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《农药学学报》2020,(3)
双唑草酮为中国创制的新型对羟基苯基丙酮酸双氧化酶(HPPD)抑制剂类除草剂,已于2018年取得中国农药登记。为了测定其对麦田抗性杂草荠菜的除草效果,共采集了36个荠菜种群,其中1个敏感种群采自未施用过除草剂的路边,其他35个疑似抗性种群均采自于中国苯磺隆使用历史超过20年的冬小麦田。在温室中采用整株盆栽法测定了荠菜种群对双唑草酮、苯磺隆、双氟磺草胺、甲基二磺隆、唑草酮和2甲4氯的抗性水平。结果表明,有28个种群对苯磺隆产生了抗性,其中种群K16009、K17005、15053和17003表现出高水平抗性。这4个种群对其他除草剂的交互抗性检测试验表明:种群K16009、K17005和15053对双氟磺草胺和甲基二磺隆表现出高水平交互抗性,其抗性指数范围为25-321,其GR50值远高于供试药剂登记的田间推荐剂量;而上述4个抗性种群对双唑草酮、唑草酮和2甲4氯均较为敏感,其GR50值均低于供试药剂登记的田间推荐剂量。唑草酮和2甲4氯也可用于小麦田抗性荠菜种群的防治,但该类药剂对施药时间要求较为严格。本研究结果表明,双唑草酮可有效防除对乙酰羟基酸合成酶(AHAS)类除草剂已经产生抗性的荠菜。 相似文献
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河南省麦田荠菜对苯磺隆的抗性及其交互抗性 总被引:1,自引:0,他引:1
为明确河南省荠菜Capsella bursa-pastoris种群对苯磺隆的抗性水平及其可能存在的抗性机理,应用整株法测定了采自驻马店及南阳等6个荠菜发生严重市的10个荠菜种群对苯磺隆的抗性,扩增和比对了荠菜苯磺隆抗性种群及敏感种群之间靶标酶乙酰乳酸合成酶基因ALS的差异,并使用单剂量法测定了以上种群对双氟磺草胺、啶磺草胺及氟唑磺隆等ALS抑制剂类除草剂的交互抗性。结果表明,驻马店市的汝南县冯湾村(ZMD-1)及平舆县五里路村(ZMD-3)荠菜种群对苯磺隆的抗性倍数分别为3.1和2.5,表现出低水平抗性;驻马店市汝南县赖楼村(ZMD-2)和周口市川汇区文庄村(ZK-1)荠菜种群对苯磺隆的抗性倍数分别为21.7和57.8,表现出高水平抗性;南阳市唐河县上屯村(NY-2)荠菜种群对苯磺隆的抗性倍数为116.5,表现出极高水平抗性,其它种群对苯磺隆仍然较敏感。NY-2、ZMD-2和ZK-1种群的ALS基因第197位氨基酸由脯氨酸(CCT)分别突变为丝氨酸(TCT)、丙氨酸(GCT)和亮氨酸(CTT),其它种群中均未发现有突变产生;这3个种群在氟唑磺隆推荐剂量处理下,死亡率仅为18.9%、23.3%和11.1%,说明已对氟唑磺隆产生了较高水平的交互抗性,其中NY-2种群对双氟磺草胺和啶磺草胺产生了低水平交互抗性,推荐剂量下死亡率分别为82.2%和83.1%。表明ALS基因突变很可能是导致荠菜种群对苯磺隆等ALS抑制剂类除草剂产生抗性的重要原因。 相似文献
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荠菜对乙酰乳酸合成酶抑制剂类除草剂的抗性水平及其分子机制 总被引:1,自引:1,他引:0
为明确荠菜种群对苯磺隆的抗性水平及其靶标抗性产生的分子机制,采用整株水平测定法测定了荠菜对苯磺隆及其他5种乙酰乳酸合成酶(ALS)抑制剂类除草剂的抗性水平,同时扩增和比对了荠菜抗性和敏感种群之间ALS基因的差异。结果显示:与敏感种群15-ZMD-1相比,抗性种群15-ZMD-5对苯磺隆产生了高水平抗性,抗性倍数为219.6;15-ZMD-5种群不同单株中共存在3种突变方式,分别为ALS基因197位点脯氨酸(CCT)突变为亮氨酸(CTT)、574位点色氨酸(TGG)突变为亮氨酸(TTG)以及单株同时发生上述197和574位点的氨基酸突变。15-ZMD-5抗苯磺隆种群对嘧草硫醚、啶磺草胺和氟唑磺隆均产生了高水平的交互抗性,抗性倍数分别为41.2、79.3和87.8;对双氟磺草胺和咪唑乙烟酸产生了低水平的交互抗性,抗性倍数分别为8.5和5.6。分析表明,荠菜抗性种群ALS基因发生的氨基酸突变可能是导致其对ALS抑制剂类除草剂产生抗性的重要原因之一。 相似文献
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为明确山东省冬小麦田猪殃殃Galium aparine对常规除草剂氯氟吡氧乙酸、苯磺隆及双氟磺草胺的抗性水平和抗性种群的乙酰乳酸合成酶(acetolactate synthase,ALS)靶标抗性机理,在温室内采用整株生物测定法测定21个猪殃殃种群对氯氟吡氧乙酸、苯磺隆和双氟磺草胺的抗性水平,同时根据猪殃殃ALS基因序列设计引物,提取猪殃殃高抗种群单株基因组DNA进行测序,并与拟南芥Arabidopsis thaliana敏感型ALS基因进行比对,查找突变位点分析其抗性机理。结果表明,21个猪殃殃种群对氯氟吡氧乙酸均敏感,尚未产生抗性;90.48%的猪殃殃种群已对苯磺隆产生了抗性,其中低抗、中抗和高抗种群分别占总种群数的23.81%、23.81%和42.86%,相对抗性指数最高为1 134.82;71.43%的猪殃殃种群已对双氟磺草胺产生了抗性,其中低抗、中抗和高抗种群分别占总种群数的19.05%、9.52%和38.10%,相对抗性指数最高为87.05。高抗苯磺隆种群XZ-1和LW均发生了ALS基因第197位氨基酸功能位点的突变,其中XZ-1种群发生了CCC(脯氨酸)到TCC(丝氨酸)... 相似文献
