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1.
小麦是我国主要的粮食作物, 麦田草害的发生与危害严重影响小麦的产量与品质。我国小麦田的禾本科杂草主要包括日本看麦娘、看麦娘、菵草和多花黑麦草等, 田间杂草防除主要依靠化学除草剂。精噁唑禾草灵自20世纪80年代进入我国市场以来, 长期用于小麦田禾本科杂草防除, 已经报道麦田多种禾本科杂草对精噁唑禾草灵产生了高水平抗药性。为更加科学合理地控制小麦田杂草的发生与危害, 一些学者就麦田禾本科杂草对精噁唑禾草灵的抗药性水平监测和抗性机理进行了系统研究。本文系统总结了我国小麦田抗精噁唑禾草灵杂草的发生种群、抗性水平、靶标酶抗性机理与非靶标抗性机理, 还梳理了抗性杂草的交互抗性与多抗性发生情况, 分析了我国在抗性杂草治理方面的经验以及面临的问题, 为农田杂草防除提供指导。 相似文献
2.
千金子是中国直播稻田的优势禾本科杂草之一,严重威胁水稻的产量和品质。为了进一步明确浙江地区水稻田千金子对芳氧苯氧丙酸类除草剂的抗性发生情况,本研究从浙江部分稻区共采集了11个千金子种群 (其中1个为敏感种群),通过整株植物测定法检测了各种群对氰氟草酯和噁唑酰草胺的敏感性。结果显示:共有8个种群对氰氟草酯产生了抗性 (抗性指数为2.1~79.1),9个种群对噁唑酰草胺产生了抗性 (抗性指数为2.0~31.0),其中对氰氟草酯的抗性问题更为显著。在此基础上,通过基因扩增和克隆,对敏感种群和抗性种群的乙酰辅酶A羧化酶 (Acetyl-CoA carboxylase,ACCase) 基因部分序列进行比对,结果在3个抗性种群中发现突变,其中1个种群为Ile-1781-Val突变,另外2个种群则为Trp-2027-Cys突变。该研究结果表明,目前浙江部分稻区千金子种群已对氰氟草酯和噁唑酰草胺产生了抗药性,其中靶标酶基因突变是导致部分种群产生抗药性的原因之一。 相似文献
3.
为明确宁夏地区稻田稗草对乙酰辅酶A羧化酶抑制剂类除草剂氰氟草酯的抗药性水平以及对其他除草剂可能存在的交互抗性与多抗性情况,采用整株生物测定法研究了采自宁夏稻田的36个稗草种群对氰氟草酯的抗药性, 并使用单剂量法测定了各种群对五氟磺草胺、嘧啶肟草醚、噁唑酰草胺、二氯喹啉酸和敌稗的交互抗性及多抗性。结果表明, 以氰氟草酯GR50数值最小的生物型为敏感生物型计算抗性指数(RI), 仅有1个稗草种群在推荐剂量下被完全杀死, RI≤ 3.0; 11个稗草种群的RI范围为3.3~9.4, 表现出低水平抗性, 发生频率为30.56%; 19个种群的RI范围为10.3~58.3, 表现出中等水平抗性; 发生频率为52.78%; 5个稗草种群的RI>100, 表现出高水平抗性, 占比13.89%, 其中采自银川市贺兰县立岗镇通义村的稗草种群抗性水平最高。交互抗性和多抗性研究结果表明, 在田间最高推荐剂量下氰氟草酯对稗草鲜重抑制率低于90%的种群中, 58%的稗草种群对噁唑酰草胺产生了交互抗性, 对五氟磺草胺、嘧啶肟草醚、二氯喹啉酸和敌稗产生多抗性的种群所占百分率分别为94%、100%、100%和18%。研究发现宁夏地区水稻田多数稗草种群对氰氟草酯产生了不同程度的抗药性, 并对其他常用稻田除草剂产生了交互抗性与多抗性, 其中银北地区稗草种群抗药性水平最高, 部分地区稗草抗性已达到高抗水平, 宁夏水稻田亟须抗性稗草综合治理技术的研究。 相似文献
4.
