几种杀虫剂对酢浆草如叶螨的毒力及增效作用研究

采用药膜法,研究了甲氰菊酯、氧乐果及毒死蜱对酢浆草如叶螨的毒力及增效作用。结果表明,酢浆草如叶螨对氧乐果最敏感,LC_(50)为28.48 mg/L,甲氰菊酯次之,LC_(50)为394.55 mg/L,毒死蜱最不敏感,LC_(50)高达5876.43 mg/L;增效试验表明,磷酸三苯酯(TPP)、增效醚(PBO)及顺丁烯二酸二乙酯(DEM)对3种杀虫剂均有一定的增效作用,总体上,TPP的增效最好,PBO次之,DEM增效作用稍差。因此,氧乐果和甲氰菊酯对酢浆草如叶螨有较好防治作用,应减少毒死蜱使用;酯酶、多功能氧化酶及谷胱甘肽S-转移酶是该螨最重要的解毒代谢酶。     

一种新型叶螨饲养器的设计与制作

分析了现有的叶螨个体饲养或定量饲养的方法或器具的缺陷。根据酢浆草如叶螨Tetranychina harti(Ewing)及其寄主植物红花酢浆草(Oxalis corymbosa DC)的特点,设计、制作了一种新型饲养器,解决了常用的离体湿基叶片法中叶片表面温湿度与设定的环境条件不一致、叶螨生活状态不自然和活体叶片法中镜检观察不方便的问题,取得了较好的效果。本设计在其他叶螨或微小昆虫的饲养中也可以作为借鉴。     

几种常见桔园螨类Wolbachia基因检测与序列分析

应用共生菌沃尔巴克氏体Wolbachia的wsp、ftsZ和16SrDNA基因特异引物,通过PCR扩增法对采自江西省南昌、九江和赣州等3地桔园内的东方钝绥螨、江原钝绥螨、尼氏真绥螨、巴氏新小绥螨、桔全爪螨和酢浆草如叶螨等6种常见螨类进行了检测。结果表明,在采自南昌桔园内的酢浆草如叶螨体内检测到Wolbachia感染,其wsp、ftsZ和16SrDNA基因长度为593、758和896bp,Genbank登录号依次为GQ162482、GQ162483和GQ162484,而其他5种螨体内均未检测出Wolbachia的感染;同时通过对酢浆草如叶螨体内感染的Wolbachia的wsp基因序列进行系统发育分析,得出其与B大组的Epo组的Wolbachia株十分相近,可能是相近或相同的株。     

华东地区园林叶螨的初步研究（蜱螨目：叶螨总科）

笔经过数年的调查研究,查知华东园林植物上叶螨种类90种,分属3科22属。章报道了这些种类及其新的寄主植物和分布,研究发现,酢酱草如叶螨,柑桔全爪螨、构始叶螨、截形如螨,神泽叶螨,柏小爪螨,合肥埃须螨,俄勒冈小扁螨,刘氏短须螨和卵形短须螨等为园林植物上的主要种类,二点叶螨和朱砂叶螨是世界性分布的重要害螨。通常被认为是主要种类,但在华东园林植物上分布尚有限,加强检疫防止它们的传播扩散是十分必要的,章讨论了其它有关问题,所有标本均存放于上海农学院园环系农螨研究室。     

酢浆草岩螨生物学特性和种群动态研究

采用室内饲养和田间调查相结合的方法,系统研究了酢浆草岩螨的生物学特性和种群动态。结果表明：24℃－30℃范围内,发育历期随温度的升高而缩短,24℃完成1代需要15．86±0．47d,30℃需要11．57±0．60d;成螨的寿命和产卵期随温度的升高而缩短,24℃时分别为18±0．56d和15．78±0．61d,30℃缩短为14．18±0．75d和12。30-0．83d;平均产卵量和日均产卵量随温度的升高而增加,24℃时分别为33．67±1．39粒／早和2．13±0．12粒／d／早;30℃时增加为65．90±3．45粒／早和5．65±0．36粒／d／早。该螨在豫北地区1年发生7～9代,有2次发生高峰,第1次在5月中下旬至7月下旬,第2次在10月中旬至11月中旬。以雌成螨在红花酢浆草根际附近的土缝内越冬。     

