高效低毒杀虫剂林丹的新剂型——高浓度悬浮制剂

本文利用格里芬提出的表面活性剂的亲水——亲油平衡值HLB值与稳定度的关系,对制备林丹高浓悬浮制剂所用的润湿剂、分散剂等表面活性剂进行筛选,并充分考虑其间的良好配伍性。作者采用湿粉碎的方法制成了稳定的悬浮制剂,同时,就其主要性能指标与法国同类产品作了比较。

滤除白细胞后血液放置不同时间对去白细胞悬浮红细胞制剂质量的影响

目的探讨对滤除白细胞的血液,不同的放置时间对去白细胞悬浮红细胞制剂质量的影响。方法选取1400袋全血标本作为研究对象,分成7组,即当天0h组,次日1h、2h、3h、4h、12h、24h组,各组200袋,当天0h组采血后当天滤除白细胞并离心,以制备成去白细胞悬浮红细胞制剂,次日的6组分别在滤除白细胞后在次日各时间段离心以制备成去白细胞悬浮红细胞制剂,对7组制剂储存末期溶血率、血细胞比容及血红蛋白含量达标情况进行观察。结果当天0h在储存末期溶血率达标上高于次日6组(P<0.05);而在血细胞比容、血红蛋白含量达标上7组差异无统计学意义(P<0.05)。结论血常规检验中,及时的离心制备去白细胞悬浮红细胞制剂可显著提高储存期溶血达标率。

不同放置时间对去白细胞悬浮红细胞制剂质量的影响

目的探讨不同放置时间对去白细胞悬浮红细胞制剂质量的影响。方法选择2018年3—6月嘉兴市中心血站供血科制备的去白细胞悬浮红细胞制剂,随机抽取20份制备的去白细胞悬浮红细胞制剂样本,每份样本分装为5份,分别放置即刻、第7天、第14天、第28天及第35天,检测各时间点样本中的K^+、Na^+、血液乳酸脱氢酶(LDH)、乳酸(LAC)、血糖(GLu)、活性氧族(ROS)、丙二醛(MDA)、游离血红蛋白含量(FHb)及溶血率变化。结果随着放置时间的延长,样本中的K^+、LDH、LAC水平,ROS、MDA、FHb含量及溶血率呈逐渐升高趋势,而Na^+、Glu水平逐渐下降;放置后第7、 14、 28、 35天分别与放置即刻比较,差异均有统计学意义(P <0.05)。结论随着放置时间的延长,去白细胞悬浮红细胞制剂中的生化指标出现明显变化,放置过程中ROS、MDA含量升高引起储存损伤,FHb及溶血率显著升高,所以从输血安全及输血风险方面考虑,准备好的去白细胞悬浮红细胞制剂应尽快使用。

3株枯草芽孢杆菌对烟草白粉病的防效

为探明3株枯草芽孢杆菌对‘云烟87’白粉病的防效,以枯草芽孢杆菌制得的悬浮剂、菌悬液和低毒化学农药为试验材料,开展其对白粉病防效的研究。室内结果表明,YWF-19-0068、YWF-19-0070、YWF-19-0071生防制剂10倍液对烟草白粉病的防效分别达70.49%、61.15%、69.71%,50倍菌悬液对白粉孢子的萌发抑制率分别达56.92%、56.92%、58.46%。室外结果表明,3株枯草芽孢杆菌制剂不同剂量用药10天后,50倍液的大田防效最优,分别可达46.85%、65.50%、51.70%;选取YWF-19-0070菌株悬浮制剂分别在甲基硫菌灵全量和半量用药一次后,每隔3天使用一次,最后一次用药10天后,甲基硫菌灵全量处理的防效达77.73%以上;甲基硫菌灵半量处理的防效达60.23%以上。

Efficacy of Difenoconazole-azoxystrobin 32.5% SC in Treatment of Rice Sheath Blight and Its Application Technology

[Objective] The efficacy of difenoconazole-azoxystrobin 32.5% SC for rice sheath blight and its application technology were discussed in this research. [Method] Three surveys were carried out. There were 5 fixed test clumps in each plot. The number of total plants and disease plants and disease progression in each fixed clump were recorded. The correlation effectiveness was calculated based on the growth rate of disease index. Significance analysis was performed with Dun- can＇s new multiple range method （DMRT）. [Result] The difenoconazole-azoxystrobin 32.5% SC had a good efficacy for rice sheath blight, and its efficacy increased with the increase of dose. If sprayed according to the dose of 450 ml/hm2 5 days before the beginning of heading stage of rice, difenoconazole-azoxystrobin 32.5% SC would have better effects on controlling rice sheath blight with correlation effectiveness reaching up to 95.14%, which was 2.06% higher than that of control drug （trifloxys- trobin-tebuconazole 75% WG, 225 g/hm2）. [Conclusion] Treated with difenoconazole- azoxystrobin 32.5% SC with dose of 450 ml/hm2, rice would have green upper leaves and less yellow middle and lower leaves. Moreover, the yield was in- creased significantly. The difenoconazole-azoxystrobin 32.5% SC had good safety. Therefore, difenoconazole-azoxystrobin 32.5% SC had a good application prospect in production.