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1.
双氟磺草胺的除草活性及对不同小麦品种的安全性评价 总被引:9,自引:4,他引:5
双氟磺草胺为三唑并嘧啶磺酰胺类除草剂,为了明确其在我国北方麦田的应用前景,采用室内生测法研究双氟磺草胺的杀草谱、除草活性及对不同小麦品种安全性。双氟磺草胺对麦田常见阔叶杂草活性较高,对麦田恶性杂草播娘蒿、麦瓶草、麦家公、猪殃殃和荠菜的除草活性均高于常用除草剂苯磺隆,毒力倍数分别为1.56、6.26、1.65、18.27和22.75。济南17和山优2号2种小麦对双氟磺草胺的耐药性分别为苯磺隆的2.57倍和11.66倍。双氟磺草胺在小麦与5种杂草之间的选择性指数(11.16~49.32)远优于苯磺隆。该除草剂对小麦苗期的株高及鲜重有抑制作用,且对不同小麦品种的影响差异显著,其中对临麦2号、济宁13及济南17的株高和鲜重抑制率相对较高,对潍麦8号、山农6号及泰山9818等相对较低。研究表明双氟磺草胺具有很好的应用前景。 相似文献
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建立了同时测定小麦及其土壤中双氟磺草胺和氯氟吡氧乙酸残留的QuEChERS-超高效液相色谱-串联质谱方法,并采用该方法研究了低温冷藏条件下双氟磺草胺和氯氟吡氧乙酸在小麦上的储藏稳定性以及15%双氟磺草胺?氯氟吡氧乙酸悬乳剂在小麦和土壤中的最终残留及消解动态。结果表明:在添加水平为0.005~1 mg/kg范围内,双氟磺草胺和氯氟吡氧乙酸在小麦及土壤中的平均回收率在82%~108%之间,相对标准偏差在0.41%~11%之间 (n=5) ,均能满足农药残留分析的要求。在 –20℃下储藏365 d后,麦粒中双氟磺草胺和氯氟吡氧乙酸的残留量变化小于30%,符合植源性农产品中农药残留储藏稳定性试验准则要求,储藏稳定。双氟磺草胺在小麦植株和土壤中的消解半衰期分别为4.4~8.1 d和2.4~9.3 d;氯氟吡氧乙酸在小麦植株和土壤中的消解半衰期分别为7.9~10.6 d和11.8~24.8 d,即在相同的试验条件下双氟磺草胺在植株和土壤中消解速率快于氯氟吡氧乙酸的。采用推荐剂量有效成分180 g/hm2和推荐高剂量有效成分270 g/hm2的15%双氟磺草胺?氯氟吡氧乙酸悬乳剂于小麦田施药1次,在小麦收获期的麦粒中均未检出双氟磺草胺和氯氟吡氧乙酸残留。 相似文献
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A major factor responsible for the selectivity of chlorsulfuron [2-chloro-N-[(4-methoxy-6-methyl-1,3,5-triazin-2-yl)aminocarbonyl]benzenesulfonamide] (formerly DPX-4189), as a postemergence herbicide for small grains is the ability of the crop plants to metabolize the herbicide. Chlorsulfuron is the active ingredient in Du Pont “Glean” weed killer. Tolerant plants such as wheat, oats, and barley rapidly metabolize chlorsulfuron to a polar, inactive product. This metabolite has been characterized as the O-glycoside of chlorsulfuron in which the phenyl ring has undergone hydroxylation followed by conjugation with a carbohydrate moiety. Sensitive broadleaf plants show little or no metabolism of chlorsulfuron. 相似文献
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为明确小麦田不同杂草群落及防除时间对小麦产量的影响,于2013—2015连续两年在山东省聊城市高唐县小麦田中设无草对照区、禾本科杂草区、阔叶杂草区以及混合杂草自然发生区4种不同杂草群落以及不同的杂草防除时间,测定在不同条件下小麦产量及各项产量构成指标的情况。结果表明,阔叶杂草对小麦产量的影响大于禾本科杂草,冬小麦田杂草的最佳防除时间为4月1日之前,在此期间除草对小麦产量影响均不大,但之后防除或不除草会造成小麦严重减产甚至绝产,2014年4月15日除草可造成在阔叶杂草区和杂草混合生长区的小麦减产30.5%和32.6%,不除草可造成在禾本科杂草区、阔叶杂草区和杂草混生区的小麦减产8.6%、91.4%和94.3%,2015年趋势和2014年一致。从构成小麦产量的3个指标来看,杂草危害主要影响小麦的总穗数,其次为穗粒数,对千粒重影响最小。 相似文献
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苯磺隆在冬麦田减量施用的试验探讨 总被引:1,自引:0,他引:1
采用随机区组试验方法,选取阔叶杂草分布均匀的地块。苯磺隆设2个浓度,采取不同时间喷药和添加助剂2种方式用药,以不施药为对照,综合评价不同处理的防效及对小麦生长的影响,探讨苯磺隆在南疆地区冬麦田减量施用的可行性。结果表明,同一施药时间,添加助剂处理对阔叶杂草的防效和小麦产量增幅与不添加助剂处理结果相当;苯磺隆12ga.i./hm2处理4月613施药对阔叶杂草的防效和小麦产量的增幅均优于3月24日施药2浓度处理的防效和产量增幅,与苯磺隆18ga.i./hm2处理的防效和小麦产量增幅相当,在试验条件下对小麦生长安全,无药害。 相似文献
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测定不同剂量的13%2甲4氯钠水剂对小麦田杂草的防除效果及安全性。试验结果表明,2甲4氯钠13%水剂6 930 g/hm2对小麦田阔叶杂草的防效显著,药后30 d的株防效和鲜重防效分别为84.8%和90.3%,且对小麦安全,可以在大田中推广应用。建议在小麦苗后4~5叶期,阔叶杂草2~4叶期进行施药。 相似文献
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Metabolism and selectivity of rice herbicides in plants 总被引:1,自引:0,他引:1
Kenji Usui 《Weed Biology and Management》2001,1(3):137-146