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为明确天津市小麦田荠菜种群对双氟磺草胺的抗性情况及可能的抗性机理,本研究在天津市静海区、武清区、宝坻区及蓟州区等荠菜发生严重地区的小麦田共采集到6个荠菜种群,采用整株水平测定法测定了6个荠菜种群对双氟磺草胺的抗性水平,并扩增、比对了其靶标乙酰乳酸合成酶 (ALS) 基因部分片段的差异。结果表明:6个荠菜种群对双氟磺草胺均产生了高抗性,抗性倍数在11.4~47.2之间。对抗性和敏感种群的ALS基因片段进行测定比对发现,6个荠菜种群ALS基因197位氨基酸均由脯氨酸 (CCT) 突变为丝氨酸 (TCT),该突变可能是导致荠菜种群对双氟磺草胺产生抗性的重要原因之一。 相似文献
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为明确看麦娘对乙酰辅酶A羧化酶(ACCase)抑制剂类除草剂的抗性现状,在安徽省看麦娘发生严重的稻茬麦田共采集30个种群,采用整株生物测定法分别测定了其对精噁唑禾草灵、炔草酯和唑啉草酯3种ACCase类除草剂的抗性水平。另选择三甲苯草酮、啶磺草胺等7种茎叶处理剂针对发现的高抗种群AHCZ-2进行了生物活性测定,同时将5种药剂与异丙隆混用开展了田间药效评价。结果显示:供试30个田间看麦娘种群中,26个种群对精噁唑禾草灵表现为高水平抗性,占供试种群总数的86.67%,GR50值(有效成分,下同)在230.93~1755.54 g/hm2之间,抗性指数(RI)达12.58~95.66;21个种群对炔草酯表现为高水平抗性,占种群总数的70.00%,GR50值在147.18~1213.44 g/hm2之间,RI达11.93~98.36;19个种群对唑啉草酯表现为高水平抗性,占种群总数的63.33%,GR50值在107.63~614.18 g/hm2之间,RI达12.21~69.69;此外,采自相同地区的看麦娘... 相似文献
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河北省小麦田杂草调查及药剂防除播娘蒿研究 总被引:2,自引:0,他引:2
《中国植保导刊》2015,(9)
分别在2013和2014年对河北省邯郸、邢台、石家庄、保定、廊坊、沧州、唐山市小麦田杂草进行了调查,明确了河北省小麦田杂草的种类组成及群落结构,并选取播娘蒿作为靶标,进行了田间药效试验。调查区域小麦田共有杂草60种,隶属于22科57属。其中,单子叶植物2科,22属,22种;双子叶植物20科,35属,38种。播娘蒿、荠菜、雀麦、藜、田旋花为河北省小麦田优势杂草。田间药效试验表明,供试药剂37%苄嘧磺隆·唑草酮·炔草酯可湿性粉剂、70.5%2甲4氯钠·唑草酮可湿性粉剂、34%唑草酮·氯氟吡氧乙酸可湿性粉剂、6%双氟磺草胺·唑草酮油悬浮剂以及16%双氟磺草胺·氯氟吡氧乙酸异辛酯油悬浮剂处理对播娘蒿的防除效果均较好,药后28 d株防效和鲜重防效普遍在90%左右,持效期较长;而75%苯磺隆颗粒剂单独施用对播娘蒿防效较差,施药28 d后株防效65.00%,鲜重防效58.60%,但是当苯磺隆与助剂有机硅或松油酯共同施用时,防效显著提高。 相似文献
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筛选出高效除草剂是有效防治麦田主要杂草播娘蒿与荠菜的前提。采用随机区组试验设计方法,在田间测定75%苯磺隆·双氟磺草胺水分散粒剂(water dispersible granule,简称WDG)对小麦田播娘蒿与荠菜的防治效果和对小麦的安全性。结果表明,施药后45 d,75%苯磺隆·双氟磺草胺WDG 33.75、39.38、45.00、78.75 g a.i./hm~2剂量下对2种杂草总株数防效为66.6%、77.6%、78.1%、80.5%,总鲜质量防效分别为95.8%、96.5%、97.4%、97.7%,均高于对照药剂75%苯磺隆可湿性粉剂(wettable powder,简称WP)22.50 g a.i./hm~2和50 g/L双氟磺草胺悬浮剂(suspension concentrate,简称SC)4.50 g a.i./hm~2对杂草的防效。75%苯磺隆·双氟磺草胺WDG 4个处理区小麦的穗数、穗粒数、千粒质量和产量均显著高于空白对照区,除33.75 g a.i./hm~2处理外,其他处理区小麦增产5%以上。综上所述,苯磺隆·双氟磺草胺WDG推荐剂量为33.75 g a.i./hm~2,对小麦田播娘蒿与荠菜均有较好的防效,对小麦安全。 相似文献
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Hai lan CuiXiangju Li Guiqi WangJianping Wang Shouhui WeiHongyu Cao 《Pesticide biochemistry and physiology》2012,102(3):229-232