介绍一种叶螨染色体的制片技术

<正> 叶螨总科(Tetranychoidea)包括了许多世界性分布的农业大害虫。研究叶螨的染色体,对于其分类、进化、性比和孤雌生殖等方面的研究均有十分重要的意义。叶螨个体小,染色体十分短小(一般1～4μm),给观察和研究带来了一定的难度。国外一般采用普通压片法制片、观察叶螨的染色体,但国内尚未见有关这方面的报道。作者以朱砂叶螨Tetranychuscinnabarinus(Boisduval)和二斑叶螨T.ur-ticae Koch为材料对叶螨染色体的制片技术进行了摸索,现简要报道如下。     

中国始叶螨属四新种记述(蜱螨亚纲:叶螨科)

始叶螨属(Eotetranychus Oudemans,1931)是叶螨科中较大的一个属。自1931年建属以来,种数不断迅速增加,目前已知种数达150余种,仅次于叶小爪属(OligotetrangchusBerlese)。国内自60年代开始研究,迄今已发现30种。作者在研究华东园林叶螨时,发现了该属叶螨四新种,兹记述如下。模式标本保存于上海农学院植保系。文中测量单位     

尼氏钝绥螨对柑桔始叶螨捕食作用研究

尼氏钝梁螨AmblyseiusnicholsiEharaetLee是贵州省桔园叶螨天敌优势种,对抑制叶螨种群有一定作用。关于保护利用该螨综合防治柑桔全爪螨已有报道[1,2],但对柑桔上男一重要叶螨──柑桔始叶螨的捕食作用、控制能力等方面报道较少。本文研究了尼氏纯绥螨对柑桔给叶螨捕食作用,为柑桔始叶螨综合治理提供理论依据。王材料和方法1．1虫源：尼氏钝绥做雄成螨和柑桔始叶绒成螨采自桔园。卵、幼螨、若螨均在室内饲养而得。1．2反应皿设置：在直径为12cm的培养皿内置一层浸水的泡沫,上面平铺1张滤纸,其上放1张平展的柑桔叶片,叶片四周用浸过…     

苹果园二斑叶螨种群的空间格局

种群空间格局的研究是昆虫生态学的重要内容,它不仅揭示出种群的空间结构特征,而且还是确定抽样技术和资料代换的基础,二斑叶螨是苹果园的重要害螨,应用4种聚集度指标和Iwao法分别考查了该螨在苹果树内的空间格局及动态规律,结果表明,二斑叶螨在树内不同方向和高度上均以个体群的形式存在,个体群的分布为聚集分布,其中上层和南面树冠的聚集度最高,而下层和内部树冠的聚集度最低,造成这种差异与该螨的生物学特性和环境条件的异质性有关,不论螨体在上层,中层或下层树冠,都明显地表现出前期高聚块,6月中旬以后聚集强度逐渐降低的趋势。     

稀土元素铕和钇对紫叶酢浆草试管苗生长的影响

在MS培养基中添加不同浓度的稀土元素铕(Eu)、钇(Y),研究Eu、Y对紫叶酢浆草试管苗生长的影响。结果表明,适宜浓度的Eu或Y能够促进紫叶酢浆草试管苗的生长和分化,但高浓度的Eu或Y则抑制紫叶酢浆草试管苗生长。     

