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四种熏蒸剂对辣椒疫霉和南方根结线虫的毒力 总被引:5,自引:3,他引:2
为明确不同熏蒸剂对土传病原菌辣椒疫霉Phytophthora capsici和南方根结线虫Meloidogyne incognita的毒力,采用密闭熏蒸法测定了4种土壤熏蒸剂氯化苦、棉隆、威百亩、1,3-二氯丙烯的毒力及1,3-二氯丙烯和氯化苦复配的联合毒力。结果表明:氯化苦、棉隆、威百亩、1,3-二氯丙烯对辣椒疫霉的EC50分别为0.12、2.44、8.30、8.45 mg/L; 对南方根结线虫的EC50 分别为1.23、0.22、0.30、0.18 mg/L。1,3-二氯丙烯和氯化苦以2:1、1:1、1:2比例复配时对辣椒疫霉的EC50 分别为1.13、0.24、0.14 mg/L;对南方根结线虫的EC50分别为0.19、0.32、0.61 mg/L。结合经济效益和多种病害兼治的原则,推荐使用1,3-二氯丙烯与氯化苦1:1配比,可兼治辣椒疫病和根结线虫病。 相似文献
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土壤熏蒸是防治土传病虫害的重要手段之一, 熏蒸剂在土壤中的散发直接影响其对土壤有害生物的防治效果。为明确二甲基二硫、顺式-1, 3-二氯丙烯、反式-1,3-二氯丙烯、异硫氰酸烯丙酯, 以及棉隆和威百亩的前体异硫氰酸甲酯等5种常用熏蒸剂在土壤中的散发情况, 本研究以北京顺义采集的沙壤土为材料, 按100 mg/kg剂量添加熏蒸剂, 在室内模拟田间熏蒸剂在土壤内的散发, 并在不同温度(15、25、35℃)和不同土壤含水量(6%、10%、15%)等条件下分别对5种熏蒸剂的散发进行监测。同时拟合出5种熏蒸剂的累计散发量随时间变化的Logistic模型, R2均高于0.98, 拟合度较好。本研究为熏蒸剂的合理化利用、减少农药滥用、减轻环境压力提供一定参考。 相似文献
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作物土传病害的危害及防治技术 总被引:14,自引:0,他引:14
近20年来,保护地在中国有了较大的发展,而保护地的发展和作物的连年栽培,导致土传病害和根结线虫发生越来越重,连续栽培3~5年后,作物产量和品质受到严重的影响,已成为生产中的突出问题。本文简述了我国重要作物如玉米、小麦、棉花、大豆、油菜的土传病害种类,以及高附加值作物黄瓜、番茄、茄子、辣椒、瓜类等作物的土传病害种类和20年来的变化。介绍了土传病害的防治方法,如农业防治包括轮作、抗性品种、嫁接、有机质补充、生物熏蒸、厌氧消毒;物理防治技术如太阳能消毒、蒸汽消毒、热水消毒、火焰消毒;化学防治技术如氯化苦、棉隆、威百亩、二甲基二硫、异硫氰酸烯丙酯、硫酰氟;生物防治技术如木霉、枯草芽胞杆菌、荧光假单胞菌、植物促生菌,以及预防为主的综合防治技术。种子、种苗消毒技术在本文中也进行了介绍。 相似文献
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为明确完全不透性膜(totally impermeable film,TIF)对熏蒸剂在田间应用时散发和残留的影响,采用静态散发箱技术测定了TIF与聚乙烯膜(polythene film,PE)对氯化苦、1,3-二氯丙烯(1,3-dichloropropene,1,3-D)和棉隆施用后所产生的异硫氰酸甲酯(methyl isothiocyanate,MITC)大气散发的控制效果,并应用气相色谱法检测了揭膜后3种熏蒸剂在土壤中的残留情况。结果表明,在20 g/m~2(棉隆为15 g/m~2)剂量下,氯化苦、1,3-D及MITC透过PE的累积散发率为施用量的6.42%、7.37%和22.27%,透过TIF的累积散发率为施用量的0、0.65%和2.05%,表明TIF极大地降低了熏蒸剂向大气的散发量,可有效控制熏蒸剂向大气扩散。揭膜后氯化苦及1,3-D在各处理土壤中的残留量均低于0.30 mg/kg,说明TIF没有增加土壤中氯化苦和1,3-D的残留量;但MITC(15 g/m~2)在TIF下10~20 cm土壤中的残留量在3.28~3.41 mg/kg之间,高于在PE下的残留量(0.46~0.47 mg/kg),表明TIF能提高MITC在土壤中的持效浓度。 相似文献
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欧盟委员会在第三和第四轮现有有效成分审查中对杀菌剂四氟醚唑(tetraconazole)、杀虫剂/杀螨剂联苯菊酯(bifenthrin)、熏蒸剂威百亩(metam-sodium)进行了重新审查。最终,委员会建议重新登记杀菌剂四氟醚唑.撤消杀虫剂/杀螨剂联苯菊酯、熏蒸剂威百亩。 相似文献
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采用熏蒸剂进行土壤消毒可有效控制设施作物及高附加值作物的土传有害生物,其中熏蒸效果突出的熏蒸剂溴甲烷由于会破坏臭氧层而被禁用,导致土传有害生物熏蒸治理过程中缺乏高效稳定的熏蒸产品。二甲基二硫是一种新型熏蒸剂,对有害线虫具有高活性,可兼治部分土传病原菌及杂草。广谱、安全和高效等优点使其成为最有推广应用前景的溴甲烷替代药剂,或将改善国内杀线虫熏蒸剂缺乏的局面。该文系统综述了国内外关于二甲基二硫对土传有害生物的防控活性、作用机制和降解、散发逃逸、扩散分布及残留等环境行为,以及对土壤养分、微生物及非靶标生物等方面的影响,以期为二甲基二硫的开发及推广应用提供参考。 相似文献
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林木种实害虫熏蒸技术的研究 总被引:1,自引:2,他引:1
本文以国内林木检疫工作中经常遇到的8种林木种子携带的9种检疫性害虫为对象,进行了室内熏蒸试验、室内重复熏蒸试验、产地熏蒸试验。提出了溴甲烷、硫酰氟、氯化苦、磷化铝在-10~0℃、1~10℃、11~20℃条件下,熏蒸处理供试各种检疫性林木种实害虫安全有效 CT 值。测定了紫穗槐、落叶松、柠条、黄连木、刺槐种子在常温条件下对溴甲烷、硫酰氟、磷化铝的吸附量以及这三种熏蒸剂在这5种林木种子内的解吸速度。同时还测定了溴甲烷、硫酰氟、磷化氢、氯化苦在常温条件下,在散装黄连木、落叶松、柠条、紫穗槐、刺槐种子内的渗透力以及氟、氯、溴、磷在食用黄连木种子内的残留量。 相似文献
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Duniway JM 《Phytopathology》2002,92(12):1337-1343
