4种杀虫剂对胡瓜钝绥螨成螨的急性毒性

测定了4种常用杀虫剂针对目标害虫推荐使用浓度范围对天敌胡瓜钝绥螨Neoseiulus cucumeris成螨的毒力测定、综合急性毒性和二次中毒毒性.综合急性毒性和二次中毒毒性测定结果显示,毒死蜱Chlorphifos、灭幼脲Chlorbenzurin、吡虫啉Imidacloprid对胡瓜钝绥螨都具有极强的毒性,可造成毁灭性杀伤,苏云金杆菌Bt对胡瓜钝绥螨影响极小,无明显毒性.玻片浸渍法测定的不同杀虫剂对胡瓜钝绥螨的毒力大小依次为:毒死蜱Chlorphifos(乐斯本)＞灭幼脲Chlorbenzurin＞吡虫啉Imidacloprid＞苏云金杆菌Bt.     

胡瓜钝绥螨对太平洋细须螨的捕食效能初步研究

胡瓜钝绥螨Amblyseius cucumeris Oudemans能捕食为害蝴蝶兰的害螨---太平洋细须螨Tenuipalpus pacificus Baker的卵、幼螨、若螨和成螨。室内研究了胡瓜钝绥螨雌成螨对太平洋细须螨卵、幼螨、若螨的捕食功能反应。结果表明,随着太平洋细须螨密度的增加,胡瓜钝绥螨雌成螨对太平洋细须螨的捕食数量也随之上升,捕食功能反应曲线符合Holling II型方程。胡瓜钝绥螨雌成螨对太平洋细须螨卵的控制能力显著强于对幼螨和若螨的控制能力,a/Th值分别为165.8、79.2和63.8。在猎物密度一定时,由于胡瓜钝绥螨个体间存在相互竞争和相互干扰作用,随着捕食螨密度的提高,捕食螨平均捕食量逐渐减少。     

几种常用杀菌剂对胡瓜钝绥螨的影响

采用3种不同的方法测定了5种常用杀菌剂对天敌胡瓜钝绥螨Neoseiulus cucumeris（Oudemans）的影响。结果表明5种杀菌剂中,86．2％铜大师可湿性粉剂8001200倍对胡瓜钝绥螨有较低的影响,喷雾法测定最高浓度800倍校正死亡率为15．00％,而让胡瓜钝绥螨取食经86．2％铜大师可湿性粉剂各浓度药液处理过的山楂叶螨Amphitetranychus viennensis（Zacher）均无二次中毒现象,80％代森锌可湿性粉剂、80％大生M-45可湿性粉剂、50％代森锰锌可湿性粉剂和50％普雅图可湿性粉剂在3种试验方法中各浓度对胡瓜钝绥螨死亡率均与清水对照相当,因此释放捕食螨生防园防治病害可选用对胡瓜钝绥螨影响小的80％代森锌可湿性粉剂800～1000倍、80％大生M-45可湿性粉剂500-600倍、50％代森锰锌可湿性粉剂600-800倍、86．2％铜大师可湿性粉剂12001500倍、50％普雅图可湿性粉剂800-1000倍。     

