共查询到20条相似文献,搜索用时 62 毫秒
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MOHAMMAD AKHTAR 《Integrated Pest Management Reviews》1997,2(4):187-197
Efficient management of plant-parasitic nematodes requires the carefully integrated combination of several methods. Although each individual method of management has a limited use, together, they help in reducing the nematode populations in agricultural soils or in plants. A public desire for methods of managing plant pests in ways that do not pollute or otherwise degrade the environment has increased concomitantly with progress in research. Integrated pest management (IPM) provides a working methodology for pest management in sustainable agriculutural systems. In this paper, current methods for the management of plant-parasitic nematodes are discussed within the guidelines of IPM. The emphasis is on the methods by which decisions are made to manage nematode problems with the most effective and widely used management strategies. The advantages and difficulties associated with nematicidal chemicals (i.e. cost, reinfestation of soil after harvest, contamination of ground water and residues in fruits and vegetables), biological control (by predatory or parasitic fungi and nematodes) and management with cultural methods (including the use of uncontaminated plants or seeds, crop rotation, modification of sowing and/or harvesting times, trap crops and resistant varieties etc.) are considered 相似文献
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Testing banker plants for biological control of mites on roses 总被引:1,自引:0,他引:1
Pia Parolin Cécile Bresch Gauthier Ruiz Nicolas Desneux Christine Poncet 《Phytoparasitica》2013,41(3):249-262
We tested whether plant species used in a banker plant system influence the success of a biological control program with predatory mites. Banker plants (BP) may sustain a reproducing population of predators and provide long-term pest suppression. In an experiment lasting 12 weeks, we analyzed the responses of the predatory mite Amblyseius californicus and the pest mite Tetranychus urticae to eight species of potential BP with different morphological structures. Every BP was paired with a rose plant and infested with pest and predatory mites. The measured parameters were vitality and growth of the plants and numbers of predators, pests and their eggs. Reproduction and establishment of the pest and predatory mites differed among plant species as well as plant growth and vitality. Vitis riparia and Viburnum tinus were the most efficient BP in this combination of pest–predator species. Their presence resulted in best health of the rose crops, highest number of predatory mites and lowest number of pests. Both these BP possess domatia which may be responsible for the efficiency in hosting predatory mites. Overall, the species which fulfilled the requirements of a BP best was the local shrub V, tinus, which bore no pests and a very large number of predators and has a compact growth form suited for application in greenhouses. Although our study gives only evidence for an artificial system with a high BP:crop ratio, high numbers of introduced predators and short distances between plants, this study contributes to knowledge of BP systems and to improve the understanding of the criteria for the choice of local plant species to be used as BP for biological control in IPM. 相似文献
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Abstract Comparative field research on transgenic Bt cotton and conventional cotton under different conditions (fields without pesticide inputs, fields managed by farmers with IPM education, fields managed by farmers lacking IPM education) were carried out in Hubei province of China in 2002. The amount of pesticide used on Bt cotton by non-IPM farmers was found to be around three times that used by IPM farmers. IPM farmers made significantly higher net profits from cultivating transgenic Bt cotton in comparison with non-IPM farmers. Other pest management practices had more significant influences on the population dynamics of predatory natural enemies and major insect pests than did the adoption of transgenic Bt cotton in the cotton ecosystem. Our study showed that IPM education, by increasing farmer capacity to critically evaluate inputs and their effects, monitor their fields and make informed decisions on pest management, enabled farmers to reduce pesticide use significantly, so resulting in improved production and profit margin. IPM farmer education thus, contributed to maximising the value of planting transgenic Bt cotton. 相似文献
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Bt作物系统害虫发生演替研究进展 总被引:2,自引:0,他引:2
自1996年以来的20年间,全球商业化种植Bt作物的国家增加到了25个。目前,种植应用的Bt作物主要是Bt棉花和Bt玉米,年种植面积约0.8亿hm2。Bt作物的大面积种植可能会带来害虫发生演替问题,国内外学术界对此高度关注。本文围绕这一核心问题,介绍了国内和国际的研究进展,同时对今后的研究进行了展望。以期为Bt棉花和Bt玉米的持续利用,以及其他Bt作物的推广应用提供经验与借鉴,进一步提升Bt作物在农作物害虫综合治理中的作用和地位。 相似文献
