烟粉虱捕食性天敌研究进展

烟粉虱(Bemisia tabaci)是广泛分布于世界各地的一种多食性重要昆虫.近年来在我国南北方已对农作物、蔬菜和园艺植物等造成严重的危害.利用天敌开展烟粉虱的生物防治已成为国内外研究的重点之一.本文就烟粉虱的捕食性天敌种类、生物学生态学特性、优势种天敌的引进与商品化生产以及田间释放和应用等方面的研究进展进行综述.     

橘小实蝇天敌种类及其应用研究进展

橘小实蝇Bactrocera dorsalis(Hendel)是一种广泛分布于亚洲及夏威夷群岛等地的入侵有害生物,对我国的水果和蔬菜造成了严重的影响.橘小实蝇的防治大多使用化学杀虫剂,然而化学杀虫剂的大量使用会导致橘小实蝇产生不同程度的抗性,同时也会杀伤其天敌,防治变得越来越困难;相较于化学防治,在不同地区筛选有效的天敌对橘小实蝇进行生物防治是有效控制的绿色防控措施,契合我国农业农村部大力推进特色优势农作物病虫害绿色防控的工作重点.目前,国内外报道的橘小实蝇寄生性天敌有70余种;捕食性天敌主要为蚂蚁、蠼螋、隐翅虫、螨、蜘蛛、步行虫等;寄生性微生物主要为真菌、细菌、病原线虫、共生菌等;食虫动物主要为鸡、鸟等.橘小实蝇生物防治中,多天敌资源的联合利用可有效增强防治效果.因此,本文系统全面地整理了国内外可查的橘小实蝇天敌种类,以及部分优势单种或多种组合的控害潜能,以期为橘小实蝇天敌种类的筛选和高效的生物防治应用提供参考.     

烟粉虱在我国的发生为害现状及其非化学控制对策(英文)

烟粉虱 (BemisiatabaciGennadius )是热带、亚热带和温带地区主要害虫之一。烟粉虱早在 40年代在我国就已有记载 ,现广泛分布于我国的 2 2个省市。过去烟粉虱在我国为害并不严重 ,近年来在广东和北京等地已成为蔬菜和园艺作物生产的严重障碍。除直接为害外 ,烟粉虱可传播番茄和南瓜曲叶病等5种难于防治的病毒病。到目前为止 ,已报到 1 8种寄生性天敌、1 7种捕食性天敌及 1种虫生真菌。本文简要慨述烟粉虱在我国的发生为害与传毒现状 ,并结合我国的具体情况提出非化学控制烟粉虱的对策。     

黑刺粉虱的发生、为害及其生物防治国内研究概况

黑刺粉虱Aleurocanthus spiniferus为茶园和柑桔园为害严重的粉虱种类之一.本文概述了黑剌粉虱在国内分布、寄主种类、发生与为害等,探讨了近年来生物防治在控制黑刺粉虱为害中的作用,包括寄生性天敌、捕食天敌及昆虫病原性真菌等的利用,以期为黑刺粉虱的综合治理提供参考.     

美国白蛾天敌研究进展

美国白蛾Hyphantria cunea(Drury)是国家林业和草原局的重点防控对象,也是我国重大外来林业检疫性有害生物.现阶段美国白蛾在我国的种群密度持续增加和扩散,缺乏有效天敌的控制应该是重要的原因之一.本文综述了国内、外美国白蛾的捕食性和寄生性天敌的种类.捕食性天敌主要包括昆虫、蜘蛛、两栖类和鸟类,整理出国外报道的捕食性天敌名录119种,国内捕食性天敌名录29种;寄生性天敌主要包括寄生蜂和寄生蝇类,整理出国外报道的寄生性天敌名录47种,国内寄生性天敌名录53种.本文回顾了我国在美国白蛾天敌利用方面取得的阶段成果,并针对将来天敌复合体的应用和原产地天敌的引进提出了展望.     

