天敌昆虫抗药性研究进展

天敌昆虫抗药性研究在协调害虫化学防治和生物防治中有着重要的理论和现实意义,其研究的最终目的在于更好地推进抗性天敌在害虫综合治理(IPM)中的应用。抗药性天敌昆虫具有潜在的巨大价值。鉴于此,本文系统地综述了天敌昆虫抗药性最新研究进展,包括杀虫剂对天敌昆虫的影响、天敌昆虫抗药性现状、抗药性机理和限制天敌昆虫抗药性发展因素等。文章最后还对抗药性天敌昆虫的应用前景进行了展望。     

化学防治对不同类型棉田害虫和捕食性天敌群落多样性的影响

分析比较了化学防治对8种不同类型棉田害虫、捕食性天敌群落多样性的影响。研究结果表明,化学防治对棉田害虫、捕食性天敌群落的多样性指数、均匀性指数、丰富度及个体数的变化有较大的影响,尤其对捕食性天敌群落的影响显著。但这种作用依不同类型棉田或棉花不同生育阶段而异：化学防治对套作棉田害虫、捕食性天敌群落的影响较小,而对单作棉田和豆间棉棉田害虫、捕食性天敌群落的影响较大;晚播棉田害虫与捕食性天敌群落较早播棉田受化学防治的影响更大;化学防治对免耕棉田害虫、天敌群落的影响更大,非免耕棉田害虫、捕食性天敌群落受其干扰较小;春套棉边害虫、捕食性天敌群落与其它棉田类型相比,受化学防治的影响较少;棉花害虫在棉花生育前期对化学防治较棉花生育后期敏感,而捕食性天敌在棉花整个生育期均对化学防治敏感。     

亚致死剂量杀虫剂对异色瓢虫捕食作用的影响

为探讨害虫化学防治与生物防治的协调技术,提高综合防治水平,测定了吡虫啉,鱼藤酮,氰戊菊酯和阿维菌素A种杀虫剂亚致死剂量对异色瓢虫成虫捕食桃蚜功能反应的影响。亚致死剂量杀虫剂对异色瓢虫功能反应模型的基本结构没有改变,但影响到了模型的各项参数,药剂处理后异色瓢虫最大日捕食量降低,处理猎物的时间延长,捕食速率和寻找效应一般也被减弱,影响结果还与异色瓢虫受药的方式有关,4种药剂中以氰戊菊酯的影响最大,鱼藤酮的胃毒作用也较明显,研究结果表明亚致死剂量的杀虫剂对天敌异色瓢虫的捕食作用存在着不良影响,这为害虫治理中如何协调利用化学防治和生物防治措施,指导科学用药提供了一定的理论基础。     

梨小食心虫生物防治研究进展

梨小食心虫Grapholita molesta(Busck)是世界性分布的果树主要害虫之一,可危害多种果树。多年来,过度依赖化学农药防治梨小食心虫效果并不理想,且杀伤天敌、污染环境、导致农药残留。利用自然天敌防治梨小食心虫高效、无毒、无污染,符合当前社会对环保的要求。本文结合前人工作,从病原微生物、寄生性天敌、捕食性天敌、性信息素、化学信息物质等方面,综述了梨小食心虫生物防治的研究进展,并对其应用前景进行了展望。     

茶尺蠖生物防治进展

茶尺蠖Ectropis obliqua Prout是茶园中的重要害虫,对它的生物防治研究国内已做了较多的工作.本文从茶尺蠖的研究基础-大量饲养和它的病原性天敌、捕食性天敌、寄生性天敌及信息素等方面对茶尺蠖的生物防治研究作了综述.     