ABSTRACT None of the chemical alternatives currently registered and available has the full spectrum of activity and versatility of methyl bromide as a pre-plant soil fumigant. Chloropicrin and 1,3-dichloropropene (Telone) can provide significant control of many plant pathogens in soil and growth stimulation in annual crops. These compounds, however, provide limited control of weeds or other residual plant materials in soil of concern in nursery production systems, and some perennial replant diseases. Methyl isothiocyanate generators such as metam sodium have broad biocidal activity in soil, but are more difficult to apply effectively. In most soil applications, the available alternatives are likely to be used in combinations, either as mixtures (e.g., 1,3-dichloropropene and chloropicrin) or sequentially (e.g., chloropicrin followed by metam sodium). They may also be supplemented with other more specific pesticides and cultural controls. Among the alternatives currently under active development but not yet available, methyl iodide and propargyl bromide probably have activity that most closely parallels that of methyl bromide in soil. However, all of the chemical alternatives to methyl bromide will be subject to continuing review and more regulation. Furthermore, we do not know the actual prospects for registration of the new fumigants currently under development and there is a risk that registered fumigants will not be available for large-scale use in soil indefinitely. 相似文献
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Ajwa HA Trout T Mueller J Wilhelm S Nelson SD Soppe R Shatley D 《Phytopathology》2002,92(12):1349-1355
ABSTRACT Strawberry fields in California (9,500 ha annually) are pre-plant fumigated with methyl bromide and chloropicrin to prevent serious soil pest and disease problems. Although soil fumigation with methyl bromide has ensured stability of strawberry production, its use is being discontinued because of its effect on stratospheric ozone. The likely short-term alternatives such as 1,3-dichloropropene, chloropicrin, and metham sodium, although not ozone depleters, are potentially hazardous to the environment and humans if applied improperly. Water-soluble formulations of alternative fumigants can be applied through drip irrigation systems established to irrigate crops. In comparison to conventional shank methods of injection, application of soluble formulations through drip irrigation systems would be economical and environmentally friendly, reduce worker exposure, and allow for simultaneous or sequential application of a combination of fumigants. This paper discusses techniques developed to apply alternative fumigants through drip irrigation systems, and reviews ongoing studies to determine optimum application rates, soil conditions, plastic mulches, and amount of irrigation water used to apply these alternative fumigants. 相似文献
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Physical, chemical and environmental properties of selected chemical alternatives for the pre-plant use of methyl bromide as soil fumigant 总被引:1,自引:0,他引:1
Ruzo LO 《Pest management science》2006,62(2):99-113
Production and use of methyl bromide, a soil fumigant, are being restricted because of this chemical's deleterious effects on stratospheric ozone concentrations. Several products, some of which are currently used as soil fumigants, are being considered as possible replacements for methyl bromide, alone and in various combinations. Among these, 1,3-dichloropropene, methyl isothiocyanate generators such as metam-sodium, and chloropicrin are currently registered, while others such as methyl iodide and sodium azide are at different stages of the registration process. This review examines physicochemical properties, environmental fate, and metabolism of the various potential methyl bromide replacement products. 相似文献