小菜蛾的天敌类群及其利用现状

本文介绍了小菜蛾Plutella xylostella的天敌类群包括寄生性天敌、捕食性天敌和病原微生物、原虫、线虫等共约97种,并对利用天敌进行生物防治的现状作了概述.     

不同播期辣椒和番茄上烟粉虱成虫与捕食性天敌之间的关系

为了科学施药,合理利用和保护自然天敌进行烟粉虱的综合防治,用灰色系统分析方法、生态位分析方法和空间格局聚集强度指标分析方法,对春、秋两季辣椒和番茄田烟粉虱成虫及其主要捕食性天敌在数量、时间、空间格局等方面进行分析,结果表明:辣椒和番茄田烟粉虱成虫的捕食性天敌依次是粽管巢蛛、八斑球腹蛛、草间小黑蛛和小花蝽,两季辣椒田烟粉虱成虫的种群数量差异极显著(t=7.9063,t>t0.01).两季辣椒田中,八斑球腹蛛、异色瓢虫、粽管巢蛛、草间小黑蛛和龟纹瓢虫差异极显著(t>t0.01),锥腹肖蛸差异显著(t>t0.05).棚内天敌种类和数量较少.秋-冬季番茄田烟粉虱成虫数量显著高于辣椒田(t=2 4564,t>t0.01),而春-夏季两种作物上烟粉虱成虫种群数量没有明显差异,t=1.4628,t＜t0.05).     

浙江茶树黑刺粉虱的发生危害及天敌的研究

本文报道了浙江省茶树害虫黑刺粉虱天敌的调查结果,共发现天敌昆虫27种,其中捕食性天敌19种,寄生性天敌8种;捕食性蜘蛛9种;寄生性真菌7种.     

基于柑橘木虱COⅠ基因的捕食性天敌捕食作用评估

捕食性天敌是害虫生物防治中的重要角色,如何精确评估捕食性天敌的捕食作用是生态学中尚待研究的问题之一。为探索柑橘园捕食性天敌对柑橘木虱Diaphorina citri的捕食作用,本研究根据柑橘木虱细胞色素氧化酶I（COI）的基因序列设计了PCR特异性引物,并应用DNA标记方法检测捕食性天敌对柑橘木虱的捕食作用。物种特异性检验结果发现：引物对A对柑橘木虱DNA扩增效果明显,对其他种类的害虫及其天敌不具有扩增作用。田间检测结果表明：在所检测的8类群20种捕食性天敌中,龟纹瓢虫Propylea japonica、斜纹猫蛛 Oxyopes sertatus、丽草蛉Chrysopa formosa对柑橘木虱具有明显的捕食作用,其阳性反应检出率分别达到58.06 %,57.89 %,48.00%。室内龟纹瓢虫对柑橘木虱的消化检测表明：龟纹瓢虫成虫取食1头柑橘木虱4龄若虫或成虫时,检测阳性率均随消化时间的延长而下降,其消化半衰期分别为4.93 h 和12.98 h。采用DNA标记技术探索捕食作用,为筛选柑橘木虱的优势天敌拓展了新的思路,也为进一步田间生物防治柑橘木虱奠定了基础。     