为明确广东省水稻田杂草稗Echinochloa crus-galli对五氟磺草胺的抗性现状及其可能的抗性机理,采用整株剂量反应法测定不同地区稗种群对五氟磺草胺的抗性水平,对不同稗种群的乙酰乳酸合成酶(acetolactate synthase,ALS)基因片段进行扩增测序,分析细胞色素P450酶(cytochrome P450 monooxygenase,P450)和谷胱甘肽-S-转移酶(glutathione-S-transferase,GST)抑制剂胡椒基丁醚(piperonylbutoxide,PBO)和4-氯-7-硝基-2,1,3-苯并氧杂噁二唑(4-chloro-7-nitro-1,2,3-benzoxadiazole,NBD-Cl)对不同稗种群抗性水平的影响,并对替代药剂进行筛选。结果显示,广东省水稻田多数稗种群对五氟磺草胺仍表现敏感,但采自湛江市的1个种群BC-7对五氟磺草胺产生了抗性,抗性倍数达6.5倍。与敏感种群BC-2相比,BC-7种群并未发生已报道的ALS靶标抗性相关突变。PBO和NBD-Cl均可显著提高BC-7种群对五氟磺草胺的敏感性,其干重抑制中量GR50由31.1 g/hm2分别降为11.0 g/hm2和24.7 g/hm2。BC-7种群对氰氟草酯和噁唑酰草胺仍较敏感,但对二氯喹啉酸和双草醚产生了抗性。表明P450和GST介导的代谢抗性是稗BC-7种群产生抗性的重要原因,氰氟草酯和噁唑酰草胺适用于治理该抗性种群。 相似文献
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通过田间试验测定了1%噁嗪草酮悬浮剂(SC)与25 g/L五氟磺草胺可分散油悬浮剂(OD)或10%双草醚悬浮剂(SC)桶混使用对机插秧稻田杂草的防效及水稻的安全性。结果表明:1%噁嗪草酮SC 250、300、350 m L/667 m~2与25 g/L五氟磺草胺OD 80 m L/667 m~2混用,1%噁嗪草酮SC 350 m L/667 m~2与10%双草醚SC 10 m L/667 m~2混用,在水稻移栽后7 d毒土撒施及移栽后13 d茎叶喷雾施用对稗属杂草、千金子、鸭舌草、耳叶水苋、异型莎草等杂草的防效均达91%以上,优于对照移栽前2 d 35%丙草胺·苄嘧磺隆可湿性粉剂(WP)80 g/667 m~2毒土撒施+移栽后7 d 50%苯噻酰草胺·苄嘧磺隆WP 75 g/667 m~2毒土撒施处理、移栽后20 d 60 g/L五氟磺草胺·氰氟草酯OD 100 m L/667 m~2茎叶喷雾处理,移栽后7 d施药处理对杂草的防效高于移栽后13 d施药处理。1%噁嗪草酮SC 250、300、350 m L/667 m~2与25 g/L五氟磺草胺OD 80 m L/667 m~2或10%双草醚SC 10 m L/667 m~2桶混在水稻移栽后7 d或13 d处理对机插秧水稻安全。 相似文献
6.
为明确稻稗对噁唑酰草胺的非靶标抗药性和对氰氟草酯的交互抗药性水平,通过剂量反应试验测定辽宁新民(R_1)、黑龙江虎林(R_2)和黑龙江哈尔滨(R_3)3个稻稗种群对噁唑酰草胺的非靶标抗药性和对氰氟草酯的交互抗药性水平。结果显示,R_1、R_2、R_3在喷施细胞色素P450抑制剂杀草强后对噁唑酰草胺的抗性指数比分别为1.14、1.71、2.38,表明R_1对噁唑酰草胺的抗药性与非靶标P450的活性无关,R_2和R_3对噁唑酰草胺的抗药性可能是靶标与非靶标的共同作用。3个稻稗种群对氰氟草酯的抗性指数分别为25.73、12.79、10.29,表明3个稻稗种群都对氰氟草酯产生了交互抗药性。 相似文献
7.