4种杀螨剂对二斑叶螨的毒力测定和对少毛钝绥螨的安全性评价

为评价杀螨剂对二斑叶螨Tetranychus urticae Koch的毒力和对少毛钝绥螨Proprioseiopsis asetus Chant的安全性,本文采用叶片喷雾法测定了4种田间常用杀螨剂对少毛钝绥螨和二斑叶螨的毒力,并分析比较了4种杀螨剂对少毛钝绥螨和二斑叶螨的选择毒力。试验结果表明,4种杀螨剂对少毛钝绥螨雌成螨和二斑叶螨雌成螨的毒力选择指数大小依次为：联苯肼酯（10.1261）>阿维菌素（5.4664）＞哒螨灵（3.5293）＞克螨特（2.3615）。联苯肼酯对少毛钝绥螨的毒力选择指数最高,具有中度正向选择性,即联苯肼酯对少毛钝绥螨的毒力明显低于其对二斑叶螨的毒力。阿维菌素、哒螨灵、克螨特对少毛钝绥螨和二斑叶螨的毒力选择指数也都大于1,但都小于10,即这3种杀螨剂对少毛钝绥螨和二斑叶螨都有较低的正向选择性。4种杀螨剂常规使用浓度下对少毛钝绥螨雌成螨的安全系数大小依次为：联苯肼酯>阿维菌素＞哒螨灵＞克螨特。联苯肼酯的安全系数为16.8935～24.4025,阿维菌素的安全系数为5.5782～22.3127,均大于5,表示联苯肼酯和阿维菌素在推荐使用浓度的低浓度情况下,对少毛钝绥螨的安全性高。而15%哒螨灵乳油和73%克螨特乳油的安全系数仅1.1709～1.7564和1.0523～1.5807,在推荐使用浓度的低浓度情况下,对少毛钝绥螨的安全性一般。因此建议在生产中应用少毛钝绥螨进行生物防治时,可优先选用联苯肼酯和阿维菌素配合使用,而不建议使用哒螨灵和克螨特。     

胡瓜钝绥螨对日光大棚茄子上烟粉虱的控制作用

为了评价胡瓜钝绥螨在我国日光大棚中对茄子上烟粉虱虱的控制作用。笔者研究了在24～34℃下胡瓜钝绥螨以烟粉为猎物时的发育历期,并在我国山东省寿光市的蔬菜基地上开展了利用胡瓜钝绥螨控制日光大棚茄子上烟粉虱的研究与应用。结果表明:胡瓜钝绥螨能够取食烟粉虱的卵、成虫、若虫及伪蛹;利用胡瓜钝绥螨能有效地控制烟粉虱成虫、卵、若虫种群数量的增长。根据胡瓜钝绥螨和烟粉虱的生物学特性,结合大棚茄子栽培过程中的环境条件,笔者提出了在日光大棚中应用胡瓜钝绥螨控制茄子上烟粉虱的策略:(1)在茄子的整个生长季节(250d)中需释放胡瓜钝绥螨4～6次,苗期每次每株释放5～10头,结果期每次每株释放20～40头;(2)释放胡瓜钝绥螨的生防区比常规化防区减少农药使用18次;(3)安装防虫网、适时释放胡瓜钝绥螨是生防成功之关键,生防区配合使用黄板效果更好。     

胡瓜钝绥螨对苹果全爪螨的生物防治效果

以生命表参数及天敌在室内和田间的应用效果来评价胡瓜钝绥螨对苹果全爪螨的控制效果.结果表明:胡瓜钝绥螨取食苹果全爪螨,能够完成发育历期并产卵,在(25±1)℃条件下一个世代仅需9.54d;其雌螨产卵期(24.85d)和寿命(38.52d)都比猎物的产卵期(15.93d)和寿命(34.79d)长,雌螨的平均产卵量仅为苹果全爪螨的56.1%;苹果全爪螨净增殖率(R0)和内禀增长率(rm)分别比胡瓜钝绥螨高103.9%和13.2%.室内释放情况下,无论益害比是1:30还是1:150,释放20d后防治效果均可达95%以上;在苹果示范园释放胡瓜钝绥螨,60d后防治效果达91.73%,比化防园高23.77%.表明胡瓜钝绥螨具有优良天敌的重要特征,在每叶苹果全爪螨低于2头时,果园释放胡瓜钝绥螨能有效控制苹果全爪螨的种群增长.     