生物源农药在苹果蠹蛾防治中的应用

苹果蠹蛾是世界性检疫害虫,对我国苹果优势产区构成了巨大威胁。长期依赖化学防治使该虫抗性问题变得十分严峻。为了保障食品安全,以环境友好的生物源农药替代化学农药已成为当前苹果蠹蛾防治的热点。本文对国内外现有的生物源农药,如寄生蜂、不育昆虫、颗粒体病毒、病原线虫、Bt、病原真菌、微孢子虫、性信息素、斑蝥素、多杀菌素等,在苹果蠹蛾防治中的最新应用及其存在的问题进行论述,讨论了生物源农药凭借其种类多、来源广且在用药时期上选择性强等特点,在该虫综合治理中的重要地位及面临的挑战。     

我国烟粉虱主要捕食和寄生性天敌控制能力研究进展

烟粉虱Bemisia tabaci Gennadius是一种广泛分布于世界各地的多食性害虫,对我国多个省市区的农作物和观赏植物造成了严重的危害。化学杀虫剂的大量使用在杀伤天敌的同时使烟粉虱产生了不同程度的抗性,防治越来越困难;相较于化学防治,在不同地区筛选有效的天敌对烟粉虱进行生物防治是对烟粉虱进行有效控制的重要方法。我国报道的捕食性天敌共计26科109种,寄生性天敌共计2科59种。烟粉虱防治过程中由于单一的防治效果不理想,联合多个天敌资源的利用是增加对烟粉虱的生物防治效果的重要手段。本文通过对我国烟粉虱捕食性和寄生性天敌种类系统全面的整理,同时对烟粉虱优势种天敌中的单种或者多种组合利用后对烟粉虱的的控害潜能进行综述,以期为烟粉虱天敌昆虫种类的筛选和实现高效的生物防治提供科学依据。     

广东柑橘园的昆虫演替

自1937年到1973年的三十七年间,广东潮汕地区柑橘害虫的防治,大致可以分为四个阶段:即人工及土农药防冶阶段(1937—1952年)、有机氯杀虫剂阶段(1953—1958年)、有机磷杀虫剂阶段(1959—1964年)和杀螨剂兼用阶段(1965年至现在)。土农药阶段的昆虫特点是种类多、区系复杂。有机氯阶段淘汰了咀嚼式口器的主要害虫和适应能力比较差的吸收式口器害虫。有机磷阶段又淘汰了另一部分比较顽强的吸收式口器害虫。能产生抗药性的或新侵入、新发展的害虫种群数量上升,成为主要种类。这类害虫以橘全爪螨最为突出,三十七年间出现了三次显著变化。 导致柑橘园昆虫群落变化的主要原因在于不合理施用化学农药。它使天敌数量减少;有的害虫产生抗药性,或者由于繁殖力强,种群数量庞大;或栖息场所隐蔽,未受淘汰,成为再猖獗的虫源。作者调查和比较了施药与不施药的柑橘园昆虫区系后,见到施药柑橘园的昆虫种类较少,反映了昆虫区系的简化,但优势种群的数量则明显增多。 近年来,有些地区新侵入柑橘园成为优势种群的尺蛾科害虫,是由于引种未经检疫的带虫覆盖作物种苗——毛蔓豆所造成的。光绿橘天牛是由于施药后削弱了其竞争种——星天牛,才使种间关系改变的。吸果夜蛾的增加为害则与“柑橘上山”,开垦山地和旱地种柑有关。 提出控制柑橘害虫种群的途径,首先是合理施用化学农药:选用选择性农药的品种及改进施药方法,注意用药量和施药次数。其次为繁殖有效的天敌,例如腹管颏瓢虫或植绥螨等。农业技术防冶应作为一种基础措施而与化学防治及生物防治相结合,通过综合防治的途径,把柑橘害虫的防治推向新水平。     

