磺酸钠(AOS)和二异丁基萘磺酸钠(Nekal)3种表面活性剂在125~500 mg/L下均可提高玫烟色棒束孢孢子悬浮液在4种供试植物叶片上的润湿性能;其中250 mg/L的Nekal在甘蓝和苹果叶片上的最大持留量(11.90和13.28 mg/cm^2)和接触角(29.5°和27.5°)均显著优于OFX-0193和AOS,润湿效果最好;在茄子叶片上,添加125 mg/L的OFX-0193时持留量最大(9.45 mg/cm^2);而添加普鲁兰多糖(Pullulan)达到临界胶束浓度时的溶液表面张力大于甘蓝、苹果和茄子叶片的表面自由能,润湿性能最差。孢子萌发抑制率的测定结果表明:添加Nekal和OFX-0193对玫烟色棒束孢PF904的孢子萌发无抑制作用,而AOS则对其表现为抑制作用。因此,在玫烟色棒束孢PF904中添加OFX-0193和Nekal 2种表面活性剂可用于防治苹果、甘蓝类害虫,添加OFX-0193还可用于防治茄类害虫。     

Surfactants in plant disease management: A brief review and case studies

In plant disease management, surfactants are generally used in combination with pesticides to facilitate delivery of the pesticide chemicals to the target sites in plants, vectors, or pathogens. Their intended use is rarely for direct effect on plant pathogens. However, trends in recent studies have revealed an appreciable increase in their use for direct management of plant diseases. In this paper, we briefly review the progress made in the use of surfactants for disease management, as adjuvants and when applied for direct effect. We carried out experiments to evaluate the effect of selected synthetic surfactants (Cohere, Kinetic, Silwet-77, and Induce) on powdery mildew in squash and bacterial spot in tomato. Results from this study showed that the effect of surfactants on these pathogens is dependent on the type of plant pathogen or disease. All tested surfactants exhibited in vitro bactericidal activity against Xanthomonas perforans, a causal pathogen of bacterial spot of tomato. In the greenhouse, Cohere significantly reduced disease severity of powdery mildew in squash compared to the untreated control. Cohere also showed promise in field trials against bacterial spot of tomato, but the other surfactants tested promoted this disease. Our studies demonstrate the importance of evaluating surfactants for their use in management of plant diseases both for direct effect and as adjuvants in tank mix.     

表面活性剂对超临界CO_2萃取人参中皂苷的影响

为了改善超临界CO2萃取在极性物质方面存在的局限性,在其体系中引入特定表面活性剂和助表面活性剂,考察了它们对超临界CO2萃取人参中皂苷的影响。试验结果发现,表面活性剂和助表面活性剂的加入均可显著提高超临界CO2萃取人参中皂苷的萃取率,其改善效果与它们的种类和加入量有关。在司盘80、吐温80、聚乙二醇辛基苯基醚和琥珀酸二(2-乙基己基)酯磺酸钠4种表面活性剂中,以琥珀酸二(2-乙基己基)酯磺酸钠的改善效果最好,其次是聚乙二醇辛基苯基醚和吐温80,而司盘80最差。在3种助表面活性剂对琥珀酸二(2-乙基己基)酯磺酸钠/超临界CO2反相微乳萃取人参皂苷的改善效果方面,以乙醇效果最好,其次是正戊醇,正丁醇效果最差。在萃取压力32MPa、萃取温度45℃、萃取时间4h和CO2流量2.5L/h的条件下,AOT和乙醇的加入量以0.036g/mL较好,此时人参皂苷的萃取率达15.9%,是没加表面活性剂和助表面活性剂下的13.3倍。     

表面活性剂在土壤中的行为及其对土壤物理特性的影响(综述)

本文从表面活性剂在土壤中的吸附、对土壤粒子的分散以及对土壤持水性和导水率的影响等方面综述了表面活性剂在土壤中的行为及对土壤物理特性的影响.表面活性剂进入到土壤后,将通过离子交换、氢键、静电、范德华引力等方式吸附在土壤界面上,通过降低界面张力、改变土壤界面电荷和接触角等物理化学方式来影响土壤团聚体的稳定性、土壤的持水量和导水率.表面活性剂对以上土壤特性的改变与表面活性剂的结构,外部环境条件及土壤理化性质有关.最后,本文指出了目前研究中存在的问题及发展趋势,就今后的相关研究提出了一些建议.     