捕食螨在我国农林害螨生物防治中的应用

捕食螨是农林生产中极具价值的生防作用物。文章对捕食螨在我国农林害螨生物防治中的应用作一综述,内容包括:与释放应用相关的研究(引进与风险评估,饲养、贮存与运输,食性与释放,捕食与繁殖,定殖与扩散,外界影响因子)、几种主要捕食螨(智利小植绥螨Phytoseiulus persimilis、西方盲走螨Typhlodromus occidentalis、伪钝绥螨Amblyseius fallacis、胡瓜钝绥螨A.cucumeris)的应用、释放应用前景与展望等,旨在提高我国的捕食螨研究与应用水平。     

纽氏钝绥螨、尼氏钝绥螨及其猎物—桔全爪螨生态学特性的比较研究

本文从天敌与猎物的种群内禀增长力,天敌对猎物不同密度的功能反应及数值反应三个方面来评价和比较纽氏钝绥螨、尼氏钝绥螨时其猎物——枯全爪螨的控制作用。在五种温度下,两种捕食螨的种群内禀增长力都大于桔全爪螨。它们对猎物的功能反应属HollingⅡ型。尼氏钝绥螨的捕食量大于纽氏钝绥螨,在25℃时两种捕食螨捕食量最大,应用Rogers的模型能较好地对试验结果进行模拟。尼氏钝绥螨对桔全爪不同虫态的取食不存在选择效应,纽氏钝绥螨则嗜食若螨和幼螨。两种捕食螨对桔全爪螨的数值反应表明,仅供给桔全爪螨雌成螨作为食物,对两种捕食螨都不利,尤其对尼氏钝绥螨更为明显。综上所述,两种捕食螨能比较有效地控制桔全爪螨种群,当猎物密度较高时,尼氏钝绥螨控制效果优于纽氏钝绥螨,但纽氏钝绥螨控制效果优于纽氏钝绥螨,但纽氏钝绥螨田间种群数量比尼氏钝绥螨稳定。柑桔园中存在其它补充食物时对这两种捕食敌有利。     

多次释放胡瓜新小绥螨对橘园节肢动物群落多样性的影响

为了探明长期多次释放胡瓜新小绥螨(Neoseiulus(Amblyseius)cucumeris)是否会对橘园节肢动物群落的生物多样性产生影响,我们在福州马尾和晋安试验区的2个橘园分别设置生防园、自然园和化防园,连续两年每月两次在各处理橘园的树冠和地面杂草中采集并记录节肢动物的种类和数量,结果表明两个试验区的物种丰富度(S)均以生防园最高,且都显著高于相应的化防园和自然园;马尾试验区三种处理的多样性指数(H’)和均匀度指数(E)的大小依次为生防园>自然园>化防园,晋安试验区则为自然园>生防园>化防园,表明释放胡瓜新小绥螨防治柑橘害螨,减少农药的使用,能恢复或增加橘园节肢动物群落的生物多样性。此外,释放胡瓜新小绥螨未对橘园原有的捕食螨类群产生影响。     

茶园螨类调查及利用胡瓜钝绥螨控制卵形短须螨的初步研究

对广东省农业科学院茶叶研究所英德实验茶场进行调查,共有螨类10科,12属,17种.其中捕食性螨类6科,13种,捕食螨优势种为江原钝绥螨Amblyseius eharai.植食性螨类4科,4种,植食性螨类主要为卵形短须螨Brevipalpus obovatus.茶园释放胡瓜钝绥螨Amblyseius cucumeris释放后10～50 d,对卵形短须螨的防治效果达23.30%～81.31%,可有效控制卵形短须螨的为害.并建议在应用中,每株茶树释放一袋胡瓜钝绥螨.     

Taxonomy and biological control: Neoseiulus cucumeris (Acari: Phytoseiidae), a case study

The predatory mite Neoseiulus cucumeris (Oudemans) (Acari: Phytoseiidae) is an important biological control agent of thrips and other small pests worldwide. Yet, despite its economic importance, this species is poorly defined taxonomically and cannot be reliably separated from other species on the basis of morphology alone. Neoseiulus cucumeris has been reported from Australia, although considerable confusion exists as to whether the Australian material is actually N. cucumeris or a presumed endemic species, Neoseiulus bellinus (Womersley). A morphological investigation of N. bellinus and several geographical 'strains' of N. cucumeris demonstrated that: (i) N. bellinus is a distinct species, the males of which can be morphologically separated from those of N. cucumeris , using setal and cheliceral lengths and number of teeth on the fixed digit; and (ii) N. cucumeris , or a morphologically identical species, is present in Australia. Despite behavioural differences, there are no significant morphological differences between the 'strains' of N. cucumeris . Biosystematic research is a more reliable method of species separation, and such a method is suggested for future work with phytoseiid mites.     