The increasing use of AHAS-inhibiting herbicides has resulted in evolved resistance in key dicot weeds infesting cereal cropping systems worldwide. Shepherd’s purse (Capsellabursa-pastoris) is a common dicot weed species in wheat in China with populations that have evolved resistance to the AHAS herbicide tribenuron-methyl. The seeds of eight resistant populations were collected from wheat fields and one susceptible population from road side in Hebei province of China. All eight populations showed high level resistance to tribenuron-methyl with resistance indices of over 100 fold based on whole plant dose response assays in the greenhouse. Comparison of the AHAS gene sequences of the susceptible and resistant populations with Arabidopsis revealed that proline at position 197 of the AHAS gene was substituted by threonine in population CAPBU-HB-2, serine in populations CAPBU-HB-3, CAPBU-HB-4, CAPBU-HB-5, and CAPBU-HB-6, leucine in population CAPBU-HB-7 and CAPBU-HB-8, histidine in population CAPBU-HB-9. The study confirmed tribenuron-methyl resistance in shepherd’s purse in Hebei province of China due to target site mutations at AHAS codon position 197. 相似文献
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Diclofop-resistant Lolium species (ryegrass) is a major weed problem in wheat production worldwide. This study was conducted to determine the resistance pattern of diclofop-resistant ryegrass accessions from the southern United States to mesosulfuron-methyl, a recently commercialized herbicide for ryegrass control in wheat; to determine the cross-resistance pattern of a Lolium multiflorum Lam. (Italian ryegrass) accession, 03-1, to acetolactate synthase (ALS) and acetyl-CoA carboxylase (ACCase) inhibitors; and to determine the resistance mechanism of Italian ryegrass to mesosulfuron-methyl. Seventeen ryegrass accessions from Arkansas and Louisiana, including standard resistant and susceptible accessions, were used in this experiment. Fourteen of the 17 accessions were more resistant (four- to > 308-fold) to diclofop than the standard susceptible biotype. One accession, 03-1, was resistant to mesosulfuron-methyl as well as to other ALS inhibitor herbicides such as chlorsulfuron, imazamox and sulfometuron. Accession 03-1, however, did not show multiple resistance to the ACCase inhibitor herbicides diclofop, fluazifop, clethodim, sethoxydim