延边地区稻田抗药性杂草防除技术研究 总被引:1,自引:0,他引:1
2002年在延边稻区首次发现抗磺酰脲类除草剂慈姑以来,稻田陆续出现抗磺酰脲类除草剂的雨久花、藨草、牛毛毡和抗二氯喹磷酸的稻稗生态型。其中,抗性藨草和稻稗生态型仍处于蔓延状态。抗药性特征的分析结果,抗性稻稗生态型的抗二氯喹磷酸程度因地而异,高抗生态型的抗性系数(R90/S90)达到60。在标准使用剂量条件下,有效防除抗二氯喹磷酸稻稗生态型的除草剂有氰氟草酯、五氟磺草胺、丙草胺、丁草胺;有效防除抗磺酰脲类除草剂的慈姑、雨久花、藨草、牛毛毡生态型的除草剂有灭草松、2甲4氯、五氟磺草胺、嘧啶肟草醚、吡唑特。 相似文献
8.
为明确河南省部分地区的多花黑麦草Lolium multiflorum种群对乙酰辅酶A羧化酶(acetylCoA carboxylase,ACCase)和乙酰乳酸合成酶(acetolactate synthase,ALS)抑制剂类除草剂的抗性水平和抗性机理,采用整株生物测定法测定采自新乡市和驻马店市的多花黑麦草种群对ACCase抑制剂类除草剂精噁唑禾草灵、炔草酯、唑啉草酯和ALS抑制剂类除草剂甲基二磺隆、氟唑磺隆、啶磺草胺的抗性水平,并对多花黑麦草ACCase和ALS靶标酶编码基因进行克隆及氨基酸序列比对,分析其靶标抗性机理。结果显示,与多花黑麦草敏感种群HNXX01相比,HNZMD04和HNXX05种群对6种除草剂均产生了抗性,HNZMD04种群对精噁唑禾草灵和啶磺草胺的相对抗性倍数分别为44.65和40.31,对炔草酯和氟唑磺隆的相对抗性倍数分别为11.91和11.93;HNXX05种群对精噁唑禾草灵和氟唑磺隆的相对抗性倍数分别为27.70和25.67。HNZMD04和HNXX05抗性种群的ACCase基因均发生了D2078G突变,2个种群的突变率分别为55%和70%;HNZMD04... 相似文献
9.
噁草·丙草胺40%微乳剂防治水稻移栽田一年生杂草效果测定试验,结果表明,噁草·丙草胺40%微乳剂对以稗草、眼子菜、莎草一年生杂草为主要优势种的水稻田有较好的防效,可在水稻田推广使用,推荐剂量为540~600 g/hm2,方法以兑水甩施为宜,试验时期为水稻插秧后5d。 相似文献
10.
为明确嘧草醚及其相关除草剂混用对移栽田杂草的防效及其对水稻和后茬作物的安全性,于2018年在江西双季稻田进行了田间试验。结果表明:10%嘧草醚WP对稗Echinochloa crus-galli有优异的防除效果,有效剂量45~120 g/hm~2处理药后45 d对早稻和晚稻田稗草的防效均在90%以上,且对水稻和后茬作物油菜、白菜、紫云英、小麦和马铃薯生长安全,但对阔叶类鸭舌草和莎草类异型莎草的防效较差;10%嘧草醚WP分别与10%苄嘧磺隆WP和25 g/L五氟磺草胺OD混用,对早稻和晚稻田稗草、鸭舌草和异型莎草的防效均达91%以上,且对水稻生长安全;而与扑草净混用对杂草的防效略低,且对水稻会产生药害,严重影响产量。因此,对于以稗草为优势种群的水稻田,可选用10%嘧草醚WP 45~60 g/hm~2进行防治;对于禾本科杂草、阔叶杂草和莎草科杂草发生并重的水稻田,可选择10%嘧草醚WP 30~45 g/hm~2与10%苄嘧磺隆WP或25 g/L五氟磺草胺OD 20~30 g/hm~2混用进行治理。 相似文献
11.