桑粉虱天敌及其利用研究

本文综述了桑粉虱Pealius mori(Takahashi)的寄生性天敌、捕食性天敌以及一些病原性真菌的研究,并探讨了天敌在桑园中应用的潜在可能。     

农药对捕食性天敌的影响研究进展

捕食性天敌在害虫的自然控制方面起着重要作用。当害虫大发生时,需使用化学农药来进行有效控害,但化学农药会对捕食性天敌的生存造成影响。因此,了解农药对捕食性天敌的影响有利于协调化学防治和生物防治的关系。大部分农药对捕食性天敌的生长发育和繁殖表现为抑制作用,但有的为促进作用。在农药的干扰下,多数捕食性天敌的信息识别能力会降低,少部分会通过提高雄虫接收性信息素的能力或增加雌虫性信息素的释放来诱导求偶行为、增加交配频率。有的杀虫剂会影响捕食性天敌的捕食行为及捕食功能,部分杀虫剂会直接使其捕食功能模型由Holling-Ⅱ型转变为Holling-Ⅰ型。在农药胁迫下,捕食性天敌会产生抗药性,其解毒酶活性升高、保护酶活性改变及靶标部位敏感性下降可能是抗药性产生的机理。农药对捕食性天敌的影响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,可以有效地推进捕食性天敌在害虫综合治理中的应用。     

Effects of ground cover (straw and compost) on the abundance of natural enemies and soil macro invertebrates in vineyards

1 Herbicides are commonly applied under grapevines in Australia to remove weeds and thereby to avoid water loss through transpiration. 2 Interest in sustainability promotes a reduction in chemical inputs, including herbicides, leading to trials with surface mulches to suppress weeds. 3 Surface mulches may also influence the abundance of a range of invertebrates. Potentially, an increase in natural enemies will contribute to pest control and encourage a reduction in pesticide application. 4 We used three trapping methods and direct soil sampling to assess invertebrates at ground level, in the canopy and in the soil to determine the influence of mulch on natural enemies, potential pests and soil macroinvertebrates, including earthworms. 5 Collections sorted to family demonstrated that the addition of straw or compost mulches increased natural enemies collected with pitfall traps and soil organisms. However, there was no clear indication of the overall superiority of either mulch. 6 Abundance of ground beetles, parasitoid Hymenoptera and spiders collected with pitfall traps were increased by the addition of mulches. In the canopy, predatory and parasitic Diptera and predatory Hemiptera increased after mulching. 7 Earthworms collected by hand sorting soil increased with straw mulching. 8 No influence on pests was detected. Although Lepidoptera and Sigmurethra, collected in pitfall traps, increased with straw mulching, neither included pest species. 9 The results are discussed with reference to the potential economic impact of mulches.     

Biological control of insect pests in apple orchards in China

Apple is one of the most important fruits in China, and both yield and quality are greatly affected by insect pests. According to surveys, there are more than 200 species of natural enemies in apple orchards. Few, however, have been closely studied. Major natural enemies including parasitoids, predators and pathogens are briefly described in this review, especially focusing on two parasitoids of Trichogramma dendrolimi Matsumura and Aphelinus mali Haldeman, predatory mites and a pathogenic fungus of Beauveria bassiana (Balsamo) Vuillemin as case studies. Augmentation, one important strategy of biological control, supplements the natural control provided by the existing natural enemy community in apple orchards, and greatly increases their efficiency in controlling pests. Conservation biological control is also widely applied in four major apple-producing areas. Based on habitat manipulation, the ground cover planting system helps regulate the microclimate and enhance the biodiversity of apple orchards, effectively conserving the richness and diversity of beneficial insect species. Certain achievements have been made in the main biological control strategies including successful introduction of some exotic natural enemies such as A. mali and Typhlodromus occidentalis Nesbitt, augmentative production and application of biological control agents such as T. dendrolimi, B. bassiana and Bacillus thuringiensis, and further research in conservation of establishing adaptive ground cover planting patterns to local environment. Challenges, however, still exist. Biological control of insect pests in apple orchards is an important part of integrated pest management programs, requiring more research and application in China.     

