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不同除草剂对稻田杂草群落演替的影响 总被引:7,自引:1,他引:7
为了明确除草剂对稻田杂草群落演替的影响,2001~2004年,连续4年施用7种稻田除草剂控制移栽稻田杂草,每年调查稻田杂草的种类、密度和鲜重,分析稻田杂草种群的变化.结果表明:连续使用同一除草剂对稻田杂草群落演替影响显著,靶标杂草的优势度值与药剂使用年限存在显著的线性或非线性关系:Y=a+bx或Y=ax^2+bx+c;非靶标杂草优势度值与药剂使用年限呈极显著正相关线性关系.不同药剂处理的杂草群落有一定的差异,连续使用二元复配除草剂,杂草群落的均匀度和多样性指数分别为0.40~0.43和1.57~1.84,明显低于单剂处理和对照区,田间主要杂草是陌上菜、水苋、千金子和水莎草,其杂草的鲜重显著低于其它处理. 相似文献
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四川省麦田杂草发生及其化学防除现状 总被引:1,自引:0,他引:1
四川地处中国西南内陆,地跨亚热带至亚寒带气候带,四川麦类种植以冬小麦为主,另有少量春小麦、大麦,种植面积133.3万hm2左右,草害发生面积106.7万hm2以上,目前化除面积占栽培面积的60%以上.四川省麦田杂草种类有80种以上,分属20余科,以禾本科、菊科、十字花科、石竹科杂草种类居多.由于耕作制度改变及多年连续使用同类除草剂,农田杂草种群变化和群落演替加速.除草剂品种亦从以前的几个老品种发展到现在的20多个品种,特别是引进了苯磺隆、精(噁)唑禾草灵、炔草酸等安全高效的新型除草剂,基本满足了四川省麦田化除的需要. 相似文献
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江苏省稻田杂草群落演替趋势及防除对策 总被引:3,自引:0,他引:3
江苏省稻田杂草有69种,分属27科,重要恶性杂草有稗,扁秆蔗草,矮慈姑,眼子菜。水莎草,鲤肠等10多种,由这些杂草组成不同的主要杂草组合8个,由于化学除草的普及和连年使用单一除草剂,以及轮,耕作制度,栽培方式变革等原因,造成阔叶杂草上或,特别是多年生恶性杂草上升、稗草发生波动的群落演替趋势。稻田杂草的防除对策应在掌握杂草群落组合分布的基础上,以应用一次性高效,广谱复配方除草剂为主体,结合一定的农世 相似文献
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除草剂的应用为农业生产带来便利, 但长期、单一使用某一种或相同机制的除草剂也引发了杂草对除草剂的抗性问题。抗性杂草种类逐渐增加, 抗性形成机制复杂, 导致农田杂草的治理难度增加。杂草对除草剂的抗性机制主要分为两种, 一种是除草剂靶标位点基因的突变或过量表达导致的靶标抗性, 另一种是杂草对除草剂吸收、转运、固存和代谢等一个或多个生理过程发生变化导致的非靶标抗性。本文综述了杂草对9类不同作用方式除草剂的非靶标抗性机制的生理、生化和分子基础的研究进展, 以期为抗性杂草综合治理提供参考。 相似文献
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浙江省稻田杂草群落及其演替 总被引:7,自引:0,他引:7
浙江省稻田杂草优势群落,早稻为稗草群落,晚稻田为阔叶草群落。随着化学除草剂使用的延长,稻田杂草群落的演替速度加快,群落结构中的多年生难除草四叶萍、水莎草、双穗省稗和空心莲子草的发生频度明显增加。 相似文献
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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
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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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Real-time weed detection, decision making and patch spraying in maize, sugarbeet, winter wheat and winter barley 总被引:5,自引:0,他引:5
Information on temporal and spatial variation in weed seedling populations within agricultural fields is very important for weed population assessment and management. Most of all, it allows a potential reduction in herbicide use, when post‐emergence herbicides are only applied to field sections with weed infestation levels higher than the economic weed threshold; a review of such work is provided. This paper presents a system for site‐specific weed control in sugarbeet (Beta vulgaris L.), maize (Zea mays L.), winter wheat (Triticum aestivum L.) and winter barley (Hordeum vulgare L.), including online weed detection using digital image analysis, computer‐based decision making and global positioning systems (GPS)‐controlled patch spraying. In a 4‐year study, herbicide use with this map‐based approach was reduced in winter cereals by 60% for herbicides against broad‐leaved weeds and 90% for grass weed herbicides. In sugarbeet and maize, average savings for grass weed herbicides were 78% in maize and 36% in sugarbeet. For herbicides against broad‐leaved weeds, 11% were saved in maize and 41% in sugarbeet. 相似文献
