溴甲烷土壤消毒替代技术研究进展

概述了溴甲烷替代品的新进展。在土壤消毒方面,新的进展有化学替代品:氯化苦胶囊、氯化苦乳剂、氯化苦+噻唑磷混用、C₂N₂、氰铵化钙、异硫氰酸烯丙酯、异硫氰酸甲酯、1,3—二氯丙烯和氯化苦混剂、碘甲烷、环氧丙烷、叠氮化合物、硫酰氟等。在使用技术上,采用化学灌溉和注射施药技术进一步提高药剂分布的均匀性。在非化学替代技术上,生物熏蒸和有机质补充正受到重视。减少溴甲烷的技术正在快速地发展。     

内装纸箱集装箱中溴甲烷气体分布及残留检测研究

采用 4 0英尺集装箱熏蒸处理纸箱 ,实验对箱中溴甲烷气体分布及散气后溴甲烷残留进行了检测研究。结果表明 ,温度高低、集装箱中纸箱堆放和电扇鼓风等情况对溴甲烷分布与扩散影响明显。集装箱装满纸箱情况下 ,当温度≥ 2 1℃ ,投药 2h后上、下检测点平均溴甲烷浓度达到最低浓度要求 ;当温度 <2 1℃时 ,投药 2 4h后上检测点平均溴甲烷浓度仍达不到最低浓度要求。当集装箱中间留有通道或使用电扇鼓风情况下 ,投药 2h后各检测点溴甲烷浓度分布达到最低浓度要求。集装箱装满纸箱情况下 ,溴甲烷向大气扩散较慢 ,即使电扇鼓风散气2h ,2 4h后溴甲烷残留量仍达不到安全指标要求。集装箱中间留有通道情况下 ,箱中溴甲烷残留量下降很快 ,并可达到安全指标要求。     

磷化氢和溴甲烷复合熏蒸红心火龙果携带番石榴实蝇技术研究

本文研究了磷化氢(PH₃)和溴甲烷(MB)复合熏蒸对番石榴实蝇的毒力以及对红心火龙果采后品质的影响。结果表明,复合熏蒸方式下,各个浓度的磷化氢和溴甲烷均存在增效,当溴甲烷浓度为4 g/m³时,复合熏蒸发挥最佳增效效果的磷化氢浓度为1.42 g/m³。复合熏蒸番石榴实蝇仅需13.19 g/m³的溴甲烷即可在95%置信区间下达到致死率99.996 8%。与对照相比,复合熏蒸对火龙果的外观和内部品质无显著影响,而与溴甲烷单独熏蒸相比,复合处理会显著降低呼吸强度并减少药害。因此,溴甲烷和磷化氢复合处理对番石榴实蝇具有协同效应,表明磷化氢和溴甲烷复合熏蒸有可能成为水果采后处理的一种新策略。     

The persistence of methyl bromide residues in rice,dried fruit,seeds and nuts following laboratory fumigation

The persistence of methyl bromide (MB) in white rice, brown rice, sultanas, raisins, pumpkin seeds, brazil nuts, groundnuts and walnuts was monitored following laboratory fumigations at different concentration time products and temperatures. A sensitive automated headspace gas chromatographic method with a limit of quantitation of 0.005 mg kg⁻¹ was used to determine MB residues. Nuts and seeds sorbed the highest amounts of MB followed by rice and dried fruit. Measurable MB residues were shown to persist in nuts and seeds for 10 weeks and in dried fruit for four weeks following a fumigation with recommended concentration time products. The data presented suggest MB residues may persist in unprocessed nuts, seeds or dried fruit at the point of consumption using recommended fumigation practices, or particularly following overdosing or multiple fumigations. Crown copyright © 2000 Reproduced with the permission of Her Majesty's Stationery Office     

出口鲜切花的溴甲烷与二氧化碳气调熏蒸灭虫试验

使用溴甲烷和二氧化碳对15种切花及主要携带的蚜虫、蓟马、叶螨进行熏蒸试验.结果表明:在22℃条件下,熏蒸处理2h,35 g/m3、40 g/m3、45 g/m3可分别100%杀死蚜虫、蓟马、叶螨.45 g/m3对供试花卉品质有影响.溴甲烷配合二氧化碳对花卉害虫熏蒸处理结果表示,5%二氧化碳对澳甲烷熏蒸处理花卉害虫的效果有增效作用.在22℃下采用40 g/m3溴甲烷和5%二氧化碳处理2h能100%杀死鲜切花同时携带的蚜虫、蓟马、叶螨,且对供试花卉影响甚微.     

A simulation model for fate and transport of methyl bromide during fumigation in plastic‐mulched vegetable soil beds

A coupled water‐heat and chemical transport model was used to describe the fate and transport of methyl bromide fumigant in low‐density polyethylene plastic‐mulched soil beds used for vegetable production. Methyl bromide transport was described by convective‐dispersive processes including transformations through hydrolysis. Effects of non‐isothermal conditions on chemical transport were considered through inclusion of temperature effects on transport parameters. An energy‐balance approach was used to describe the plastic‐mulched boundary condition that controls the thermal regime within the soil bed. Simulations were made for variable water‐saturation regimes within the bed and for different depths of fumigant injection. Simulations for various scenarios revealed that large amounts (20–44% over a 7‐day period) of applied methyl bromide are lost from the un‐mulched furrows between the beds. Plastic mulching of the bed was found to be only partially effective (11–29% emission losses over a 7‐day period) in reducing atmospheric emissions. Deep injection of fumigant and saturating the soil with water both led to increased retention of methyl bromide within the soil and less emission to the atmosphere. However, deep injection was unfavorable for effective sterilization of the crop root zone. © 2000 Society of Chemical Industry