Chemical weed control with effective and highly active herbicides has been very useful and convenient means. It has contributed to stable crop production and is labor saving. Recent herbicides have had characteristics such as high effectiveness without causing environmental pollution or harmful effects, and appropriate herbicides having high activity, low toxicity, high selectivity and being non-persistent have been developed. The metabolism of rice herbicides used mainly in Japan, such as sulfonylurea, chloroacetamide, acylamide, urea, thiocarbamate, pyrazole, triazine, diphenyl ether, phthalimide, phenoxy, aryloxyphenoxypropionate, etc., is reviewed, and its involvement in selectivity is also discussed. The metabolism of herbicides is closely related to their activity and selectivity. Differential herbicide metabolism in plants is a contributing factor of selectivity between crops and weeds. Chemicals that are more detoxified in crops and/or more activated or less detoxified in weeds are considered as being effective and selective herbicides. The metabolism of various types of rice herbicides includes: oxidative reaction (ring and chain hydroxylation, O - and N -dealkylation), hydrolysis and subsequent glucose conjugation, and glutathione conjugation in rice. These detoxicative activities are much higher in rice than weeds in paddies, and this leads to the selectivity of herbicides. Enzymes, oxidase, P-450 mono-oxygenase, esterase, acylamidase, glucosyl transferase, glutathione transferase, etc., play important roles in herbicide metabolism and selectivity. 相似文献
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Imidazolinone-tolerant crops: history, current status and future 总被引:15,自引:0,他引:15
Imidazolinone herbicides, which include imazapyr, imazapic, imazethapyr, imazamox, imazamethabenz and imazaquin, control weeds by inhibiting the enzyme acetohydroxyacid synthase (AHAS), also called acetolactate synthase (ALS). AHAS is a critical enzyme for the biosynthesis of branched-chain amino acids in plants. Several variant AHAS genes conferring imidazolinone tolerance were discovered in plants through mutagenesis and selection, and were used to create imidazolinone-tolerant maize (Zea mays L), wheat (Triticum aestivum L), rice (Oryza sativa L), oilseed rape (Brassica napus L) and sunflower (Helianthus annuus L). These crops were developed using conventional breeding methods and commercialized as Clearfield* crops from 1992 to the present. Imidazolinone herbicides control a broad spectrum of grass and broadleaf weeds in imidazolinone-tolerant crops, including weeds that are closely related to the crop itself and some key parasitic weeds. Imidazolinone-tolerant crops may also prevent rotational crop injury and injury caused by interaction between AHAS-inhibiting herbicides and insecticides. A single target-site mutation in the AHAS gene may confer tolerance to AHAS-inhibiting herbicides, so that it is technically possible to develop the imidazolinone-tolerance trait in many crops. Activities are currently directed toward the continued improvement of imidazolinone tolerance and development of new Clearfield* crops. Management of herbicide-resistant weeds and gene flow from crops to weeds are issues that must be considered with the development of any herbicide-resistant crop. Thus extensive stewardship programs have been developed to address these issues for Clearfield* crops. 相似文献
