The integrated control concept and its relevance to current integrated pest management in California fresh market grapes

The foundation of an integrated pest management program involves valid treatment thresholds, accurate and simple monitoring methods, effective natural controls, selective pesticides and trained individuals who can implement the concept. The Integrated Control Concept written by Stern, Smith, van den Bosch and Hagen elucidated each of these points in an alfalfa ecosystem. Alfalfa hay (Medicago sativa L.) has a low per acre value, requires little hand labor and is primarily marketed in the USA. In contrast, fresh market table grape (Vitis vinifera L.) has a high per acre value, requires frequent hand labor operations, suffers unacceptable cosmetic damage and is marketed throughout both the USA and the world. Each of the components of a working IPM program is present in table grape production. Marketing grapes to foreign countries presents special problems with pests considered invasive and where residue tolerances for some selective insecticides are lacking. However, fresh market grape farmers are still able to deal with these special problems and utilize an IPM program that has resulted in a 42% reduction in broad‐spectrum insecticide use from 1995 to 2007. Copyright © 2009 Society of Chemical Industry     

番茄潜叶蛾综合防控技术研究进展

番茄潜叶蛾Phthorimaea absoluta Meyrick起源于南美洲的秘鲁,是一种世界检疫性入侵害虫,目前已经扩散到全球100多个国家,严重威胁全球番茄产业。该虫于2017年入侵我国新疆伊犁,之后在南方多个省份相继被发现,且呈现扩散趋势,危害范围加大。本文从农业防治、化学防治、生物防治、物理防治等方面总结番茄潜叶蛾原发地和入侵国的防治进展及治理经验,并结合我国实际提出建议,为国内番茄潜叶蛾的有效治理和抑制其扩散提供参考。     

Integrated pest management and weed management in the United States and Canada

There is interest in more diverse weed management tactics because of evolved herbicide resistance in important weeds in many US and Canadian crop systems. While herbicide resistance in weeds is not new, the issue has become critical because of the adoption of simple, convenient and inexpensive crop systems based on genetically engineered glyphosate‐tolerant crop cultivars. Importantly, genetic engineering has not been a factor in rice and wheat, two globally important food crops. There are many tactics that help to mitigate herbicide resistance in weeds and should be widely adopted. Evolved herbicide resistance in key weeds has influenced a limited number of growers to include a more diverse suite of tactics to supplement existing herbicidal tactics. Most growers still emphasize herbicides, often to the exclusion of alternative tactics. Application of integrated pest management for weeds is better characterized as integrated weed management, and more typically integrated herbicide management. However, adoption of diverse weed management tactics is limited. Modifying herbicide use will not solve herbicide resistance in weeds, and the relief provided by different herbicide use practices is generally short‐lived at best. More diversity of tactics for weed management must be incorporated in crop systems. © 2014 Society of Chemical Industry     

生物防治——害虫综合防治的重要内容

本文阐述了生物防治在综合防治中的重要性和如何全面正确认识生物防治技术。指出生物防治技术在生产上的成功应用,必须要注意与其他植保技术协调。文章还介绍了国内外成功的生防实例和生防必须遵循的基本原则。     

Plant training for induced defense against insect pests: a promising tool for integrated pest management in cotton

Enhancing cotton pest management using plant natural defenses has been described as a promising way to improve the management of crop pests. We here reviewed various studies on cotton growing systems to illustrate how an ancient technique called plant training, which includes plant topping and pruning, may contribute to this goal. Using examples from cotton crops, we show how trained plants can be brought to a state of enhanced defense that causes faster and more robust activation of their defense responses. We revisit the agricultural benefits associated with this technique in cotton crops, with a focus on its potential as a supplementary tool for integrated pest management (IPM). In particular, we examine its role in mediating plant interactions with conspecific neighboring plants, pests and associated natural enemies. We propose a new IPM tool, plant training for induced defense, which involves inducing plant defense through artificial injury. Experimental evidence from various studies shows that cotton training is a promising technique, particularly for smallholders, which can be used as part of an IPM program to significantly reduce insecticide use and to improve productivity in cotton farming. © 2018 Society of Chemical Industry     

巴基斯坦棉花主要害虫及其综合治理

棉花是巴基斯坦重要的经济作物,棉花产品出口是该国外汇收入的主要来源。在过去10年中巴基斯坦棉花种植面积大幅减少,棉花产量也从2011年的261万t下降至2021年的154万t。烟粉虱Bemisia tabaci及其传播的棉花曲叶病和棉红铃虫Pectinophora gossypiella等有害生物危害是棉花产量下降的主要原因之一。目前,棉花害虫的防治主要依靠背负式喷雾器或机车式喷雾器喷施杀虫剂,无人机施药的政策及大规模推广应用尚处于起始阶段。害虫对杀虫剂抗性上升是目前害虫治理的主要问题。由于信德省和旁遮普省等传统植棉区棉花害虫发生比较严重,巴基斯坦政府计划在俾路支省和开伯尔-普赫图赫瓦省扩大棉花种植面积。为了恢复棉花的生产,政府制定了一系列计划来提高害虫综合治理水平,如研发生物杀虫剂、转基因品种等。针对当前棉花生产过程中所面临的虫害问题,未来应更新害虫治理策略,加强对农业部门技术人员的培训,为巴基斯坦棉花的可持续生产提供技术支持。     