大豆田节肢动物群落优势种群时间生态位及营养关系分析

【目的】阐明大豆田节肢动物群落时间生态位及营养关系,为大豆害虫生态调控手段的实施提供坚实的理论依据。【方法】以大豆田节肢动物群落为研究对象,通过两年的田间系统调查分析。【结果】统计得到种类220余种,物种可分为天敌、害虫和中性昆虫3个类群,以天敌物种丰富度最高;害虫中以烟蓟马Thrips tabaci(0.36902)和大豆蚜Aphis glycines(0.13122)优势度最高,且有着较高的生态位重叠指数(0.8163),蚜小蜂Aphytis sp.和大草蛉Chrysopa septempunctata对害虫的时间生态位重叠指数很高,其他天敌如异色瓢虫Harmonia axyridis、龟纹瓢虫Propylaea japonica、黑带食蚜蝇Zyistrophe balteata和黑食蚜盲蝽Deraeocoris punctulatus等对害虫的重叠指数居中;大豆田中各类群构成错综复杂的食物网结构。【结论】综合考虑天敌的种群数量,确定捕食性天敌是控制害虫种群数量的有效天敌。研究可知不能单纯从时间生态位的重叠指数的高低来判断天敌的控制能力。     

生境异质度对稻田捕食性天敌及水稻害虫的生态调节有效性

【目的】探索生境高异质度对稻田捕食性天敌及水稻害虫的生态调节有效性,了解这种策略是否会引起其他植食性昆虫成为水稻重要害虫的风险。【方法】2017-2018年连续2年种植单季稻,在稻田边缘种植花生与大豆,构建高异质性边缘生境稻田(rice paddy with high heterogeneous marginal habitats, HHR),调查HHR稻田与简单低异质性边缘生境稻田(rice paddy with low heterogeneous marginal habitats, LHR)中捕食性天敌与水稻害虫功能团的发生规律与相关性,计算益害比。【结果】2017年在HHR稻田中采集到捕食性天敌40种,1 667头;在LHR稻田中采集到捕食性天敌30种,991头。2018年在HHR稻田中采集到捕食性天敌33种,1 384头;在LHR稻田中采集到捕食性天敌34种,1 031头。HHR与LHR两类稻田中获得的捕食性天敌群落重要值P_i≥0.01的物种相似度很高,优势种相似。2017年HHR稻田的捕食性天敌物种丰富度明显高于LHR稻田,这种差异主要由群落重要值P_i<0.01的种类引起。2018年两类稻田的捕食性天敌物种丰富度没有差异。单位样方面积内的捕食性天敌个体数量,HHR中明显高于LHR,这种差异在2017年的分蘖期与成熟期达显著水平(P<0.05),在2018年的开花期极显著(P<0.01)。2017年在HHR中采集到水稻害虫22种,637头;在LHR中采集到水稻害虫19种,743头;物种相似性系数0.88。2018年在HHR中采集到水稻害虫16种,1 011头;在LHR中采集到水稻害虫16种,2 014头;物种相似性系数0.75;主要害虫物种组成结构相同。水稻害虫数量发生的时间动态分析表明,在分蘖期,虽然HHR稻田中的水稻害虫数量明显高于LHR(P<0.05),但此期害虫的数量不多,发生较轻。在孕穗期、开花期与成熟期,HHR稻田中的水稻害虫数量明显低于LHR稻田,这种差异在2017年的成熟期与2018年的孕穗期极显著(P<0.01),在2018年的成熟期差异显著(P<0.05)。2017年HHR和LHR中个体数量益害比N_pi值分别为2.62和1.33;2018年分别为1.37和0.51。【结论】具有高异质性边缘生境的稻田,能提高系统对捕食性天敌物种的涵养潜力,显著提高稻田捕食性天敌个体数量,提高益害比,具有更好的控制害虫的物质基础,促进捕食性天敌对水稻害虫的生态控制效能,不会引起其他植食性昆虫演变为水稻重要害虫风险,可为保护稻田生态系统天敌发挥生态效能提供可借鉴的策略与方法。     