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On the mechanism of action and selectivity of the corn herbicide topramezone: a new inhibitor of 4-hydroxyphenylpyruvate dioxygenase 总被引:1,自引:0,他引:1
Topramezone is a new, highly selective herbicide of pyrazole structure for the post-emergence control of broadleaf and grass weeds in corn. The biokinetic properties and mode of action of topramezone were investigated in plants of Setaria faberi Herrm, Sorghum bicolor (L.) Moench, Solanum nigrum L. and the crop species corn (Zea mays L.). Within 2-5 days after treatment, topramezone caused strong photobleaching effects on the shoot, followed by plant death of sensitive weeds. The selectivity of topramezone between corn and the weed species has been quantified as above 1000-fold. By virtue of the plant symptoms and the reversal of the effects in Lemna paucicostata L. by adding homogentisate, it was hypothesized that topramezone blocks the formation of homogentisate, possibly through inhibition of 4-hydroxyphenylpyruvate dioxygenase (4-HPPD). Indeed, topramezone strongly inhibited 4-HPPD activity in vitro, with I(50) values of 15 and 23 nM for the enzyme isolated from S. faberi and recombinant enzyme of Arabidopsis thaliana L. respectively. The enzyme activity from corn was approximately 10 times less sensitive. After root and foliar application of [(14)C]topramezone, equivalent to field rates of 75 g ha(-1), the herbicide was rapidly absorbed and systemically translocated in the plant. Only marginal differences between leaf uptake and translocation of topramezone by the weeds and corn were found. Metabolism of foliar-applied [(14)C]topramezone was far more rapid in corn than in the weeds. A more rapid metabolism combined with a lower sensitivity of the 4-HPPD target enzyme contributes to the tolerance of corn to topramezone. 相似文献
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明确草地贪夜蛾的寄主偏好性有利于更好地掌握其田间种群发生动态,指导农业防控。本文分别以玉米、小麦及其田间常见的禾本科杂草为测试对象,研究草地贪夜蛾成虫、幼虫对嗜食寄主及禾本科杂草的选择性和初孵幼虫取食不同植物的存活率。结果表明:草地贪夜蛾成虫产卵具有明显的选择性,在玉米上日均产卵量为(315.59±49.87)粒,占在所有供试植物上总产卵数量的71.17%,显著高于其在玉米田禾本科杂草上的日均产卵量,其在玉米田不同种类杂草上的产卵量差异不显著。草地贪夜蛾成虫在小麦上的日均产卵量为(243.40±18.24)粒,占所有供试植物上总产卵数量的46.98%,且显著高于在麦田禾本科杂草上的产卵量。1~2龄幼虫对玉米和马唐的取食选择率无显著差异,但显著高于玉米田其他杂草;1~3龄幼虫对小麦和节节麦的取食选择率无显著差异,但显著高于麦田其他杂草;对供试杂草的取食选择率随龄期增高逐渐降低,对玉米和小麦的选择性随龄期增加而增强;草地贪夜蛾1龄幼虫在玉米及玉米田禾本科杂草上的存活率无显著差异,最低为95.89%;在小麦及麦田禾本科杂草上,以雀麦上的成活率最低,为85.22%,显著低于小麦和其他禾本科杂草。 相似文献
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小麦田除草剂的长期使用,造成麦田杂草群落发生变化。为建立不同区域优势杂草种类的化学防除技术,本研究采用室内盆栽法测定了14种除草剂对11种冬小麦田阔叶杂草的防除效果。结果表明,灭草松可以较好地防除冬小麦田野老鹳草、牛繁缕、大巢菜、紫堇、小藜、阿拉伯婆婆纳、播娘蒿、猪殃殃、麦家公等阔叶杂草;吡草醚对野老鹳草、牛繁缕、小藜、阿拉伯婆婆纳、播娘蒿、猪殃殃、麦家公、荠菜等8种杂草防效突出。辛酰溴苯腈可很好地防除牛繁缕、大巢菜、小藜、阿拉伯婆婆纳、播娘蒿、麦家公等6种阔叶杂草;唑草酮对野老鹳草、牛繁缕、阿拉伯婆婆纳、播娘蒿、猪殃殃等5种杂草防效突出。这4种除草剂及其适用浓度与其他供试药剂相比杀草谱更为广泛,对阔叶杂草防效较好。根据不同区域优势杂草种类,合理选用高效除草剂进行防除。 相似文献
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The ability of flax and black nightshade to metabolize chlorsulfuron was studied to determine if metabolism contributes to tolerance and to identify any metabolites produced. Plant leaves were treated with [14C]chlorsulfuron for a 24-hr period. The metabolites were extracted, separated by HPLC, and characterized. Mass spectral analysis and independent synthesis confirmed a major metabolite (B-1) as 2-chloro-N-{[4-(hydroxymethyl)-6-methoxy-1,3,5-triazin-2-yl]amino-carbonyl}benzenesulfonamide. A second major metabolite (B) was determined to be a carbohydrate conjugate of B-1. Plants were more tolerant to B-1 applications than to chlorsulfuron. These results suggest that metabolism may be the basis of selectivity to chlorsulfuron for tolerant broadleaf plants as well as for grasses. 相似文献