松毛虫赤眼蜂对高粱害虫的防效及生态经济效益评估

【目的】高粱是我国重要的食用、饲用、制糖及酿酒用作物,其害虫的绿色防控技术手段的应用和推广非常有限。本研究连续2年在河北省衡水高粱种植区,开展了利用松毛虫赤眼蜂Trichogramma dendrolimiMatsumura防治多种鳞翅目害虫的试验示范,以期为减少化学农药的使用、促进高粱产业的绿色可持续发展,提供一种有效、经济和可靠的害虫防治手段。【方法】赤眼蜂防治试验和化学防治试验分别在两个村子的高粱田内进行。通过统计植株被害率、田间捕食性天敌的丰度及高粱产量等参数,进行成本收益分析,比较两种方法对害虫的防治效果,进一步评价其生态和经济效益。【结果】赤眼蜂防治在减轻植株被害率和提高田间捕食性天敌丰度等方面优于化学防治,同时也实现了高粱的增产增收。与化学防治相比,2019年,赤眼蜂防治显著降低了高粱叶片被害率,田间捕食性天敌的丰度提高了3.96倍,产量略有提高,害虫防治成本相对更低,差额净收入增加了305.47元/hm²;2020年,赤眼蜂防治显著降低了高粱穗部被害率,田间捕食性天敌的丰度提高了2.66倍,产量增加了1 392.5 kg/hm2;2020年,赤眼蜂防治显著降低了高粱穗部被害率,田间捕食性天敌的丰度提高了2.66倍,产量增加了1 392.5 kg/hm²,单位面积防治成本虽略有增高,但综合起来,差额净收入却增加了3 644.05元/hm2,单位面积防治成本虽略有增高,但综合起来,差额净收入却增加了3 644.05元/hm²(19.90%),增收效果显著。【结论】与化学防治相比,松毛虫赤眼蜂不仅防治害虫效果更好,而且增加了田间生物多样性,提高了天敌的丰度,增产、增收效果显著。利用松毛虫赤眼蜂防治高粱害虫是一种可行、高效并极具竞争力的生物防治手段,具有大面积推广应用的前景。     

基因工程重组杆状病毒杀虫剂研究进展

基因工程重组杆状病毒杀虫剂研究进展王福山,朱反修,齐义鹏（武汉大学病毒研究所,武汉４３００７２）关键词：基因工程,重组杆状病毒,杀虫剂目前,由于化学农药污染环境,在杀死害虫的同时,也杀死了有益的天敌昆虫,破坏生态平衡。并且,有毒化学农药的长期使用使害虫的抗药性不断增强,原来用低剂量就能防治的害虫要提高用药量的几倍甚至几十倍才能防治”。因此,对害虫的生物防治越来越受到重视。     

低剂量杀虫剂对星豹蛛捕食效应的影响及其机理

探讨低剂量杀虫剂对蜘蛛捕食效应的影响及其生化机理。采用药膜法,测定了低剂量吡虫啉作用下,星豹蛛和甘蓝蚜敏感性、捕食效应以及成蛛体内乙酰胆碱酯酶(AChE)、谷胱甘肽S-转移酶(GSTs)、超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和中肠蛋白消化酶的活力变化。低剂量农药作用下,星豹蛛对甘蓝蚜的功能反应类型为HollingⅡ型,与对照组相比,随着猎物密度的增大星豹蛛的捕食量增加,寻找效应降低,对猎物的处理时间Th缩短,从而增强了对猎物的捕食作用;低剂量农药处理后,星豹蛛体内AChE和GSTs活性均显著低于对照组(P0.05),说明酶活性受到抑制,且抑制作用随吡虫啉浓度的增大而加强,随作用时间的延长而减弱;SOD,CAT和中肠蛋白消化酶活性显著增强,与对照组相比存在显著或极显著差异(P0.05),且随吡虫啉浓度增大和作用时间的延长而逐渐降低,最后接近对照组。低剂量杀虫剂作用下,蜘蛛体内AChE活性受到抑制,AChE敏感性降低,对神经递质乙酰胆碱的分解作用下降,使蜘蛛的兴奋性增加;GSTs、SOD、CAT等代谢酶活性发生变化,使蜘蛛的新陈代谢加速,从而刺激捕食;中肠蛋白消化酶的活性增强,提高了对猎物的消化吸收功能。总之,在低剂量杀虫剂作用下,星豹蛛通过外在的捕食行为和体内一系列酶系生理生化反应的综合作用促进蜘蛛对害虫的控制作用。     

Mitigating the effects of insecticides on arthropod biological control at field and landscape scales

Integrated pest management (IPM) programs emphasize the combination of tactics, such as chemical and biological control, to maintain pest populations below economic thresholds. Although combining tactics may provide better long-term sustainable pest suppression than one tactic alone, in many cases, insecticides and natural enemies are incompatible. Insecticides can disrupt natural enemies through lethal and sub-lethal means causing pest resurgence or secondary pest outbreaks. Legislative actions such as the Food Quality Protection Act (US) and the Directive on Sustainable Use of Pesticides (EU) have placed greater restrictions on insecticides used in agriculture, potentially enhancing biological control. Here we focus on the effects of insecticides on biological control, and potential mitigation measures that can operate at different scales. At the farm scale, natural enemies can be conserved through the use of selective insecticides, low doses, special formulations, creation of refugia, special application methods, and targeted applications (temporal or spatial). At the landscape scale, habitat quality and composition affect the magnitude of biological control services, and the degree of mitigation against the effects of pesticides on natural enemies. Current research is teasing apart the relative importance of local and landscape effects of pesticides on natural enemies and the ecosystem services they provide, and the further development of this area will ultimately inform the decisions of policy makers and land managers in terms of how to mitigate pesticide effects through habitat manipulation.     