深圳地区椰心叶甲寄主和天敌种类调查

调查结果表明,深圳地区椰心叶甲Brontispalongissima(Gestro)的寄主植物有26属36种,危害比较严重的寄主有椰子(CocosnuciferaL.)、大王椰子(RoystonearegiaO.F.Cook)、假槟榔(Archontophoenixalexandrae(F.V.Mueller))、鱼尾葵(CaryotaochlandraHance)、三药槟榔(ArecatriandraRoxburghexBuchanan)、金山葵(Syagrusromanzoffiana(Chamisso)Glassman)、菲岛鱼尾葵(CaryotacumingiiLoddigesexMartius)、刺葵(PhoenixhanceanaNaudin)、国王椰子(RavenearivularisL.)等。野外观察和采集标本鉴定结果表明,深圳地区椰心叶甲捕食性天敌有11种,主要种类为蚂蚁Formicasp.、毛蠼螋Cheatospaniasp.、中华大螳螂ParattenoderasinensisSaussure;致病微生物有3种,主要是绿僵菌Metarhiziumanisopliaevar.anisopliae。     

Tea: Biological control of insect and mite pests in China

Tea is one of the most economically important crops in China. To secure its production and quality, biological control measures within the context of integrated pest management (IPM) has been widely popularized in China. IMP programs also provide better control of arthropod pests on tea with less chemical insecticide usage and minimal impact on the environment. More than 1100 species of natural enemies including about 80 species of viruses, 40 species of fungi, 240 species of parasitoids and 600 species of predators, as well as several species of bacteria have been recorded in tea ecosystems in China. Biological and ecological characteristics of some dominant natural enemies have been well documented. Several viral, bacterial, and fungal insecticides have been commercially utilized at large scale in China. Progress in biological control methods in conjunction with other pest control approaches for tea insect pest management is reviewed in this article. Knowledge gaps and future directions for tea pest management are also discussed.     

Constraints to the implementation of biological control in Sri Lanka

Sri Lanka is a tropical island with a rich diversity of arthropods, with many species of indigenous natural enemies of economic pests. However, no extensive island wide surveys have been carried out for natural enemies of major crop ecosystems and only a few of the indigenous natural enemies are reported useful for augmentation biological pest control by massive field releases of laboratory-produced insects. Most successful biological control programs on the island are importation (i.e. classical) biological control programs, where established exotic natural enemies control certain pest populations in valuable crops. There is growing interest in the use of native natural enemies in pest management, thus creating a need for intensive research on the ecology of indigenous natural enemies and development of infrastructure and technology to produce natural enemies for augmentation. This paper examines constraints and opportunities for implementation of biological control in Sri Lanka.     

世界麦双尾蚜研究进展：防治方法和策略*

The Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), was a worldwide cereal pest. The control measures to this pest were reviewed, emphasizing on natural enemies and plant resistance. First, spring wheat with earlier planting dates had higher yield and could resist RWA infestation to a more extent, while winter wheat with later planting dates could escape infestation of Russian wheat aphid with very few exceptions. So, manipulation of wheat planting dates was suggested in worldwide scale for the aphid control. Second, the natural enemies were considered as the most important factor to reduced the pest status. Introduced and native natural enemies were evaluated for their potential as biological agents in South Africa, United States, and Australia. In South Africa, an introduced parasitoid and a predator were selected for releasing. In the United States, the project on exploring and releasing the natural enemies was unprecedented in biological control history. The endeavor in USA has been proved primarily successful today and will be afterward. The RWA control in Chile was considered most successful, partly because of their introduction of natural enemies before the aphid arrival. The native enemies together with other factors in central Asia and Europe apparently suppressed the aphids to a low level. The screen for resistant wheat was another important research project in fighting with RWA. In South Africa and USA, resistant wheat and barley were bred, and some of them had been put in commercial use for RWA control. The overwhelming mechanisms in resistant wheat varieties were antibiosis, tolerance or their combination. Though chemical insecticide spraying was proved as an effective method for aphid control, more and more research has switched from this method to non chemical control measures as required by IPM. Future research should put more emphasis on augmentation of the natural enemies, revealing the relationship between RWA and agricultural ecosystem and integration of all effective measures.