The Red Queen in a potato field: integrated pest management versus chemical dependency in Colorado potato beetle control

Originally designed to reconcile insecticide applications with biological control, the concept of integrated pest management (IPM) developed into the systems‐based judicious and coordinated use of multiple control techniques aimed at reducing pest damage to economically tolerable levels. Chemical control, with scheduled treatments, was the starting point for most management systems in the 1950s. Although chemical control is philosophically compatible with IPM practices as a whole, reduction in pesticide use has been historically one of the main goals of IPM practitioners. In the absence of IPM, excessive reliance on pesticides has led to repeated control failures due to the evolution of resistance by pest populations. This creates the need for constant replacement of failed chemicals with new compounds, known as the ‘insecticide treadmill’. In evolutionary biology, a similar phenomenon is known as the Red Queen principle – continuing change is needed for a population to persevere because its competitors undergo constant evolutionary adaptation. The Colorado potato beetle, Leptinotarsa decemlineata (Say), is an insect defoliator of potatoes that is notorious for its ability to develop insecticide resistance. In the present article, a review is given of four case studies from across the United States to demonstrate the importance of using IPM for sustainable management of a highly adaptable insect pest. Excessive reliance on often indiscriminate insecticide applications and inadequate use of alternative control methods, such as crop rotation, appear to expedite evolution of insecticide resistance in its populations. Resistance to IPM would involve synchronized adaptations to multiple unfavorable factors, requiring statistically unlikely genetic changes. Therefore, integrating different techniques is likely to reduce the need for constant replacement of failed chemicals with new ones. © 2014 Society of Chemical Industry     

Direct and indirect impacts of integrated pest management on pesticide use: a case of rice agriculture in Java, Indonesia

BACKGROUND: Integrated pest management (IPM) technology has been disseminated since 1989 in Indonesia to cut down pesticide use, but the adoption and diffusion of the technology are still debated. This study aims to estimate the models of demand for pesticides and to analyse the impact of IPM technology on pesticide use. Aggregate cross-section time series data from 1990-1998 are used.RESULTS: The results show that IPM technology reduces the use of pesticides by improving the process of rice production, such that pesticides are more efficiently used. In this case, the IPM technology is not a pest control technique.CONCLUSION There is an indication that IPM technology has been adopted by farmers. This is evidence that the IPM programme in Indonesia was successful in this area. Copyright (c) 2008 Society of Chemical Industry.     

Development of preliminary economic thresholds for an integrated pest management system for soybeans in Java

Abstract

Two field trials were conducted for the purposes of comparing various soybean pest management schemes and setting preliminary economic thresholds that could be used by farmers as part of an integrated pest management (IPM) programme. Both trials tested the same four treatments: (1) a pest management scheme that followed the type of plan that many farmers in Java use, (2) and (3) two schemes utilizing different economic thresholds set by researchers, and (4) an untreated control. The pest management schemes are compared regarding various aspects, including yield and profitability. In both trials the plans did not differ significantly in profitability; however, in each trial the same threshold scheme had the highest mean values for both yield and profitability. Therefore, a pest control system based on this threshold scheme is recommended, with some refinements in certain threshold levels for specific pest guilds where the trials show refinements to be appropriate. It is advised that farmers use the threshold levels recommended here as starting points, and then make adjustments according to the soybean variety used, abundance of natural enemies present, economic factors, etc.     

Pheromone‐based integrated pest management to control the diamondback moth Plutella xylostella in cabbage fields

Biorational and regular insecticide applications were evaluated for management of the diamondback moth (DBM) Plutella xylostella in cabbage (Brassica oleracea var capitata) in Karnataka State, India, in 1996 and 1997. The IPM programme, based on the pheromone trap catch threshold of eight moths per trap per night, included utilization of the parasitoid Cotesia plutellae. (250 000 adults ha⁻¹), the predator Chrysoperla carnea (2500 eggs ha⁻¹), the neem‐based chemical nimbecidine (625 ml ha⁻¹), the bacterium Bacillus thuringiensis (500 ml ha⁻¹), and the synthetic insecticide phosalone (2.8 litre ha⁻¹). The IPM programme induced a reduction of trap catches, egg and larval populations and, therefore, a low level of damage to the crop. The economic analysis showed that the cost of the IPM treatments was also considerably lower than that of ordinary insecticide practice (average of $62 relative to $123 ha⁻¹, respectively). Gross profit was also clearly higher in IPM plots than in farmer's fields, ranging from $777 to $810 ha⁻¹ in the IPM plots compared with $456 to $462 ha⁻¹ in the insecticide‐treated fields. As a consequence of lower input costs and higher gross profit, net profit in IPM treatments was even more favourable, and the economic savings associated with the utilization of the IPM programme amounted to $380 ha⁻¹ in 1996 and $410 ha⁻¹ in 1997. © 2000 Society of Chemical Industry     