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Cotton is infested by over 30 pests belonging to lepidoptera and coleoptera. Amongst these insects, various bollworms and cotton boll weevil cause economic damage every year. In IPM, pheromones are considered to be an essential component because they are used for detecting the economic threshold levels of pest populations and for mating disruption as a direct pest suppression measure. Pheromones of major pests have been found to be effective, economic and eco-friendly in agro-ecosystems in which cotton is cultivated. 相似文献
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R. J. Hillocks 《Integrated Pest Management Reviews》1995,1(1):31-47
Integrated pest management systems were developed originally in response to the appearance of insect populations with resistance to common insecticides. Cotton with its heavy dependence on insecticidal sprays was one of the first crops in which the effectiveness of control declined due to resistance in the target pests. Although insecticide resistance is more of a problem in large scale production systems, the IPM approach can also benefit the smallholder by reducing the number of sprays required with consequent cost savings. Where crop growth is adversely affected by diseases, competition from weeds or poor management, the full benefit of insecticide spray programmes cannot be realised. To be fully effective, insect control should therefore be integrated with other crop protection activities. This paper reviews the insect pests, diseases and weed problems of cotton in Africa and discusses the possibilities for extending the principles of IPM to cover all the crop protection activities with practical examples drawn from both small scale and larger scale production systems. 相似文献
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近5年来, 我国在害虫变态发育与生殖调控、害虫滞育调控、害虫迁飞、害虫与共生微生物互作、害虫对杀虫剂的抗性、害虫与寄主植物的化学通讯、害虫对植物抗虫性的适应、害虫对作物种植结构调整的响应、害虫对全球气候变化的响应等农业害虫发生新规律新机制解析方面取得了系列重要进展, 同时推进了抗虫作物、RNA农药、行为调控和生态调控等害虫防控新技术与新产品的研发; 提出迁飞性草地贪夜蛾分区治理、多食性盲蝽区域防控、地下害虫韭蛆绿色防控和抗性麦蚜精准化学防控等害虫绿色防控新模式新体系。根据国内外农业害虫综合防治科技发展趋势和中国农业高质量发展现实需求, 我国需进一步重视农业昆虫交叉学科前沿和新兴技术领域, 以产业需求为导向, 强化害虫防控基础理论创新, 创制智能监测预警和绿色防控新技术、新产品, 创新集成区域绿色防控和跨区协同治理技术体系, 为保障国家粮食安全、助力乡村全面振兴提供强有力的植保科技支撑。 相似文献
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Coffee in East Africa (Kenya, Tanzania and Uganda) is an important cash and export crop for small-scale farmers. The crop suffers heavy yield losses due to damage caused by a wide range of indigenous pests (insects, diseases, nematodes and weeds). Current recommended pest control measures include a combination of cultural, resistant/tolerant cultivars and the use of broad spectrum chemical pesticides. Chemical pesticides are far more popular at the farm level than any of the other recommended pest control measures. Coffee pest control strategies are often aimed at individual pests with little consideration of the implications for the total coffee pest complex and its agro-ecosystem. This unilateral approach has resulted in increased pest pressure on coffee and some of its companion crops, outbreak of new pests of coffee, development of pest strains resistant to the cheap and commonly available chemical pesticides, increased environmental problems, increased health risks to man and livestock and an overall increase in the costs of coffee production, thus forcing many farmers to neglect their coffee plantations. Measures to alleviate the above problems, particularly the high production costs, are needed to improve coffee production and increase the cash return to the small-scale farmer. Integrated pest management (IPM) offers the best prospects for solving the above problems. However, lack of national IPM policies, poor extension systems, inefficient research-extension-farmer linkage and the lack of a holistic approach will delay the development and implementation of appropriate, acceptable and sustainable IPM practices. 相似文献
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Charles G. Summers 《Integrated Pest Management Reviews》1998,3(3):127-154
Alfalfa, Medicago sativa L., is among the most prized of forages, and is grown worldwide as a feed for all classes of livestock. It is one of man's oldest crops, and its cultivation probably predates recorded history. In addition to its versatility as a feed, alfalfa is well known for its ability to improve soil structure and, as a legume, is an effective source of biological nitrogen. As a perennial crop, alfalfa has a lifespan approaching 5 years, but in some areas of the world fields may remain productive for considerably longer. Such a long stand life affords ample time for the establishment and development of a diverse community structure by an abundance of organisms. In spite of system perturbations caused by frequent harvests and occasional pesticide applications, an alfalfa field provides a temporal stability which is uncommon