从捕食者、猎物的生物学分析胡瓜新小绥螨对针叶小爪螨的控制作用

【目的】为了研究胡瓜新小绥螨Neoseiulus cucumeris(Oudemans)对针叶小爪螨Oligonychus ununguis(Jacobi)的控制能力,为大田防治提供依据。【方法】应用胡瓜新小绥螨和针叶小爪螨的生物学与实验种群生命表的数据进行比较分析。【结果】研究表明:1在(20±1)~(32±1)℃温度条件下,取食针叶小爪螨的胡瓜新小绥螨幼螨、若螨、成螨均能正常生长和繁殖,发育历期随着温度升高而缩短;2在(20±1)、(25±1)、(30±1)、(32±1)℃温度条件下,以针叶小爪螨为食物的胡瓜新小绥螨的产卵量分别为(37.8±5.15)、(52.9±1.92)、(49.5±6.50)、(42.0±6.34)粒,而在同等温度条件下,取食板栗叶片的针叶小爪螨的产卵量分别高出胡瓜新小绥螨的141%、169%、194%和149%;3在(20±1)、(25±1)、(30±1)和(32±1)℃温度条件下,针叶小爪螨的净增殖率(R0)分别为36.5453、66.9788、66.2848、45.4846,比胡瓜新小绥螨高出72.88%、118.36%、92.12%、93.55%,说明针叶小爪螨的生殖潜能与产雌率高于胡瓜新小绥螨,而胡瓜新小绥螨每一世代周期(T)为29.6337、24.2193、20.2165、22.2009d,分别短于针叶小爪螨46.75%、42.03%、39.13%、29.63%;4在(20±1)、(25±1)、(30±1)℃温度条件下,胡瓜新小绥螨的内禀增长率(rm)为0.1030、0.1413、0.1699,分别高于针叶小爪螨的127%、105%、106%,而在(32±1)℃条件下针叶小爪螨的内禀增长率(rm=0.1636)高于胡瓜新小绥螨的115%,说明高温有利于针叶小爪螨的种群增长。【结论】在针叶小爪螨初发生期释放胡瓜新小绥螨能有效地控制其种群增长。     

Toxicity of the herbicide glufosinate-ammonium to predatory insects and mites of Tetranychus urticae (Acari: Tetranychidae) under laboratory conditions

The toxicities of the herbicide glufosinate-ammonium to three predatory insect and two predatory mite species of Tetranychus urticae Koch were determined in the laboratory by the direct contact application. At a concentration of 540 ppm (a field application rate for weed control in apple orchards), glufosinate-ammonium was almost nontoxic to eggs of Amblyseius womersleyi Schicha, Phytoseiulus persimilis Athias-Henriot, and T. urticae but highly toxic to nymphs and adults of these three mite species, indicating that a common mode of action between predatory and phytophagous mites might be involved. In tests with predatory insects using 540 ppm, glufosinate-ammonium revealed little or no harm to larvae and pupae of Chrysopa pallens Rambur but was slightly harmful to eggs (71.2% mortality), nymphs (65.0% mortality), and adults (57.7% mortality) of Orius strigicollis Poppius. The herbicide showed no direct effect on eggs and adults of Harmonia axyridis (Pallas) but was harmful, slightly harmful, and harmless to first instars (100% mortality), fourth instars (51.1% mortality), and pupae (24.5% mortality), respectively. The larvae and nymphs of predators died within 12 h after treatment, suggesting that the larvicidal and nymphicidal action may be attributable to a direct effect rather than an inhibitory action of chitin synthesis. On the basis of our data, glufosinate-ammonium caused smaller effects on test predators than on T. urticae with the exception of P. persimilis, although the mechanism or cause of selectivity remains unknown. Glufosinate-ammonium merits further study as a key component of integrated pest management.     