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Christopher J. Andrews Mark Skipsey Jane K. Townson Carol Morris Ian Jepson Robert Edwards 《Pest management science》1997,51(2):213-222
Using extracts from suspension-cultured cells of soybean (Glycine max cv. Mandarin) as a source of active enzymes, the activities of glutathione transferases (GSTs) catalysing the conjugation of 1-chloro-2,4-dinitrobenzene (CDNB) and selective herbicides were determined to be in the order CDNB≫ fomesafen>metolachlor=acifluorfen>chlorimuron-ethyl. GST activities showed a thiol dependence in a substrate-specific manner. Thus, GST activities toward acifluorfen and fomesafen were greater when homoglutathione (hGSH), the endogenously occurring thiol in soybean, was used as the co-substrate rather than glutathione (GSH). Compared with GSH, hGSH addition either reduced or had no effect on GST activities toward other substrates. In the absence of enzyme, the rates of hGSH conjugation with acifluorfen, chlorimuron-ethyl and fomesafen were negligible, suggesting that rapid hGSH conjugation in soybean must be catalysed by GSTs. GST activities were subsequently determined in 14-day-old plants of soybean and a number of annual grass and broadleaf weeds. GST activities of the plants were then related to observed sensitivities to post-emergence applications of the four herbicides. When enzyme activity was expressed on a mg-1 protein basis, all grass weeds and Abutilon theophrasticontained considerably higher GST activity toward CDNB than soybean. With fomesafen as the substrate, GST activities were determined to be in the order soybean≫Echinochloa crus-galli>Digitaria sanguinalis>Sorghum halepense=Setaria faberi with none of the broadleaf weeds showing any activity. This order related well to the observed selectivity of fomesafen, with the exception of A. theophrasti, which was partially tolerant to the herbicide. Using metolachlor as the substrate the order of the GST activities was soybean>A. theophrasti≫S. halepense>Amaranthus retroflexus>Ipomoea hederacea, with the remaining species showing no activity. GST activities toward metolachlor correlated well with the selectivity of the herbicide toward the broadleaf weeds but not toward the grass weeds. Acifluorfen and chlorimuron-ethyl were selectively active on these species, but GST activities toward these herbicides could not be detected in crude extracts from whole plants. © 1997 SCI 相似文献