and pinoxaden, nor to glyphosate. The in vivo ALS activity of the 03-1 biotype was less affected by mesosulfuron-methyl than the susceptible biotype. This indicates that the resistance mechanism of Italian ryegrass to mesosulfuron-methyl is partly due to an alteration in the target enzyme, ALS. It is concluded that diclofop-resistant ryegrass in the southern United States can be generally controlled by mesosulfuron-methyl. However, mesosulfuron-methyl must be used with caution because not all ryegrass populations are susceptible to it. There is a need for more thorough profiling of ryegrass resistance to herbicides. 相似文献
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Molecular basis of resistance to tribenuron-methyl in Descurainia Sophia (L.) populations from China
Xue jing HanYi Dong Xiao na SunXue feng Li Ming qi Zheng 《Pesticide biochemistry and physiology》2012,104(1):77-81
Two Descurainia Sophia populations, HB16 and HB08, were discovered in China and exhibit high resistance levels to tribenuron-methyl. Resistance ratio values of HB16 and HB08 were 153.47 and 651.20, respectively. The extractable acetohydroxy acid synthase (AHAS) activity was similar between resistant and susceptible populations. However, AHAS from HB16 and HB08 was less sensitive to inhibition of tribenuron-methyl comparing to susceptible population. The tribenuron-methyl I50 values for HB16 and HB08 were 46.25 and 54.07 greater than that for susceptible population respectively. Pro-197-Ser and Pro-197-Leu mutations were identified in AHAS extracted from HB16 and HB08 plants respectively. AHAS insensitivity of resistant D. Sophia caused by Pro197 mutation could be responsible for high resistance to tribenuron-methyl. 相似文献
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基于登记用量分析我国四大主粮作物田除草剂的登记现状 总被引:1,自引:0,他引:1
为除草剂合理减施提供数据参考,本研究于2019年7月3日自中国农药信息网查询我国四大主粮作物——小麦、水稻、玉米和马铃薯登记的除草剂,并对这4种作物田登记除草剂单剂(含原药)及混剂的条目数量进行整体分析,并对所有单剂有效成分以及不同剂型的登记条目数量进行分析,筛选出高用量单剂有效成分,分别从剂型和防治对象上进行用量分析,再将用量最高的4种有效成分、3种作物和3种防治对象进行组合,对已登记的组合进行用量分析。结果显示:有效成分用量最大值、均值和范围排序均依次为水稻田、小麦田、玉米田和马铃薯田,并选出15种高用量单剂有效成分,其中2甲4氯钠、2,4-滴钠盐、苯磺隆、丙草胺、丁草胺、2,4-滴二甲胺盐和2甲4氯二甲胺盐等存在用量差异大、异常高值点多的问题;登记除草剂单剂有效成分用量最高的剂型为可溶粉剂,用量最高的防治对象为阔叶杂草和莎草科杂草;2甲4氯钠-水稻-阔叶杂草和2甲4氯钠-水稻-莎草科杂草组合用量差异大且离群高值点多,究其原因可能与剂型、厂家有关。为减少除草剂用量,建议在最低有效剂量研究基础上,选择有效成分用量较低的除草剂品种。 相似文献