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Information on temporal and spatial variation in weed seedling populations within agricultural fields is very important for weed population assessment and management. Primarily, spatial information allows a potential reduction in herbicide use, when post‐emergent herbicides are only applied to field sections with high weed infestation levels. This paper presents a system for site‐specific weed control in sugar beet, maize, winter wheat, winter barley, winter rape and spring barley. The system includes on‐line weed detection using digital image analysis, computer‐based decision making and Global Positioning System‐controlled patch spraying. In a 2‐year study, herbicide use with this map‐based approach was reduced in winter cereals by 6–81% for herbicides against broad leaved weeds and 20–79% for grass weed herbicides. Highest savings were achieved in cereals followed by sugar beet, maize and winter rape. The efficacy of weed control varied from 85% to 98%, indicating that site‐specific weed management will not result in higher infestation levels in the following crops. 相似文献
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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
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There has been a significant increase in the area seeded to minimum- and zero-tilled crops worldwide over the past two decades. These cropping systems rely primarily on the non-selective herbicides glyphosate or paraquat/diquat to control weeds before seeding the crop. Both glyphosate and paraquat/diquat are regarded as low-risk herbicides in the ability of target weeds to develop resistance to them. Following 10–15 years of once annual applications of paraquat and diquat for weed control in zero-tilled cereals, failure of these herbicides to control Hordeum glaucum Steud. in two separate fields occurred. Dose–response experiments demonstrated high-level resistance to paraquat and diquat in both populations; however, the resistant biotypes are susceptible to other herbicides. This is the first report, worldwide, of paraquat resistance following the use of this herbicide in zero-tillage cropping systems and is therefore a harbinger of future problems in minimum-tillage systems when there is exclusive reliance on a contact herbicide for weed control. 相似文献
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当前我国水稻田登记的除草剂活性成分组合共204种, 包括55种单剂和149种复配剂?在总结各种稻田除草剂应用技术要素的基础上, 提出稻田除草剂选用中具有普遍性的6个关键问题, 包括:水稻栽培方式?稻田除草剂施用时期?施用方法?稻田主要禾本科杂草种类?稻田非禾本科主要杂草类型?田间杂草生育期; 基于各种除草剂品种对应上述6个问题上的应用特点, 开发了“稻田除草剂选用参考系统”, 该手机软件共1.8 MB, 可以在安卓手机上安装使用?该软件可以根据用户在上述6个问题上的选项组合, 直接获得适用除草剂品种清单; 也可以根据用户输入除草剂名称所含字词, 检索相关的除草剂品种清单?此外, 软件中列出了每种除草剂的使用技术要点? 相似文献
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Simulation of herbicide use in a crop rotation with transgenic herbicide-tolerant oilseed rape 总被引:4,自引:1,他引:3
The potential impact of herbicide-tolerant winter oilseed rape ( Brassica napus L.) on future herbicide use was investigated with a simulation model. The model uses a sigmoid function to simulate the growth of crops and weeds that compete for a maximum yield potential. Thresholds for weed control are based upon critical levels of weed biomass. The dynamics of the weed population are determined by the efficacy of representative herbicides on individual weed species and by seedbank parameters. Herbicide efficacy is determined by a log-logistic dose–response curve for each species. Simulation of a rotation with winter oilseed rape/wheat/wheat/barley showed contradictory predictions of herbicide use, because herbicide use in a rotation with either glyphosate- or glufosinate-tolerant oilseed rape was not reduced in the amount of kg a.i. ha–1 compared with a traditional treatment, whereas the treatment frequency (number of standard recommended doses per unit area) decreased. 相似文献