不同猎物及密度对巴氏新小绥螨和拉戈钝绥螨同类相残和集团内捕食作用的影响

明确不同猎物及密度下巴氏新小绥螨Neoseiulus barkeri与拉戈钝绥螨Amblyseius largoensis(Muma)的同类相残和集团内捕食作用,为其协同应用控制橡胶树害螨提供依据.在室温27±1℃、湿度75％±5％、光周期12 L∶12D 条件下,以六点始叶螨 Eotetranvchus sexmaculatus(Riley)、比哈小爪螨Oligonychus biharen(Hirst)和东方真叶螨Eutetranychus orientalis(klein)为集团外猎物,观察巴氏新小绥螨和拉戈钝绥螨对集团内和集团外猎物的捕食选择行为,以及不同集团外猎物密度下两种捕食螨对同种和异种捕食螨的捕食作用.巴氏新小绥螨和拉戈钝绥螨对异种个体及集团外不同猎物的捕食偏好性及捕食时间存在明显差异.巴氏新小绥螨偏好取食集团外猎物,异种捕食螨拉戈钝绥螨残存率达到80.00％以上;拉戈钝绥螨偏好取食集团外猎物六点始叶螨和比哈小爪螨,而当东方真叶螨存在时,其更偏好取食异种捕食螨巴氏新小绥螨(残存率为26.67％);发生集团内捕食时,拉戈钝绥螨为集团内捕食者,而巴氏新小绥螨为集团内猎物.集团外猎物密度可显著影响巴氏新小绥螨和拉戈钝绥螨相残作用,尤以猎物六点始叶螨对巴氏新小绥螨和东方真叶螨对拉戈钝绥螨影响最为明显,其充足时比无猎物时捕食量分别下降了 68.85％和62.90％.巴氏新小绥螨和拉戈钝绥螨的集团内捕食分别以比哈小爪螨和六点始叶螨的影响最大,猎物充足时比无猎物时捕食量下降了 80.00％和69.44％,但拉戈钝绥螨在以东方真叶螨为猎物时集团内捕食受猎物密度影响较小,猎物充足时取食量与猎物不足时接近,比无猎物时捕食量只下降20.83％.集团外猎物六点始叶螨、比哈小爪螨存在时,巴氏新小绥螨和拉戈钝绥螨表现为偏好选择集团外猎物,密度增加对两种植绥螨的同类相残和集团内捕食作用有明显抑制作用,但东方真叶螨充足与否,拉戈钝绥螨对巴氏新小绥螨的集团内捕食作用影响差异不显著.     

东亚小花蝽对西方花蓟马和二斑叶螨的捕食选择性

多食性天敌对猎物的捕食选择性及猎物密度对天敌捕食的干扰作用直接影响到天敌对不同猎物的控制作用.在实验室条件下研究了东亚小花蝽对西方花蓟马和/或二斑叶螨不同虫态的捕食选择性,以及两猎物中一种猎物的密度变化对小花蝽取食另一种猎物的影响.结果如下:东亚小花蝽5龄若虫和成虫对西方花蓟马2龄若虫的捕食选择性均强于对其成虫,对二斑叶螨的选择性为雌成螨>若螨>幼螨.实验中西方花蓟马2龄若虫是东亚小花蝽最喜好的虫态.二斑叶螨雌成螨密度固定为60头/19.63cm2,西方花蓟马若虫密度从10增加到60时显著地减少了东亚小花蝽对二斑叶螨的取食.反之,固定西方花蓟马同样密度,增加二斑叶螨密度却没有显著改变小花蝽对西方花蓟马的取食.此结果进一步表明,西方花蓟马是东亚小花蝽更喜好的猎物.     

Beat sampling accuracy in estimating spruce spider mite (Acari: Tetranychidae) populations and injury on juniper

The use of a standardized beat sampling method for estimating spruce spider mite, Oligonychus ununguis (Jacobi) (Acari: Tetranychidae), densities on a widely used evergreen ornamental plant species, Juniperus chinensis variety 'Sargentii' A. Henry (Cupressaceae), was examined. There was a significant positive relationship between total spruce spider mite densities and spider mite densities from beat sampling on juniper. The slope and intercept of the relationship may be used by pest managers to predict total spider mite densities on plants from beat sample counts. Beat sampling dramatically underestimates the total number of spider mites on a foliage sample. The relationships between spruce spider mite feeding injury and spider mite density estimates from beat sampling juniper foliage and total spider mite counts on foliage were also examined. There was a significant positive relationship between spruce spider mite density as estimated from beat sampling and injury to the plants. There was a similar positive relationship between the total number of spruce spider mites and injury to the plants, suggesting that a pest manager could use beat sampling counts to estimate plant injury and related thresholds. These findings have important implications to decision-making for spruce spider mite control, especially as it relates to threshold levels and determining rates of predator releases. Further assessment of the effectiveness of beat and other sampling methods across multiple spider mite- host plant associations needs to be examined to enable pest managers to select sampling plans that are feasible and reliable.     

