面向二十一世纪的生物农药

简述了农药的发展经历，介绍了国内外生物农药的研究、发展和应用的现状及发展趋势。     

有机磷灭蚊剂投放浓度和时间对水体总磷的影响

为分析新型低毒有机磷杀虫剂“1%双硫磷颗粒”投放对河道水质的影响,设置不同药剂投放浓度和不同反应时间的室内试验,以TP、NH₃-N及S^2-为目标因子,分析该药剂投放后水体污染物浓度。结果表明:不同试验组水样中S^2-质量浓度均小于0.02 mg/L,NH₃-N质量浓度处于0.029~0.036 mg/L之间,均达到地表水Ⅰ类标准;不同浓度药剂投放1 h后,水体TP质量浓度已达到稳定状态,且在60 h内均保持稳定,药剂投加量与水体TP质量浓度呈显著正相关(R²=0.85);不同处理组的药剂在水体中的TP释放量无明显差异,均在1.06~1.30 mg/g之间。“1%双硫磷颗粒”推荐适宜投放量不会使河道水质恶化到劣Ⅴ类,但增加药剂投放量会增加水体TP污染及富营养化风险。     

Experimental and Established Oximes as Pretreatment before Acute Exposure to Azinphos-Methyl

Poisoning with organophosphorus compounds (OPCs) represents an ongoing threat to civilians and rescue personal. We have previously shown that oximes, when administered prophylactically before exposure to the OPC paraoxon, are able to protect from its toxic effects. In the present study, we have assessed to what degree experimental (K-27; K-48; K-53; K-74; K-75) or established oximes (pralidoxime, obidoxime), when given as pretreatment at an equitoxic dosage of 25% of LD₀₁, are able to reduce mortality induced by the OPC azinphos-methyl. Their efficacy was compared with that of pyridostigmine, the only FDA-approved substance for such prophylaxis. Efficacy was quantified in rats by Cox analysis, calculating the relative risk of death (RR), with RR=1 for the reference group given only azinphos-methyl, but no prophylaxis. All tested compounds significantly (p ≤ 0.05) reduced azinphos-methyl-induced mortality. In addition, the efficacy of all tested experimental and established oximes except K-53 was significantly superior to the FDA-approved compound pyridostigmine. Best protection was observed for the oximes K-48 (RR = 0.20), K-27 (RR = 0.23), and obidoxime (RR = 0.21), which were significantly more efficacious than pralidoxime and pyridostigmine. The second-best group of prophylactic compounds consisted of K-74 (RR = 0.26), K-75 (RR = 0.35) and pralidoxime (RR = 0.37), which were significantly more efficacious than pyridostigmine. Pretreatment with K-53 (RR = 0.37) and pyridostigmine (RR = 0.52) was the least efficacious. Our present data, together with previous results on other OPCs, indicate that the experimental oximes K-27 and K-48 are very promising pretreatment compounds. When penetration into the brain is undesirable, obidoxime is the most efficacious prophylactic agent already approved for clinical use.     

Trace Identification and Visualization of Multiple Benzimidazole Pesticide Residues on Toona sinensis Leaves Using Terahertz Imaging Combined with Deep Learning

Molecular spectroscopy has been widely used to identify pesticides. The main limitation of this approach is the difficulty of identifying pesticides with similar molecular structures. When these pesticide residues are in trace and mixed states in plants, it poses great challenges for practical identification. This study proposed a state-of-the-art method for the rapid identification of trace (10 mg·L⁻¹) and multiple similar benzimidazole pesticide residues on the surface of Toona sinensis leaves, mainly including benzoyl (BNL), carbendazim (BCM), thiabendazole (TBZ), and their mixtures. The new method combines high-throughput terahertz (THz) imaging technology with a deep learning framework. To further improve the model reliability beyond the THz fingerprint peaks (BNL: 0.70, 1.07, 2.20 THz; BCM: 1.16, 1.35, 2.32 THz; TBZ: 0.92, 1.24, 1.66, 1.95, 2.58 THz), we extracted the absorption spectra in frequencies of 0.2–2.2 THz from images as the input to the deep convolution neural network (DCNN). Compared with fuzzy Sammon clustering and four back-propagation neural network (BPNN) models (TrainCGB, TrainCGF, TrainCGP, and TrainRP), DCNN achieved the highest prediction accuracies of 100%, 94.51%, 96.26%, 94.64%, 98.81%, 94.90%, 96.17%, and 96.99% for the control check group, BNL, BCM, TBZ, BNL + BCM, BNL + TBZ, BCM + TBZ, and BNL + BCM + TBZ, respectively. Taking advantage of THz imaging and DCNN, the image visualization of pesticide distribution and residue types on leaves was realized simultaneously. The results demonstrated that THz imaging and deep learning can be potentially adopted for rapid-sensing detection of trace multi-residues on leaf surfaces, which is of great significance for agriculture and food safety.     

我国农药新剂型的研究进展

随着人们对保护环境的重视以及可持续发展的需要,国内外农药的剂型已朝着水基性、粒状、缓释、多功能省力化的方向发展.一些安全、经济、省力的剂型正在研究并已有应用,它们代替那些污染大,毒性高,用量大的剂型.本文对水基性剂型如水乳剂,微乳剂,悬浮剂,悬浮乳剂,微胶囊剂和干悬浮剂的特点、组成、主要产品及质量控制指标作简要的介绍,为农药新剂型研究提供参考依据.     

6种常用农药与球孢白僵菌和蜡蚧轮枝菌的相容性

测定了3种杀虫剂和3种杀菌剂在田间常规浓度下对球孢白僵菌和蜡蚧轮枝菌孢子萌发和菌丝生长的影响。供试杀虫剂对球孢白僵菌孢子萌发的影响很小，萌发率超过85％，对蜡蚧轮枝菌孢子萌发影响较大，抑制作用最小的吡虫啉，抑制率达到25％。3种杀菌剂几乎完全抑制了孢子的萌发。杀虫剂对球孢白僵菌的菌丝生长有一定抑制作用，抑制率为22．60％-38．39％；对蜡蚧轮枝菌菌丝生长的影响小于对球孢白僵菌的影响，抑制率为10．06％．17．61％。供试杀菌剂对球孢向僵菌和蜡蚧轮枝菌菌丝生长的抑制作用都较大，抑制率都在50％以上。     

柑桔木虱有效防治药剂田间筛选试验

控制柑桔木虱是黄龙病综合防治最重要的措施。田间药效试验结果表明，敌敌畏、乐果、辛硫磷、马拉硫磷、乙酰甲胺磷、阿维菌素、丁醚脲等对木虱成虫的防效低于80％，吡虫啉为86．6％；甲氰菊酯及与三唑磷、丙溴磷、水胺硫磷的混剂，高效氯氰菊酯及与毒死蜱的混剂的防效都在90．0％以上；啶虫脒对成、若虫的防效都较差，与柴油、吡虫啉混用有增效作用。     

10%啶菌(噁)唑微乳剂的研制

介绍了一种以水为介质的环保型绿色农药新制剂-10％啶菌噁唑微乳剂，简述了该剂型的特点、乳化剂及溶剂品种的筛选，并且考察了水质对微乳剂配制的影响，考察了配制的微乳剂低温、热贮、乳化和对原药分解率等性能，表明该微乳剂品种分解率低，质量稳定，使用安全，社会效益显著。     

农药品种及其原料中间体的现状和展望

介绍了近年来新开发的农药品种及所需的原料和中间体，并提出了发展建议。     

农药残留分析样品前处理技术新进展

介绍了近年来农药残留样品前处理技术的新进展,并对此进行了评述和展望。