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The phase-out of methyl bromide as a soil fumigant has stimulated research into the use of other soil fumigants for weed control. Methyl bromide, methyl iodide, propargyl bromide, 1,3-dichloropropene (1,3-D) and metam-sodium were tested alone and in combination with chloropicrin in laboratory experiments to determine their efficacy against Cyperus esculentus L (yellow nutsedge) tubers. Propargyl bromide and metam-sodium were the most efficacious fumigants tested, with EC50 values of 3.7 and 6.5 microM, respectively. The relative potencies of methyl iodide and chloropicrin were not significantly different but were 2.6 and 2.9 times more potent than methyl bromide, respectively. The EC50 values for all fumigants other than 1,3-D were significantly lower than that of methyl bromide. Combining each fumigant with 17% chloropicrin resulted in a synergistic interaction. The greatest increase in potency between the expected result and the actual result was a relative potency of 3.8 with the methyl bromide/chloropicrin combination. The smallest increase in efficacy was with propargyl bromide and chloropicrin, with a relative potency of 1.5. There was no significant difference between the EC50 values of methyl bromide/chloropicrin and methyl iodide/chloropicrin combinations. Combining 1,3-D with 17% chloropicrin resulted in an EC50 value for C. esculentus control similar to that of methyl iodide applied alone. 相似文献
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Metam sodium (metam) is a widely used soil fumigant. Combined application of metam and other available fumigants is intended to produce synergic pesticidal effects for a broad spectrum of pest control in soil fumigation. This study aimed to test the compatibility of metam with the halogenated fumigants 1,3-dichloropropene (1,3-D), chloropicrin, methyl bromide, methyl iodide and propargyl bromide. Halogenated fumigants and metam were spiked simultaneously into organic solvents, water and moist soils, and metam-induced degradation of these halogenated chemicals was evaluated. In all three media, the halogenated fumigants were incompatible with metam and degraded via rapid chemical reactions. The degradation rate varied with halogenated fumigant species and increased as the amount of metam present was increased. In moist soil, 15-95% of the halogenated fumigants were decomposed within 72 h by metam at a 1:1 molar ratio. Combined application of Telone C-35 (62.5% 1,3-D + 35% chloropicrin) at 265 mg kg(-1) and Vapam (42% metam) at 567 mg kg(-1) in soil resulted in complete disappearance of the applied chloropicrin and 20-38% of the 1,3-D within 8 h. The results suggest that simultaneous application of halogenated fumigants and metam at the same soil depth will not maximize pest control. In practice, sequential treatment of soil or application at different soil depths is recommended when these two types of fumigants are used in combination. 相似文献
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我国土壤熏蒸消毒60年回顾 总被引:1,自引:1,他引:1
熏蒸剂棉隆和氯化苦于20世纪60年代在我国曾用于棉花黄萎病的防治,由于缺乏施药机械、相关施药标准和方法,加之与国外交流甚少,虽然发现熏蒸剂对土传病害有一定的效果,但一直未形成规模化应用。我国大量使用熏蒸剂进行土壤消毒处理始于20世纪90年代,随着溴甲烷的引进与广泛应用,溴甲烷的替代技术及产品研发,开启了我国土壤熏蒸消毒的新纪元。伴随着土壤消毒技术与理论的不断丰富,新型配套机械装备的成功研发,社会化服务模式的广泛运用,土壤熏蒸消毒在我国进入快速发展时期,大批专业化服务组织应运而生,为我国农作物病虫害的绿色防控、实施乡村振兴战略提供了强有力的技术支撑。该文从土壤熏蒸剂的种类、发展历史、基础理论的建立与阐明3方面综述了我国土壤熏蒸发展情况,并对我国土壤熏蒸消毒未来发展方向提出了展望。 相似文献