Rapid semi-quantification of triacylglycerols,phosphatidylcholines, and free fatty acids in the rice bran of one grain

We developed a microplate assay method for determining the contents of triacylglycerols(TAGs), phosphatidylcholines(PCs), and free fatty acids(FFAs) in the rice bran of one grain using enzymatic reactions. In this method, enzymes from commercially available kits were used. Optimum reaction conditions were established. It was found that Nonidet P-40 was the optimal among the three surfactants used(Triton X-100, Tween 40, and Nonidet P-40) when lipid was dissolved in a reaction solution. Using this method, it was possible to quantify TAGs, PCs, and FFAs in concentration ranges of 7–150, 5–70, and 8–200 mg L~(–1), respectively. Furthermore, when the TAG contents in the rice bran were measured, the values closely corresponded to those obtained by extracting from large amounts of rice bran. However, sufficient data on the PC and FFA contents in rice bran are not available for valid comparisons. Although this method can accurately quantify the TAG contents in the rice bran of one grain, the accuracy of the PC and FFA contents has not been verified. Hence, future study is necessary.     

松香基季铵盐双子表面活性剂的合成及分析

松香（酸值170．54mgKOH／g）与环氧氯丙烷反应,合成中间产物3-松香酰氧基-2-羟丙基氯,再与四甲基乙二胺反应,制备了松香基季铵盐双子表面活性剂（GSRP）;用FT—IR对产物结构进行了鉴定,并对其性能进行分析。研究结果表明：中间产物3-松香酰氧基-2-羟丙基氯的酯化率为99．18％;GSRP的合成反应条件为：摩尔比2.2：1（n中间产物：n-四甲基乙二胺）,温度85℃,时间20h,产物得率为76．70％,纯度为96．10％;GSRP的分水时间为16min;临界胶束浓度为1．42×10^-4mol／L,表面张力为36．69mN／m：发泡力为200mm。泡沫稳定性好。     

表面活性剂对毒死蜱在水溶液中的光解影响

以紫外灯(UV)、高压汞灯(HPML)为光源,研究了不同类型农用表面活性剂对水中毒死蜱光化学降解的影响.结果表明,UV照射下,SDBS低浓度添加无敏化作用,添加50 mg·L-1时,毒死蜱的光敏化率为11.61%;Tween80添加1、10、50 mg·L-1时,对毒死蜱的光敏化率分别为7%、24.79%、90.20%,光敏化作用与添加浓度正相关;Span20浓度为10、50 mg·L-1时,光敏化率分别为33.07%、65.49%;混合型表面活性剂0201和2201添加50 mg·L-1时,半衰期为1.32、1.29 h.HPML照射下,农乳404、农乳603、农乳500、农乳601和0206B对毒死蜱的光解均产生了不同程度的敏化作用,其中农乳404和601敏化作用较强,添加25 mg·L-1时,光解速率分别提高了1.73和2.22倍;农乳500、0206B、农乳603敏化作用相对较弱.毒死蜱溶液反应体系紫外吸收光谱表明,表面活性剂产生的光敏化作用与短波区域紫外吸收增强有关.此外,表面活性剂对毒死蜱光敏化作用受表面活性剂的类型和剂量的影响.     

