四种十字花科蔬菜上小菜蛾自然种群连续世代生命表

利用作用因子生命表技术,组建芥菜、芥蓝、小白菜和菜心4种十字花科蔬菜上小菜蛾自然种群连续世代生命表,分析寄主植物和生物因子对小菜蛾种群数量的控制作用。结果表明：在4种十字花科蔬菜的一造菜上,小菜蛾均能完成两个世代。虽然小菜蛾在芥菜上的初始卵量最高,但害虫种群总增长倍数在芥蓝上最高,其次为小白菜,菜心和芥菜,分别为17．64、11．90、11．43和3．76。这说明尽管芥菜对小菜蛾成虫的产卵有一定的吸引作用,但不适合小菜蛾生长发育。芥蓝是最适宜小菜蛾种群增长的寄主。生物因子在小菜蛾自然种群控制中起着重要的作用,但是在不同种类十字花科蔬菜上,天敌类群对小菜蛾控制作用存在一定差异。除芥菜之外,寄生性天敌对芥蓝、菜心和小白菜上的小菜蛾种群控制作用最大,其次为“捕食及其它”,病原微生物的控制作用最小。“捕食及其它”对芥菜上小菜蛾种群的作用非常明显,如果排除此因子作用,小菜蛾种群两代后将增长126．03倍。该因子是导致芥菜小菜蛾自然种群增长趋势指数低的主要原因。因此在制定小菜蛾防治策略时,应考虑蔬菜的种类和布局,加大对芥蓝小菜蛾种群的防治力度;芥菜可作为一种诱杀植物种植,以吸引小菜蛾产卵,并集中防治。这些防治策略在小菜蛾综合治理中具有重要的实际意义。     

颗粒体病毒对不同蔬菜上小菜蛾实验种群的控制作用

通过组建施用颗粒体病毒Plutella xylostellagranulosis virus(PxGV)后4种十字花科蔬菜上的小菜蛾Plutella xylostellaL.实验种群生命表发现:小菜蛾颗粒体病毒除了能引起幼虫感病死亡外,还能显著地降低成虫的产卵量,推迟产卵高蜂1~2 d,但对化蛹及雌蛾寿命无显著影响。在种群水平上,病毒对小菜蛾的控制作用综合表现为压低了小菜蛾种群增长趋势指数,在菜心、芥蓝、芥菜和小白菜上小菜蛾实验种群增长趋势指数在分别为13.7,12.3,10.7和22.7,病毒对小菜蛾种群的干扰作用控制指数(IIPC)分别为0.334,0.177,0.280和0.433,表明病毒对小菜蛾种群的控制能力受到寄主植物的影响,在芥蓝上控制能力最强,其次为芥菜和菜心,而小白菜最次。     

利用寄主干扰效应防控小菜蛾田间种群的有效性

【目的】多寄主对植食性昆虫寄主选择行为具干扰效应。为探究在田间相似寄主混作是否能引起小菜蛾Plutella xylostella (L.)在寄主上的选择困难,减少在寄主上的产卵量,从而实现保护寄主植物的目标。【方法】本研究利用小菜蛾喜好性高的两种寄主（菜心Brassica campestris L.和芥菜B. juncea Coss）为试验对象,通过寄主植物单作、混作及不同配比与间隔种植等田间试验设计,研究了多寄主对小菜蛾寄主选择行为的干扰效应。【结果】在2年的田间试验中,两寄主混作处理上的虫量均低于单一寄主种植;2012年田间种群生命表数据显示,两种寄主田间混作处理上的小菜蛾种群趋势指数（I =4.797）低于单一寄主种植,菜心与芥菜单一种植处理上的I值分别为6.549与6.858;当菜心与芥菜这两种小菜蛾喜好性相近寄主同时存在时,对小菜蛾的干扰程度与两寄主的搭配比例有关,随着菜心所占比重的增大,田间虫量呈现先减后增的抛物线变化趋势;但两寄主间距在2 m内时,不同种植间隔对小菜蛾虫量变化无差异(F_3,8=0.204,P>0.05)。【结论】结果表明,在田间多寄主种植中,除了可利用陷阱作物来防控小菜蛾外,在相邻两畦地间以适当比例同时种植两种小菜蛾喜好性相近的寄主,利用两种寄主植物对植食性昆虫的寄主选择行为产生的干扰效应,也能有效影响田间小菜蛾的种群动态。     

寄主胁迫下小菜蛾种群的RAPD分析

采用RAPD-PCR技术,研究了取食6种不同十字花科寄主植物第4、9、15代小菜蛾Plutella xylostella(L.)种群的DNA多态性。通过17条引物的重复PCR扩增实验,利用NTsys软件对电泳条带统计分析,构建了遗传距离矩阵和聚类分析图谱。结果表明:取食芥蓝的小菜蛾种群与其它5种寄主种群遗传距离较远(0.6523～0.8246),独立聚为一枝;取食萝卜的小菜蛾种群遗传距离与甘蓝上种群较近(0.3443),聚为一枝,并且与白菜、芥菜和菜心上小菜蛾种群遗传距离较近,逐次聚为一枝,芥蓝、萝卜及甘蓝寄主种群随代次的增多种群分化出现稳定规律性。各寄主种群间遗传距离平均值和范围、多态性条带占总条带数目的比例随代次增多而增大,说明种群分化程度随代次增多而加深。     