氮肥影响节肢动物天敌对褐飞虱种群的自然控制作用

氮肥在增加粮食产量的同时也可能对整个农田生态系统产生负面影响。稻田过量施用氮肥后,会提高水稻对害虫的敏感性、改变害虫与天敌之间的关系,最终影响到天敌对害虫的自然控制功能,导致害虫大发生。为了合理、公正地评价施用氮肥对稻田节肢动物天敌对害虫自然控制能力的影响,探索性地应用笼罩的方法在菲律宾国际水稻研究所试验农场稻田中研究了害虫天敌在不同氮肥施用水平(0,100 kg N/hm~2和200 kg N/hm~2)稻田中对褐飞虱的捕食能力及自然控制作用。试验结果表明,旱季田间的捕食性天敌对褐飞虱若虫的捕食能力和主要天敌对褐飞虱种群的自然控制能力均随稻田氮肥施用量的增加而减弱。在雨季,虽然天敌对褐飞虱种群的自然控制能力也随稻田氮肥施用量的增加而减弱,但捕食性天敌对褐飞虱若虫捕食能力的差异不明显。本研究表明,天敌对褐飞虱自然控制能力的减弱是稻田过量施用氮肥后褐飞虱种群猖獗的主要原因之一。     

Adaptive defense of pests and switching predation can improve biological control by multiple natural enemies

One of the most important questions in biological control is whether multiple natural enemies can provide greater suppression of agricultural pests than a single best enemy. Intraguild predation (IGP) among natural enemies has often been invoked to explain failure of biological control by multiple enemies, and classical theoretical studies on IGP have supported this view. However, empirical studies are inconclusive and have yielded both positive and negative results. We extend classical models by considering anti-predator behavior of pests and diet switching of omnivorous natural enemies, and examine their effects on pest control. We assume that the pest can adaptively allocate effort toward the specific defense against each predator, and that the omnivorous natural enemy can consume disproportionately more of the relatively abundant prey (switching predation) by type III functional responses to prey items. The model predicts that adaptive defense augments pests but favors introduction of multiple natural enemies for controlling pests if IGP is weak. In contrast, switching predation does not make pest control by multiple natural enemies advantageous as in classical studies, in the absence of adaptive defense. However, switching predation reduces the necessity of defense by the pest against the omnivore and offsets the effect of adaptive defense. Thus, it makes the introduction of multiple natural enemies advantageous for pest control when the pest employs adaptive defense even if IGP is strong. These results suggest that types and combinations of behavior of prey and predators may greatly affect qualitative outcomes of biological control by multiple natural enemies.     

Biological control of aphids in the presence of thrips and their enemies

Generalist predators are often used in biological control programs, although they can be detrimental for pest control through interference with other natural enemies. Here, we assess the effects of generalist natural enemies on the control of two major pest species in sweet pepper: the green peach aphid Myzus persicae (Sulzer) and the western flower thrips Frankliniella occidentalis (Pergande). In greenhouses, two commonly used specialist natural enemies of aphids, the parasitoid Aphidius colemani Viereck and the predatory midge Aphidoletes aphidimyza (Rondani), were released together with either Neoseiulus cucumeris Oudemans, a predator of thrips and a hyperpredator of A. aphidimyza, or Orius majusculus (Reuter), a predator of thrips and aphids and intraguild predator of both specialist natural enemies. The combined use of O. majusculus, predatory midges and parasitoids clearly enhanced the suppression of aphids and consequently decreased the number of honeydew-contaminated fruits. Although intraguild predation by O. majusculus on predatory midges and parasitoids will have affected control of aphids negatively, this was apparently offset by the consumption of aphids by O. majusculus. In contrast, the hyperpredator N. cucumeris does not prey upon aphids, but seemed to release aphids from control by consuming eggs of the midge. Both N. cucumeris and O. majusculus did not affect rates of aphid parasitism by A. colemani. Thrips were also controlled effectively by O. majusculus. A laboratory experiment showed that adult predatory bugs feed on thrips as well as aphids and have no clear preference. Thus, the presence of thrips probably promoted the establishment of the predatory bugs and thereby the control of aphids. Our study shows that intraguild predation, which is potentially negative for biological control, may be more than compensated by positive effects of generalist predators, such as the control of multiple pests, and the establishment of natural enemies prior to pest invasions. Future work on biological control should focus on the impact of species interactions in communities of herbivorous arthropods and their enemies.     