季铵盐和有机硅助剂对啶虫脒杀虫活性及水生生物毒性的影响

分别以浸渍法和相加指数法,评价了5种季铵盐助剂和3种有机硅助剂分别与啶虫脒混合使用时对苹果黄蚜Aphis citricola的联合作用,以及对两种非靶标水生环境生物大型溞Daphnia magna和斑马鱼Brachydonio rerio的毒性。结果表明,有机硅助剂和季铵盐助剂对啶虫脒防治蚜虫具有明显的增效作用,且silwet 618的增效倍数高达210.2。环境毒性试验结果表明:啶虫脒对两种水生生物均为低毒;供试季铵盐和有机硅助剂对大型溞的单一毒性均为剧毒,季铵盐助剂对斑马鱼为高毒,而有机硅助剂对斑马鱼为中毒。与农药联合作用测定结果表明:有机硅助剂对两种水生生物均表现为增毒作用;而5种季铵盐助剂除十四烷基二甲基苄基氯化铵（1427）对大型溞表现为增毒作用外,其他4种对两种水生生物均呈现不同程度的拮抗作用。此外,季铵盐和有机硅助剂还可以显著降低清水的表面张力（由清水的74.37 mN/m降为20.50~40.07 mN/m）,提高叶片上的最大持留量（由清水的1.54 μg/cm2提高到2.39~4.34 μg/cm2）。因此,使用季铵盐和有机硅助剂作为增效剂时应考虑其对水生生物的毒性,其中季铵盐助剂对环境生物的潜在威胁更小。     

A mechanistic analysis of penetration of glyphosate salts across astomatous cuticular membranes

Penetration of glyphosate salts across isolated poplar (Populus canescens (Aiton) Sm) cuticular membranes (CM) was studied using Na+, K+, NH4+, trimethylsulfonium+ (TMS) and isopropylamine+ (IPA) as cations. After droplet drying, humidity over the salt residues on the outer surfaces of the CM was kept constant, and cuticular penetration was monitored by sampling the receiver solution facing the inner surfaces of the CM. Glyphosate salts disappeared exponentially with time from the surfaces of the CM. This first-order process could be quantitatively described using rate constants (k) or half-times (time for 50% penetration; t1/2). Humidity strongly affected the velocity of penetration, as k increased by factors of 5.3 (K-glyphosate), 6.9 (TMS-glyphosate), 7.1 (NH4-glyphosate), 8.5 (Na-glyphosate) and 10.5 (IPA-glyphosate) when humidity was increased from 70 to 100%. Depending on the type of cation and humidity, t1/2 varied between 4 and 70h, but the humidity effect was statistically significant only at 100% humidity, when half-times were highest with IPA-glyphosate and lowest with TMS-glyphosate. Glyphosate acid penetration was measured only at 90% humidity and found to be extremely slow (t1/2 = 866 h). Adding 0.2 g litre-1 of a wetter (alkylpolyglucoside) to the donor increased IPA-glyphosate rate constants by about four times, but increasing concentration produced no further increase in k. When donors contained 0.2 g litre-1 wetter, further additions of 4 g litre-1 Ethomeen T25 did not change rate constants measured with IPA-glyphosate at 90% humidity, while Genapol C-100 and diethyl suberate increased k by only 35%. Concentration of IPA-glyphosate (1, 2 and 4 g litre-1) did not influence k at 90% humidity, and pH of donor solutions (4.0, 7.7, 9.5) had no effect on k of K-glyphosate at 90% humidity. Temperature (10 to 25 degrees C) had only a small influence on velocity of penetration of IPA-glyphosate and K-glyphosate, as energies of activation amounted to only 4.26 and 2.92 kJ mole-1, respectively. These results are interpreted as evidence for penetration of glyphosate salts in aqueous pores.     

Effects of Selected Surfactants on Nutrient Uptake in Corn (Zea mays L.)

Surfactants in herbicide formulations eventually enter soil and may disrupt various processes. Research examined effects on nutrient uptake in corn caused by surfactants, herbicides, and surfactant-herbicide combinations applied to silt loam and silty clay loam soils in the greenhouse. Surfactants evaluated were Activator 90, Agri-Dex, and Thrust; herbicides were glyphosate, atrazine, and bentazon. Corn was planted in fertilized soils with moisture content maintained for optimum growth. Foliage (V8 growth stage) was collected for elemental analyses. Nutrient uptake differed with soil texture. Nutrient uptake from silty clay loam was more affected by surfactants and/or herbicides than in silt loam. Potassium uptake was significantly (P = 0.05) decreased in silt loam only by Thrust but uptake of phosphorus (P), potassium (K) calcium (Ca), sulfur (S), copper (Cu), and zinc (Zn) decreased by ≤30% in silty clay loam treated with surfactants. Surfactants and/or herbicides may interact with soil texture to affect nutrient uptake. Long-term field studies to validate changes in nutrient uptake and grain yields after annual applications of surfactants plus herbicides are needed.