Combining plant- and soil-dwelling predatory mites to optimise biological control of thrips

The efficiency of a natural enemy combination compared to a single species release for the control of western flower thrips (WFT) Frankliniella occidentalis (Pergande) on cucumber plants was investigated. Since a large part of F occidentalis seems to enter the soil passage, a joint release of the plant-inhabiting predatory mite Amblyseius cucumeris (Oudemans) that feeds on thrips first-instar larvae and the soil-dwelling predatory mite Hypoaspis aculeifer (Canestrini) that preys on thrips pupae in the ground might offer a promising approach for a holistic control strategy. Therefore, two sets of experiments were conducted in cooperation with a commercial vegetable grower where the plants in plots were infested with a defined number of larval and adult F occidentalis. Two species of natural enemies were released either synchronously or solely, and their efficacy was compared to control plots devoid of antagonists. In both experiments, the predatory mites were released twice with a density of 46 A. cucumeris/m2, and 207 H. aculeifer/m2 (low-density) in the first experiment and 528 H. aculeifer/m2 (high-density) in the second one. Population growth of all arthropod species on the plants and in the soil was quantified at regular intervals and included all soil-dwelling mites and alternative preys present in the substrate. The results showed that H. aculeifer alone had a significant impact on thrips population development only when released at high-densities, but competence was lower compared to the other antagonist treatments. The impact of A. cucumeris alone and A. cucumeris & H. aculeifer combined was similar. Thus, the pooled exploitation of natural enemies did not boost thrips control compared to the single species application of A. cucumeris (non-additive effect), which could be explained by resource competition between both predatory mite species. Species number and population size in the soil of the experimental plots both showed a high variability, a possible consequence of their interaction with released soil-dwelling predatory H. aculeifer mites. The impact of resource competition and presence of alternative preys on thrips biological control is exhaustively discussed. From our study, we can extract the subsequent conclusions: (1) the combined use of H. aculeifer and A. cucumeris cannot increase thrips control on cucumber compared to the release of A. cucumeris alone, but the overall reliability of thrips biological control might be enhanced, (2) the availability of alternative preys seemed to affect the thrips predation rate of H. aculeifer, and (3) the impact of naturally occurring soil predatory mites on the control of WFT seemed to be partial.     

Pollen as Food for the Predatory Mites Iphiseius Degenerans and Neoseiulus Cucumeris (Acari: Phytoseiidae): Dietary Range and Life History

Although all known phytoseiid mites (Acari: Phytoseiidae) are predators of mites or small insects, many readily feed and reproduce on pollen as well. This ability to feed on food from plant origin increases their survival during periods when prey is locally sparse, but might occur at the expense of the ability to utilize food as efficiently as specialized predators. In this study we compare two predatory mite species used as biological control agents against thrips, Neoseiulus cucumeris and Iphiseius degenerans, with respect to (1) the range of pollen species that may serve as food sources for a sustained oviposition; and (2) the life history and expected intrinsic growth rates on some suitable pollen diets. The results show that I. degenerans is, compared to N. cucumeris, able to utilize a larger proportion of approx. 25 pollen species tested, but does not show equally high ovipositional rates as N. cucumeris. Consequently, the highest intrinsic growth rate for I. degenerans (0.21 day ^–1) will be surpassed by N. cucumeris.     