Mechanisms for flowering plants to benefit arthropod natural enemies of insect pests： Prospects for enhanced use in agriculture

Reduction of noncrop habitats, intensive use of pesticides and high levels of disturbance associated with intensive crop production simplify the farming landscape and bring about a sharp decline of biodiversity. This, in turn, weakens the biological control ecosystem service provided by arthropod natural enemies. Strategic use of flowering plants to enhance plant biodiversity in a well-targeted manner can provide natural enemies with food sources and shelter to improve biological control and reduce dependence on chemical pesticides. This article reviews the nutritional value of various types of plant-derived food for natural enemies, possible adverse effects on pest management, and the practical application of flowering plants in orchards, vegetables and field crops, agricultural systems where most research has taken place. Prospects for more effective use of flowering plants to maximize biological control of insect pests in agroecosystem are good but depend up on selection of optimal plant species based on information on the ecological mechanisms by which natural enemies are selectively favored over pest species.     

两种杀虫剂对稻田捕食性天敌集团捕食功能的影响

将稻田各类捕食性天敌作为一集团,运用功能法评价了甲胺磷和杀虫双对该集团捕食功能的影响,由于各类捕食性天敌对杀虫剂敏感性的不同,甲胺磷和杀虫双造成的各类天敌的死亡率和残存天敌个体的捕食功能减退率均不同。实验表明,隐翅虫类和狼蛛类对甲胺磷较为敏感,而对杀虫双,肖蛸类最为敏感。杀虫双对隐翅虫类的致死作用及捕食功能影响较小。就集团的捕食功能而言,甲胺磷影响明显大于杀虫双,但在总的功能减退率组分中,甲胺磷致     

Optimum timing for integrated pest management: Modelling rates of pesticide application and natural enemy releases

Many factors including pest natural enemy ratios, starting densities, timings of natural enemy releases, dosages and timings of insecticide applications and instantaneous killing rates of pesticides on both pests and natural enemies can affect the success of IPM control programmes. To address how such factors influence successful pest control, hybrid impulsive pest-natural enemy models with different frequencies of pesticide sprays and natural enemy releases were proposed and analyzed. With releasing both more or less frequent than the sprays, a stability threshold condition for a pest eradication periodic solution is provided. Moreover, the effects of times of spraying pesticides (or releasing natural enemies) and control tactics on the threshold condition were investigated with regard to the extent of depression or resurgence resulting from pulses of pesticide applications. Multiple attractors from which the pest population oscillates with different amplitudes can coexist for a wide range of parameters and the switch-like transitions among these attractors showed that varying dosages and frequencies of insecticide applications and the numbers of natural enemies released are crucial. To see how the pesticide applications could be reduced, we developed a model involving periodic releases of natural enemies with chemical control applied only when the densities of the pest reached the given Economic Threshold. The results indicate that the pest outbreak period or frequency largely depends on the initial densities and the control tactics.     

Releases of biological control agents of insect pests on Easter Island (Pacific Ocean)

For half a century, agriculture on Easter Island has been affected by an increasing number of accidentally introduced insect pests. Due to the absence of natural enemies and other factors, these have reached high density levels which claimed for intensive use of pesticides. A project supported by the National Funds for Regional Development (FNDR) was established in 1984 to develop a biological control program against these pest species. Presently, 60 beneficial species have been introduced to control agricultural pests and flies that affect cattle and humans. Some of the natural enemies have established and are reducing pest populations thereby decreasing the requirement for insecticidal treatments. Fly density has also decreased noticeably. This can be attributed to the activity of natural enemies and dung beetles which compete with larval fly for food.