Gene Pyramiding of Peptidase Inhibitors Enhances Plant Resistance to the Spider Mite Tetranychus urticae

The two-spotted spider mite Tetranychus urticae is a damaging pest worldwide with a wide range of host plants and an extreme record of pesticide resistance. Recently, the complete T. urticae genome has been published and showed a proliferation of gene families associated with digestion and detoxification of plant secondary compounds which supports its polyphagous behaviour. To overcome spider mite adaptability a gene pyramiding approach has been developed by co-expressing two barley proteases inhibitors, the cystatin Icy6 and the trypsin inhibitor Itr1 genes in Arabidopsis plants by Agrobacterium-mediated transformation. The presence and expression of both transgenes was studied by conventional and quantitative real time RT-PCR assays and by indirect ELISA assays. The inhibitory activity of cystatin and trypsin inhibitor was in vitro analysed using specific substrates. Single and double transformants were used to assess the effects of spider mite infestation. Double transformed lines showed the lowest damaged leaf area in comparison to single transformants and non-transformed controls and different accumulation of H(2)O(2) as defence response in the leaf feeding site, detected by diaminobenzidine staining. Additionally, an impact on endogenous mite cathepsin B- and L-like activities was observed after feeding on Arabidopsis lines, which correlates with a significant increase in the mortality of mites fed on transformed plants. These effects were analysed in view of the expression levels of the target mite protease genes, C1A cysteine peptidase and S1 serine peptidase, identified in the four developmental mite stages (embryo, larvae, nymphs and adults) performed using the RNA-seq information available at the BOGAS T. urticae database. The potential of pyramiding different classes of plant protease inhibitors to prevent plant damage caused by mites as a new tool to prevent pest resistance and to improve pest control is discussed.     

Population density and phenology of Tetranychus urticae (Acari: Tetranychidae) in hop is linked to the timing of sulfur applications

The twospotted spider mite, Tetranychus urticae Koch, is a worldwide pest of numerous agronomic and horticultural plants. Sulfur fungicides are known to induce outbreaks of this pest on several crops, although mechanisms associated with sulfur-induced mite outbreaks are largely unknown. Studies were conducted during 2007-2009 in Oregon and Washington hop yards to evaluate the effect of timing of sulfur applications on T. urticae and key predators. In both regions, applications of sulfur made relatively late in the growing season (mid-June to mid-July) were associated with the greatest exacerbation of spider mite outbreaks, particularly in the upper canopy of the crop. The severity of mite outbreaks was closely associated with sulfur applications made during a relatively narrow time period coincident with the early exponential phase of spider mite increase and rapid host growth. A nonlinear model relating mean cumulative mite days during the time of sulfur sprays to the percent increase in total cumulative mite days (standardized to a nontreated plot) explained 58% of the variability observed in increased spider mite severity related to sulfur spray timing. Spatial patterns of spider mites in the Oregon plots indicated similar dispersal of motile stages of spider mites among leaves treated with sulfur versus nontreated leaves; however, in two of three years, eggs were less aggregated on leaves of sulfur-treated plants, pointing to enhanced dispersal. Apart from one experiment in Washington, relatively few predatory mites were observed during the course of these studies, and sulfur-induced mite outbreaks generally occurred irrespective of predatory mite abundance. Collectively, these studies indicate sulfur induces mite outbreaks through direct or indirect effects on T. urticae, mostly independent of predatory mite abundance or toxicity to these predators. Avoidance of exacerbation of spider mite outbreaks by sulfur sprays was achieved by carefully timing applications to periods of low spider mite abundance and slower host development, which is generally early to mid-spring for hop.     

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.     

Allocating time between feeding, resting and moving by the two-spotted spider mite, Tetranychus urticae and its predator Phytoseiulus persimilis

This study characterizes the timing of feeding, moving and resting for the two-spotted spider mite, Tetranychus urticae Koch and a phytoseiid predator, Phytoseiulus persimilis Athias-Henriot. Feeding is the interaction between T. urticae and plants, and between P. persimilis and T. urticae. Movement plays a key role in locating new food resources. Both activities are closely related to survival and reproduction. We measured the time allocated to these behaviours at four ages of the spider mite (juveniles, adult females immediately after moult and adult females 1 and 3 days after moult) and two ages of the predatory mite (juveniles and adult females). We also examined the effect of previous spider mite-inflicted leaf damage on the spider mite behaviour. Juveniles of both the spider mite and the predatory mite moved around less than their adult counterparts. Newly emerged adult female spider mites spent most of their time moving, stopping only to feed. This represents the teneral phase, during which adult female spider mites are most likely to disperse. With the exception of this age group, spider mites moved more and fed less on previously damaged than on clean leaves. Because of this, the spider mite behaviour was initially more variable on damaged leaves. Phytoseiulus persimilis rested at all stages for a much larger percentage of the time and spent less time feeding than did T. urticae; the predators invariably rested in close proximity to the prey. Compared to adult predators, juveniles spent approximately four times as long handling a prey egg. The predator-prey interaction is dependent upon the local movement of both the predators and prey. These details of individual behaviours in a multispecies environment can provide an understanding of population dynamics.     