Implementation of integrated pest management in Israel

Supervised control programs were initiated by the Extension Service in the deciduous orchards of Upper Galilee and the Golan almost 20 years ago. The integrated pest management (IPM) project on fruit crops and vines, launched as a systematic state-wide program in 1991, covered 23% of the total acreage at the end of 1996. The program has reached a critical mass and generates a steady demand for this new kind of advisory service. The project has set the right pattern for intensive and continuous collaboration among research, extension and grower. The program has been successful in reaching out to growers with the help of a newly formed group of local and regional pest scouts; the field-level implementation is the responsibility of the extension system. A reduction of approximately 30% in the use of pesticides has been achieved. The project prepares the ground for environment-friendly and sustainable cropping systems, generating produce competitive on both the local as well as foreign markets. The program on indoor vegetables, flowers, herbs and spices initiated in 1992, had to address first the problem of the sweetpotato whitefly. The field program methodology relies on the establishment of model farms and plots. The model plots are used to examine supervised control scenarios which could, in turn, be diffused to all growers. A 30-50% reduction in the use of pesticides was achieved on the model farms. The program represents an integration of supervised control, fully fledged IPM, and biological control practices. The program on corn and cotton covers the entire acreage under these two crops. The cotton program is supported by an integrated resistance management component. Three area-wide pest management programs were initiated: in the Arava and Bet She’ an valleys, and in the Golan.     

Frankliniella occidentalis (Pergande) integrated pest management programs for fruiting vegetables in Florida

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     

Impacts of transgenic Bt cotton and integrated pest management education on smallholder cotton farmers

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.     

Problems of implementing compulsory integrated pest management

Compulsory integrated pest management poses a number of challenges and issues for debate. Some of are discussed with reference to European Union requirements set out in Annex III of Directive 128/2009. Requirements on the use of plant protection products bring with them problems with dose reduction in the light of a resistance prevention strategy, the lack of threshold levels, the necessity of chemical treatments and the limited availability of effective products of biological origin. Use of preventive measures of pest control faces barriers related to profitability and a lack of knowledge on the part of farmers. Challenges to control the system, as well as the fact that some legally enforced rules are not suitable for all crops, seem also to be an issue. © 2019 Society of Chemical Industry     

Bt maize and integrated pest management ‐ a European perspective

The European corn borer (Ostrinia nubilalis), the Mediterranean corn borer (Sesamia nonagrioides) and the western corn rootworm (Diabrotica virgifera virgifera) are the main arthropod pests in European maize production. Practised pest control includes chemical control, biological control and cultural control such as ploughing and crop rotation. A pest control option that is available since 1996 is maize varieties that are genetically engineered (GE) to produce insecticidal compounds. GE maize varieties available today express one or several genes from Bacillus thuringiensis (Bt) that target corn borers or corn rootworms. Incentives to growing Bt maize are simplified farm operations, high pest control efficiency, improved grain quality and ecological benefits. Limitations include the risk of resistance evolution in target pest populations, risk of secondary pest outbreaks and increased administration to comply with licence agreements. Growers willing to plant Bt maize in the European Union (EU) often face the problem that authorisation is denied. Only one Bt maize transformation event (MON810) is currently authorised for commercial cultivation, and some national authorities have banned cultivation. Spain is the only EU member state where Bt maize adoption levels are currently delivering farm income gains near full potential levels. In an integrated pest management (IPM) context, Bt maize can be regarded as a preventive (host plant resistance) or a responsive pest control measure. In any case, Bt maize is a highly specific tool that efficiently controls the main pests and allows combination with other preventive or responsive measures to solve other agricultural problems including those with secondary pests. Copyright © 2011 Society of Chemical Industry     

中国水稻害虫治理对策的演变及其展望

本文简要回顾了中国水稻害虫的变迁、相应的对策演变,从中了解、总结害虫发生与人类治虫对策之间的因果渊源,指出只有师法自然、通过生态工程实施生态治理技术才能持续双赢。     

Comparative effect of integrated pest management and farmers' standard pest control practice for managing insect pests on cabbage (Brassica spp.)

BACKGROUND: Studies were conducted on experimental cabbage plantings in 2009 and on experimental and commercial plantings in 2010, comparing farmers' current chemical standard pesticide practices with an integrated pest management (IPM) program based on the use of neem (Aza‐Direct) and DiPel (Bacillus thuringiensis). In experimental plantings, the IPM program used six or eight applications of neem and DiPel on a rotational basis. The standard‐practice treatments consisted of six or eight applications of carbaryl and malathion or control treatment. RESULTS: The IPM treatments reduced pest populations and damage, resulting in a better yield than with the standard chemical or control treatment. When IPM treatment included three applications of neem plus three applications of DiPel (on a rotational basis in experimental fields), it again reduced the pest population and damage and produced a better yield than the standard practice. The lower input costs of the IPM program resulted in better economic returns in both trials. CONCLUSIONS: The IPM components neem and DiPel are suitable for use in an IPM program for managing insect pests on cabbage (Brassica spp.). Copyright © 2011 Society of Chemical Industry