among field crops. As a result of this stability, alfalfa supports an immense diversity of flora and fauna which, at times, exceeds that of riparian ecosystems. While most of alfalfa's inhabitants have little or no impact on it as a crop, a few are capable of causing extensive damage. Arthropods, plant pathogens, weeds, vertebrates, and plant parasitic nematodes can all cause significant yield and/or quality reductions and frequently contribute to shortening the productive life of the stand. This paper reviews the major strategies which have been developed to manage many of these alfalfa pests including: host plant resistance; cultural controls, such as harvest strategies, irrigation management, sanitation, planting schedules, and crop rotation; mechanical and physical controls; chemical control; and biological controls. Multiple pest interactions, e.g. insect-insect; insect-disease; insect-weed, and their management are discussed. Potential conflicts arising from the use of strategies which may reduce one pest but exacerbate others are also examined. A cross index of management strategies and their role in managing multiple pests is provided. Computer models, both ecological and economic, and their role in alfalfa pest management are discussed. Selected information sources on alfalfa and alfalfa IPM available over the Internet are listed. Alfalfa's role in the agricultural landscape, as it relates to pests, natural enemies, and pest management in other cropping systems as well as its role in crop rotation, is considered. 相似文献
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诱虫作物在害虫治理中的应用 总被引:3,自引:0,他引:3
诱虫作物主要从物理特性和化学特性两个方面形成比主栽作物更强的引诱力,使主栽作物得以保护。诱虫作物在生产中主要用来诱集害虫、给天敌提供避难和繁殖场所,其作用效果与诱虫作物的品种、播期和田间管理、害虫行为、对天敌的调控、与其他害虫防治方法的有机配合等有重要关系。采用引诱-排斥多策略相结合的方法,研究利用对害虫同时具有诱集和杀灭作用的植物作为诱虫作物,将大大增强诱虫作物在害虫治理中应用的可行性。 相似文献
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J. WAAGE 《EPPO Bulletin》1997,27(1):5-13
Developed and developing countries, for a range of reasons, have strongly endorsed an IPM approach to sustainable pest management. IPM is founded on the self-renewing contribution of natural enemies to pest suppression, or biological control. However, many pests today escape such natural control because they are exotic introductions, and for these pests the introduction of specific biological control agents is a proven and valuable technique. With growing exotic pest problems in agriculture and forestry, due both to increased trade and to the policy of the WTO, with new concern for exotic invasive species affecting biodiversity, and with a booming biocontrol industry, there is a rapid growth of interest in introduced biological control agents (including biopesticides, which are generally still not acknowledged as introductions). To meet this demand for biological control introductions, it is necessary to address issues of research, safety and the rights of governments and peoples to their genetic resources. By and large, Europe has not done this, and this is proving both an opportunity for environmental accidents and a disincentive for sustainable agriculture and conservation. 相似文献
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为建立干旱胁迫对棉花害虫种群增长影响的评价方法,本研究设置1%、3%和5%聚乙二醇6000(PEG-6000)溶液处理4叶期棉花苗,分别模拟轻度、中度、重度干旱胁迫,系统测定并比较分析了棉花植株生理特性及棉蚜种群密度。结果显示:随着PEG-6000浓度增加,棉花地上部分生物量和叶片相对含水量逐渐降低,而棉花植株上的棉蚜种群增长能力和平均密度明显下降。分析表明,干旱胁迫不利于棉花植株生长,进而对棉蚜种群增长产生负面影响。本研究为后续系统研究干旱胁迫对棉花-害虫-天敌互作关系的长期影响及其机制奠定了重要基础。 相似文献
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Allelopathy is a naturally occurring ecological phenomenon of interference among organisms that may be employed for managing weeds, insect pests and diseases in field crops. In field crops, allelopathy can be used following rotation, using cover crops, mulching and plant extracts for natural pest management. Application of allelopathic plant extracts can effectively control weeds and insect pests. However, mixtures of allelopathic water extracts are more effective than the application of single-plant extract in this regard. Combined application of allelopathic extract and reduced herbicide dose (up to half the standard dose) give as much weed control as the standard herbicide dose in several field crops. Lower doses of herbicides may help to reduce the development of herbicide resistance in weed ecotypes. Allelopathy thus offers an attractive environmentally friendly alternative to pesticides in agricultural pest management. In this review, application of allelopathy for natural pest management, particularly in small-farm intensive agricultural systems, is discussed. 相似文献
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郭予元院士带领团队研究人员通过多年协同攻关研究,解析了棉铃虫发生为害规律和自然种群生命表机制,明确了棉铃虫对多种农药抗药性动态并应用于棉田抗药性治理,揭示了黄河流域棉区棉花对不同世代棉铃虫为害的补偿生长规律和防治策略,基于不同世代棉铃虫为害阈值和防治指标创建了准确预报二代棉铃虫发生数量的一代麦田扫网法,开展棉花种质资源抗病虫性鉴定并指导选育多抗棉花系列新品种。通过整合诱杀、选择性杀虫剂、生物农药与化学农药次序使用和局部精准施药等绿色防治技术,组建区域性棉花主要病虫害综合防治技术体系,棉区棉铃虫为害得到有效控制,引领了我国农作物主要病虫害综合防治技术的发展。本文简要回顾了郭予元院士在该领域研究中做出的主要历史贡献。 相似文献