Effects of microenvironment on the dynamics of spider-mite populations

The relationship between environmental variables (chiefly temperature and humidity) and the population dynamics of spider mites is reviewed. Both direct effects on the spider mites and indirect effects operating through effects on spider mite natural enemies (mainly phytoseiid mites) are discussed. Factors determining the environmental conditions actually experienced by spider mites (microenvironment) are presented.Microenvironmental information versus environmental information from nearby weather stations is evaluated for utility in predicting spider mite population dynamics. A comprehensive plant canopy/spider mite/phytoseiid model is used to simulate an irrigated maize/spider-mite/phytoseiid system in a semi-arid climate. Under nearly all tested combinations of weather and irrigation, substantial differences were seen between simulations that considered microenvironment and those that considered only environmental conditions above the plant canopy. Future research needs are discussed.     

Density dependent population growth of the two-spotted spider mite, Tetranychus urticae, on the host plant Leonurus cardiaca

We observed Tetranychus urticae (Koch), a polyphagous spider mite herbivore, on Leonurus cardiaca (L.) at several sites in eastern North America at variable density, ranging from extremely dense to sparse. To understand the nature of T. urticae 's population dynamics we experimentally manipulated population densities on L. cardiaca and assessed per capita growth after 1 to 2 generations in laboratory and field experiments. In particular, we took a 'bottom-up' approach, manipulating both plant size and quality to examine effects on mite dynamics. Per capita growth was strongly dependent on the initial density of the mite population. Spider mite populations grew (1) in a negatively density dependent manner on small plants and (2) unhindered by density dependence on large plants. Mean per capita growth was 59% higher on small plants compared to large plants, irrespective of mite density. We also found evidence for density dependent induced susceptibility to spider mites in small plants and density dependent induced resistance in large plants. Hence, spider mite populations grew at a relatively fast rate on small plants, and this was associated with negative density dependence due to factors that depress population growth, such as food deterioration or limitation. On large plants, spider mite populations grew at a relatively slow rate, apparently resulting in herbivore densities that may not have been high enough to cause intraspecific competition or other forms of negative density dependence.     

Differences among plant species in acceptance by the spider mite Tetranychus urticae Koch

Abstract:  The spider mite Tetranychus urticae Koch has a broad range of host plants. However, the spider mite does not accept all plants to the same degree because of differences in nutritive and toxic constituents. Other factors, such as the induction of secondary metabolites, the morphology of a leaf surface and the presence of natural enemies, also play an important role in plant acceptance. We compared plants from various families in their degree of acceptance by the spider mite, to get an indication of the plant's direct defence. Glycine max (soybean), Humulus lupulus (hop), Laburnum anagyroides (golden chain) and Nicotiana tabacum (tobacco) were highly accepted by the spider mites. Different glandular hair densities among tobacco cultivars did not affect their suitability towards spider mites significantly. Solanum melalonga (eggplant), Robinia pseudo-acacia (black locust), Vigna unguiculata (cowpea) and Datura stramonium (thorn apple) were accepted by the spider mites to a lesser degree. Vitis vinifera (grapevine) was poorly accepted by the spider mite. It might be that the food quality of the leaves was not high enough to arrest the spider mites. Also, Capsicum annuum (sweet pepper) and especially Ginkgo biloba (ginkgo) were poorly accepted by the spider mite, probably because of the presence and concentration of certain of the secondary metabolites in the leaves. The spider mites accepted all the plants belonging to the Fabaceae for feeding, but those belonging to the Solanaceae showed a larger variance in spider mite acceptance varying from well accepted (tobacco) to poorly accepted (sweet pepper).