Ian M. Heap 《Pest management science》1997,51(3):235-243
The 1995/6 International Survey of Herbicide-Resistant Weeds recorded 183 herbicide-resistant weed biotypes (124 different species) in 42 countries. The increase in the number of new herbicide-resistant weeds has remained relatively constant since 1978, at an average of nine new cases per year worldwide. Whilst 61 weed species have evolved resistance to triazine herbicides, this figure now only accounts for one-third of all documented herbicide-resistant biotypes. Triazine-resistant weeds have been controlled successfully in many countries by the use of alternative herbicides. Due to the economic importance of ALS and ACCase inhibitor herbicides worldwide, and the ease with which weeds have evolved resistance to them, it is likely that ALS and ACCase inhibitor-resistant weeds will present farmers with greater problems in the next five years than triazine-resistant weeds have caused in the past 25 years. Thirty-three weed species have evolved resistance to ALS-inhibitor herbicides in 11 countries. ALS-inhibitor-resistant weeds are most problematic in cereal, corn/soybean and rice production. Thirteen weed species have evolved resistance to ACCase inhibitors, also in 11 countries. ACCase inhibitor resistance in Lolium and Avena spp. threatens cereal production in Australia, Canada, Chile, France, South Africa, Spain, the United Kingdom and the USA. Fourteen weed species have evolved resistance to urea herbicides. Isoproturon-resistant Phalaris minor infesting wheat fields in North West India and chlorotoluron-resistant Alopecurus myosuroides in Europe are of significant economic importance. Although 27 weed species have evolved resistance to bipyridilium herbicides, and 14 weed species have evolved resistance to synthetic auxins, the area infested and the availability of alternative herbicides have kept their impact minimal. The lack of alternative herbicides to control weeds with multiple herbicide resistance, such as Lolium rigidum and Alopecurus myosuroides, makes these the most challenging resistance problems. The recent discovery of glyphosate-resistant Lolium rigidum in Australia is a timely reminder that sound herbicide-resistant management strategies will remain important after the widespread adoption of glyphosate-resistant crops. ©1997 SCI 相似文献
12.
Rabiatuladawiyah Ruzmi Muhammad S. Ahmad‐Hamdani Baki B. Bakar 《Weed Biology and Management》2017,17(1):3-16
The management of weeds in Malaysian rice fields is very much herbicide‐based. The heavy reliance on herbicide for weed control by many rice‐growers arguably eventually has led to the development and evolution of herbicide‐resistant biotypes in Malaysian rice fields over the years. The continuous use of synthetic auxin (phenoxy group) herbicides and acetohydroxyacid synthase‐inhibiting herbicides to control rice weeds was consequential in leading to the emergence and prevalence of resistant weed biotypes. This review discusses the history and confirmed cases and incidence of herbicide‐resistant weeds in Malaysian rice fields. It also reviews the Clearfield Production System and its impact on the evolution of herbicide resistance among rice weed species and biotypes. This review also emphasizes the strategies and management options for herbicide‐resistant rice field weeds within the framework of herbicide‐based integrated weed management. These include the use of optimum tillage practices, certified clean seeds, increased crop competition through high seeding rates, crop rotation, the application of multiple modes of action of herbicides in annual rotations, tank mixtures and sequential applications to enable a broad spectrum of weed control, increase the selective control of noxious weed species in a field and help to delay the resistance evolution by reducing the selection pressure that is forced on those weed populations by a specific herbicidal mode of action. 相似文献
13.
近年我国农田杂草防控中的突出问题与治理对策 总被引:7,自引:0,他引:7
我国田园杂草有1 400多种,严重危害的130余种,恶性杂草37种。我国杂草发生面积约9 246.7万hm2次,防治面积1.04亿hm2次,挽回粮食损失2 699万t,每年主粮作物仍有近300万t产量损失。杂草防控中的突出问题是:杂草群落演替,难治杂草种群增加;除草剂单一使用,杂草抗药性发展迅速;除草剂对作物药害频发,影响种植结构调整;新除草剂创制能力不足,难以满足不同作物田除草需求;农村劳动力短缺,杂草防控更依赖于化学防治。解决上述问题,应实施以下对策:加强杂草发生危害的监测预警,科学轮换使用除草剂,推广除草剂减量与替代技术,加快新除草剂研制及推广应用,加速耐除草剂作物商业化进程,推进统防统治及农民培训。 相似文献
14.