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Bt棉田中绿盲蝽防治技术的研究 总被引:2,自引:0,他引:2
通过设置转Bt棉综防田(种植诱集作物和适当使用农药控制害虫)、对照田(依靠自然天敌控制害虫)和化防田(使用农药控制害虫)3种处理,研究了冀南棉区绿盲蝽与捕食性天敌种群关系及绿盲蝽对棉花生长的影响。结果表明,在Bt棉田,绿盲蝽分别于6月29日、8月14日和9月4日出现了3个发生高峰。其中6月29日综防田、对照田和化防田百株发生量差异不显著(p>0.05);8月14日,对照田的百株虫量显著多于化防田和综防田。差异极显著(p<0.01);9月4日,对照田的虫量达到60头/100株,且不同类型田差异显著(p<0.05)。Bt棉生长前期和中后期,捕食性天敌在综防田的百株天敌量明显高于化防田和对照田,其中6月29日、8月29日和9月9日综防田的天敌量达65、70、75头/100株。分析3种不同类型田绿盲蝽对棉花叶危害株率、落蕾率、落铃率和成铃量影响顺序均为对照田>化防田>综防田,除化防田与综防田的落铃率无显著差异,其余均表现差异显著。 相似文献
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ABSTRACT Measuring and understanding spatial variation of pests is a fundamental component of population dynamics. The resulting maps can drive spatially variable pest management, which we define as precision integrated pest management (IPM). Precision IPM has the potential to reduce insecticide use and slow the rate of resistance development because of the creation of temporally dynamic refuges. This approach to IPM requires sampling in which the objective is to measure spatial variation and map pest density or pressure. Interpolation of spatially referenced data is reviewed, and the influence of sampling design is suggested to be critical to the mapped visualization. Spatial sampling created problems with poor precision and small sample sizes that were partially alleviated with choosing sampling units based on their geostatistical properties, adopting global positioning system technology, and mapping local means. Mapping the probability of exceeding a threshold with indicator kriging is discussed as a decision-making tool for precision IPM. The different types of sampling patterns to deploy are discussed relative to the pest mapping objective. 相似文献
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Ozan Demirozer Kara Tyler‐Julian Joe Funderburk Norm Leppla Stuart Reitz 《Pest management science》2012,68(12):1537-1545
BACKGROUND: The spread of the western flower thrips, Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae), resulted in the worldwide destabilization of established integrated pest management programs for many crops. Efforts to control the pest and the thrips‐vectored tospoviruses with calendar applications of broad‐spectrum insecticides have been unsuccessful. The result has been a classic ‘3‐R’ situation: resistance to numerous insecticides; resurgence of the western flower thrips populations as a result of natural predators and native competitor thrips being eliminated; replacement by various other pests. This paper reports on integrated pest management programs for fruiting vegetables that are effective, economical, ecologically sound and sustainable. RESULTS: The components include the following: define pest status (economic thresholds); increase biotic resistance (natural enemies and competition); integrate preventive and therapeutic tactics (scouting, ultraviolet‐reflective technologies, biological control, compatible insecticides, companion plants and fertility); vertically integrate the programs with other pests; continually communicate latest science‐based management tactics with end‐users. CONCLUSION: These programs have been widely implemented in Florida and have significantly improved the management of western flower thrips and thrips‐transmitted viruses. Copyright © 2012 Society of Chemical Industry 相似文献
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Crops resistant to insect attack offer an alternative strategy of pest control to a total reliance upon chemical pesticides. Transgenic plant technology can be a useful tool in producing resistant crops, by introducing novel resistance genes into a plant species. This technology is seen very much as forming an integral component of a crop management programme. Several different classes of plant proteins have been shown to be insecticidal towards a range of economically important insect pests from different orders; in some cases a role in the defence of specific plant species against phytophagous insects has been demonstrated. Genes encoding insecticidal proteins have been isolated from various plant species and transferred to crops by genetic engineering. Amongst these genes are those that encode inhibitors of proteases (serine and cysteine) and α-amylase, lectins, and enzymes such as chitinases and lipoxygenases. Examples of genetically engineered crops expressing insecticidal plant proteins from different plant species, with enhanced resistance to one or more insect pests from the orders Lepidoptera, Homoptera and Coleoptera are presented. The possibility of ‘pyramiding’ different resistance genes to improve the effectiveness of protection and durability is discussed and exemplified. The number of different crop species expressing such genes is very diverse and ever-increasing. The viability of this approach to crop protection is considered. © 1998 SCI. 相似文献