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Cinidon-ethyl (BAS 615H) is a new herbicide of isoindoldione structure which selectively controls a wide spectrum of broadleaf weeds in cereals. The uptake, translocation, metabolism and mode of action of cinidon-ethyl were investigated in Galium aparine L, Solanum nigrum L and the tolerant crop species wheat (Triticum aestivum L). When plants at the second-leaf stage were foliarly treated with cinidon-ethyl equivalent to a field rate of 50 g ha−1 for 48 h, the light requirement for phytotoxicity and the symptoms of plant damage in the weed species, including rapid chlorophyll bleaching, desiccation and necrosis of the green tissues, were identical to those of inhibitors of porphyrin synthesis, such as acifluorfen-methyl. The selectivity of cinidon-ethyl between wheat and the weed species has been quantified as approximately 500-fold. Cinidon-ethyl strongly inhibited protoporphyrinogen oxidase (Protox) activity in vitro, with I50 values of approximately 1 nM for the enzyme isolated from the weed species and from wheat. However, subsequent effects of herbicide action, with accumulation of protoporphyrin IX, light-dependent formation of 1-aminocyclopropane-1-carboxylic acid-derived ethylene, ethane evolution and desiccation of the green tissue, were induced by cinidon-ethyl only in the weed species. After foliar application of [14C] cinidon-ethyl, the herbicide, due to its lipophilic nature, was rapidly adsorbed by the epicuticular wax layer of the leaf surface before it penetrated into the leaf tissue more slowly. No significant differences between foliar and root absorption and translocation of the herbicide by S nigrum, G aparine and wheat were found. After foliar or root application of [14C]- cinidon-ethyl, translocation of 14C into untreated plant parts was minimal, as demonstrated by combustion analysis and autoradiography. Metabolism of [14C]cinidon-ethyl via its E-isomer and acid to further metabolites was more rapid in wheat than in S nigrum and G aparine. After 32 h of foliar treatment with 50 g ha−1 of the [14C]-herbicide, approximately 47%, 36%, and 12% of the absorbed radioactivity, respectively, were found as unchanged parent or its biologically low active E-isomer and acid in the leaf tissue of G aparine, S nigrum and wheat. In conclusion, cinidon-ethyl is a Protox-inhibiting, peroxidizing herbicide which is effective through contact action in the green tissue of sensitive weed species. It is suggested that a more rapid metabolism, coupled with moderate leaf absorption, contribute to the tolerance of wheat to cinidon-ethyl. © 1999 Society of Chemical Industry 相似文献
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麦田新型除草剂砜吡草唑的除草活性 总被引:5,自引:0,他引:5
杂草严重影响小麦的丰产丰收,而使用除草剂是麦田杂草防除中最经济有效的手段。砜吡草唑是新型广谱、高活性的苗前土壤处理除草剂。明确砜吡草唑对麦田杂草的除草活性是该药剂在麦田应用的重要内容。本文采用温室盆栽法研究了其对麦田常见杂草的杀草谱及除草活性。研究结果表明:砜吡草唑土壤处理对麦田禾本科杂草鹅观草Roegneria kamoji、多花黑麦草Lolium multiflorum、雀麦Bromus japonicus、棒头草Polypogon fugax、蜡烛草Phleum paniculatum,阔叶杂草大巢菜Vicia sativa、播娘蒿Descurainia sophia、麦家公Lithospermum arvense、泽漆Euphorbia helioscopia具有良好的防除效果,但对节节麦Aegilops tauschii和野燕麦Avena fatua的防除效果略差。在推荐剂量180 g/hm^2下,对鹅观草、多花黑麦草、雀麦、棒头草、蜡烛草、大巢菜、播娘蒿、麦家公、泽漆的株抑制率和鲜重抑制率均可达到90%以上。而对节节麦和野燕麦的ED 90分别为209.54和886.43 g/hm^2,高于砜吡草唑的田间推荐剂量。砜吡草唑具有广泛的杀草谱及较高的除草活性,可作为小麦田杂草化学防除的重要候选药剂。 相似文献
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药液表面张力和黏度对草甘膦药效的影响及其机理研究 总被引:1,自引:0,他引:1
通过添加有机硅助剂和丙三醇调节草甘膦药液的表面张力和黏度,测定其对草甘膦药液液滴的物理性状及生物活性的影响。结果表明:降低药液的表面张力,雾滴的铺展直径增加,干燥时间缩短,药液的黏度以及在杂草叶片表面的最大稳定持留量没有显著性变化;草甘膦对杂草的防效表现为先升高后降低,对阔叶杂草最高目测防效和鲜重防效可提高42%和41%,对禾本科杂草防效可提高37%和37%。增加草甘膦的药液黏度,药液在杂草叶片上的最大稳定持留量增加,表面张力降低,对雾滴的干燥时间和铺展直径影响很小;草甘膦对阔叶杂草最高目测防效和鲜重防效可提高42%和41%,对禾本科杂草的防效可提高42%和42%。适当降低草甘膦药液的表面张力或增加其黏度均可提高其对杂草的防除效果。 相似文献