截形叶螨对胡瓜钝绥螨的吸引作用

室内测定表明,截形叶螨不同螨态对胡瓜钝绥螨均有显著的吸引作用,均达到极显著水平,而胡瓜钝绥螨对截形叶螨的排泄物没有明显的反应。截形叶螨对胡瓜钝绥螨的这种吸引作用说明胡瓜钝绥螨具有自动搜索截形叶螨的能力,表明胡瓜钝绥螨可以用于截形叶螨的生物防治。     

Efficacy,prey stage preference and optimum predator–prey ratio of the predatory mite,Neoseiulus longispinosus Evans (Acari: Phytoseiidae) to control the red spider mite,Oligonychus coffeae Nietner (Acari: Tetranychidae) infesting tea

The predatory mite, N. longispinosus preys up on red spider mite, O. coffeae infesting tea in south India. An attempt has been made to determine the predatory potential, prey stage preference and optimum predator–prey ratio of N. longispinosus under laboratory and green house conditions. When 50 adult female O. coffeae were given, the number of adults reduced by eight days along with an increase in the number of predators. The larvae hatched from the eggs laid by O. coffeae were fed by predatory mite. N. longispinosus preyed up on all life stages with a preference to larvae and nymphs of red spider mite. Predator–prey ratios of 1:33 and 1:50 were effective in lab, and 1:25 was found to be effective in green house. These results revealed that N. longispinosus could be used as a successful biocontrol candidate of O. coffeae in tea through augmentation or mass rearing and field release.     

Evaluation of methods to control Phytonemus pallidus and Anthonomus rubi in organic strawberry production

Abstract:  Use of the predatory mite Neoseiulus cucumeris (Oudemans) (Acari, Phytoseiidae) and a fleece cover in combination with pyrethrum application showed potential for control of two important pests in organic production of strawberry ( Fragaria  ×  ananassa Duch.), although there were some unexpected interactions between pyrethrum and the release of N. cucumeris that need to be investigated further. Two cultivars, Honeoye and Cavendish, were treated with pyrethrum with or without fleece to control strawberry blossom weevils [ Anthonomus rubi Herbst. (Col., Curculionidae)] and N. cucumeris was released to control strawberry mites [ Phytonemus pallidus (Banks) (Acari, Tarsonemidae)]. Number of strawberry mites, number of flower buds damaged by the weevil, incidence of grey mould and powdery mildew, and fruit yield were measured in two consecutive fruiting seasons. In Honeoye, the fleece in combination with pyrethrum decreased the proportion of damaged buds by 11–23% and increased yield by 49–91 g per plant. When pyrethrum was used alone it did not influence the number of damaged buds or yield. This indicates that the combined treatment was more effective because of the fleece. In Cavendish, the fleece and pyrethrum treatments were not found to be effective. Almost no P. pallidus was found in Honeoye and the results were not analysable. In plots with Cavendish where N. cucumeris had been released, there were approximately 50% fewer P. pallidus from the end of August onwards in 2003. However, this response did not significantly influence the succeeding year's yield. The number of fruits infected with fungi was very low and no effects were observed for any of the treatments.     

Functional response of Euseius concordis to densities of different developmental stages of the cassava green mite

Both prey density and developmental stage of pests and natural enemies are known to influence the effectiveness of biological control. However, little is known about the interaction between prey density and population structure on predation and fecundity of generalist predatory mites. Here, we evaluated the functional response (number of prey eaten by predator in relation to prey density) of adult females and nymphs of the generalist predatory mite Euseius concordis to densities of different developmental stages of the cassava green mite Mononychellus tanajoa, as well as the fecundity of adult females of the predator. We further assessed the instantaneous rate of increase, based on fecundity and mortality, of E. concordis fed on eggs, immatures and adults of M. tanajoa. Overall, nymphs and adults of E. concordis feeding on eggs, immatures and females of M. tanajoa had a type III functional response curve suggesting that the predator increased prey consumption rate as prey density increased. Both nymphs and adult females of the predator consumed more eggs than immatures of M. tanajoa from the density of 20 items per leaf disc onwards, revealing an interaction between prey density and developmental stage in the predatory activity of E. concordis. In addition, population growth rate was higher when the predator fed on eggs and immatures in comparison with females. Altogether our results suggest that E. concordis may be a good candidate for the biological control of M. tanajoa populations. However, the efficiency of E. concordis as a biological control agent of M. tanajoa is contingent on prey density and population structure.