ZE PU ZHANG 《Weed Biology and Management》2003,3(4):197-203
More than 200 species of weeds are infesting main crop fields in China, among which approximately 30 species are major weeds causing great crop yield losses. About 35.8 million hectares of crop fields are heavily infested by weeds and the annual reduction of crop yields is 12.3–16.5% (weighted average). Along with rural economic development, approximately 50% of the main crop fields undergo herbicide application. Chemical weed control has changed cultural practices to save weeding labor in rice, wheat, maize, soybeans and cotton. At the same time, continuous use of the same herbicides has caused weed shift problems and weed resistance to herbicides. Consequently, integrated weed management in main crops is being developed. 相似文献
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Taking stock of herbicide-resistant crops ten years after introduction 总被引:11,自引:0,他引:11
Duke SO 《Pest management science》2005,61(3):211-218
Since transgenic, bromoxynil-resistant cotton and glufosinate-resistant canola were introduced in 1995, planting of transgenic herbicide-resistant crops has grown substantially, revolutionizing weed management where they have been available. Before 1995, several commercial herbicide-resistant crops were produced by biotechnology through selection for resistance in tissue culture. However, non-transgenic herbicide-resistant crops have had less commercial impact. Since the introduction of glyphosate-resistant soybean in 1996, and the subsequent introduction of other glyphosate-resistant crops, where available, they have taken a commanding share of the herbicide-resistant crop market, especially in soybean, cotton and canola. The high level of adoption of glyphosate-resistant crops by North American farmers has helped to significantly reduce the value of the remaining herbicide market. This has resulted in reduced investment in herbicide discovery, which may be problematic for addressing future weed-management problems. Introduction of herbicide-resistant crops that can be used with selective herbicides has apparently been hindered by the great success of glyphosate-resistant crops. Evolution of glyphosate-resistant weeds and movement of naturally resistant weed species into glyphosate-resistant crop fields will require increases in the use of other herbicides, but the speed with which these processes compromise the use of glyphosate alone is uncertain. The future of herbicide-resistant crops will be influenced by many factors, including alternative technologies, public opinion and weed resistance. Considering the relatively few recent approvals for field testing new herbicide-resistant crops and recent decisions not to grow glyphosate-resistant sugarbeet and wheat, the introduction and adoption of herbicide-resistant crops during the next 10 years is not likely to be as dramatic as in the past 10 years. 相似文献
18.
The available literature on weed problems and weed control in rice fields in Malaysia is reviewed and suggestions for future research are included. The problem of weed competition with rice is of great economic importance in the country because it causes a 10–35% reduction in grain yield. About US$4.10 million is spent annually on herbicides for rice alone, and this amounts to approximately 7% of the total expenditure on herbicides. The shift in methods of rice culture from transplanting to direct seeding has magnified the weed problem. The problem of weedy rice is particularly acute in the direct-seeding rice areas. Although a number of sulfonylurea herbicides (e.g. cinosulfuron, metsulfuron, bensulfuron and pyrazosulfuron) have been found to be suitable alternatives to the old herbicide 2,4-D, an integrated weed management program must be developed in order to reduce the problem of herbicide resistance in weeds. Weed control methods that are more friendly to the environment and affordable to farmers must be sought. Weed-competitive and allelopathic rice varieties must be produced. The problem of weeds in rice calls for systematic studies on biotechnological methods of control of weedy rice. Detailed studies on the biology and ecology of notorious rice weeds, particularly Oryza sativa L. (weedy rice), Echinochloa spp., Leptochloa chinensis (L.) Nees, Fimbristylis miliacea (L.) Vahl. and Limnocharis flava (L.) Buch. need to be done in order to formulate successful weed control measures. 相似文献