小菜蛾取食对寄主植物蛋白质和糖含量影响研究

小菜蛾Plutella xylostella (L.)是重要的十字花科作物害虫,寄主植物体内营养物质的变化影响小菜蛾生长发育。本研究以小菜蛾嗜好性不同的菜心、芥菜、白菜和芥蓝等4种寄主植物为材料,应用生化方法测定了被小菜蛾取食后寄主植物体内蛋白和糖含量的变化。结果表明:小菜蛾取食2、4、6、8d后,菜心体内蛋白质含量显著升高2%～35%,葡萄糖含量明显下降9%～33%;芥菜、白菜和芥蓝体内蛋白质和葡萄糖含量显著下降1%～38%和3%～36%。小菜蛾取食后,白菜和菜心体内蔗糖含量显著升高,以菜心为害2d后升高最显著,达23.32%;芥菜和芥蓝则随为害程度的不同蔗糖含量略有差异。     

颗粒体病毒对小菜蛾自然种群的控制作用模拟

利用作用因子组配的生命表和种群系统控制理论,模拟了小菜蛾颗粒体病毒不同浓度和不同施用次数组合对菜心地小菜蛾自然种群的控制作用.结果表明,在蔬菜生态系统天敌作用得到逐渐恢复的前提下,如果不采用任何防治措施,春季菜心地小菜蛾自然种群经第一代的繁殖,第二代卵和幼虫数量为第一代的41倍;在小菜蛾第一代低龄幼虫期,喷施0.25 LE/L病毒2次,小菜蛾第二代卵和幼虫数量比对照显著下降,但下代小菜蛾种群增长仍保持在1以上;而喷施0.5 LE/L病毒2次,1 LE/L病毒1次两种组合处理,小菜蛾第二代种群增长倍数仅为0.13,显著降低田间小菜蛾种群数量,达到控制小菜蛾为害的目的.     

虫害诱导的植株对小菜蛾取食和生长发育的影响

本文从菜田生态系统的角度出发,就黄曲条跳甲Phyllotreta striolata(Fabricius)取食诱导对小菜蛾Plutella xylostella(L.)造成的影响进行了研究。黄曲条跳甲取食诱导对小菜蛾取食的影响比较明显,一般来说,黄曲条跳甲少量或短时间的取食会刺激小菜蛾幼虫在相应叶片上的取食,反之则会抑制;而且不同的寄主,不同完整度的叶片(即是否被黄曲条跳甲取食过)上的承载能力不同,芥菜、白菜、菜心和萝卜的承载力弱于甘蓝和芥蓝,黄曲条跳甲取食过的叶片弱于未被黄曲条跳甲取食过的叶片;不同数量的黄曲条跳甲取食对小菜蛾的产卵量影响显著,对其余生物学参数影响不显著,少量的黄曲条跳甲取食会刺激小菜蛾的产卵,多数则会抑制。     

取食不同寄主植物小菜蛾对氯虫苯甲酰胺敏感性及体内解毒酶活性的变化

为探明寄主植物影响小菜蛾Plutella xylostella L.抗药性的内在因素,本研究以小菜蛾嗜好性不同的菜心(Brassica parachinensis)、芥菜(B.juncea)、白菜(B.chinensis)和芥蓝(B.alboglabra)4种寄主植物为材料,利用生物测定和解毒酶活力测定的方法,研究了取食不同寄主植物的小菜蛾幼虫对氯虫苯甲酰胺敏感性及体内解毒酶活力变化情况。结果表明,4种寄主植物饲养小菜蛾5代后,其敏感性分别为菜心>芥菜>白菜>芥蓝,且其体内活性酶谷胱甘肽S-转移酶(GSTs)、羧酸酯酶(CarE)比活力差异显著(P<0.05),活性的强弱与其敏感性相一致。以取食芥蓝的小菜蛾体内2种解毒酶活性最强。说明寄主植物能影响小菜蛾药剂敏感性及解毒酶活性。试验结果对小菜蛾的综合防控及抗氯虫苯甲酰胺机理研究具有重要的参考价值。     

小菜蛾幼虫对不同寄主的取食嗜好性及其适宜性

对不同寄主种类、不同寄主形态和不同寄主饲喂的小菜蛾(Plutella xylostella)幼虫之间的取食嗜好性比较试验表明,小菜蛾幼虫优先取食大白菜、萝卜或菜心幼苗,其次为油菜和甘蓝幼苗,在大白菜与油菜幼苗之间的取食选择比例是93.33%和6.67％;在甘蓝与菜心幼苗之间的取食选择比例是16.67%和83.33%.小菜蛾幼虫的取食嗜好性受饲喂寄主种类的影响,偏食大白菜或菜心幼苗.小菜蛾幼虫选择寄主取食的次序与寄主体内可溶性糖或淀粉含量没有明显关系,但与两者的相对量呈一定的负相关.取食大白菜或菜心幼苗的小菜蛾生长良好,单头取食达0.583～0.637 cm², 单头体重达2.07～2.18 mg, 与取食甘蓝或油菜幼苗的幼虫在取食量、个体发育方面有明显差异.小菜蛾幼虫也喜好取食已经被虫危害过的幼苗.     

西花蓟马对蔬菜寄主的选择性研究

通过西花蓟马在田间不同蔬菜上的种群数量、在室内对不同蔬菜的自由选择和不同蔬菜对西花蓟马生长发育和繁殖的影响等方面,研究了西花蓟马对蔬菜寄主的选择性。结果表明西花蓟马在田间可危害24种蔬菜,但在不同蔬菜上种群数量差异很大,存在明显的寄主选择性,对黄瓜、四季豆、茄子、萝卜和香菜的嗜食度很高,为最适宜寄主,而对番茄、蒜、芹菜等11种蔬菜的嗜食度较低,为非适宜寄主。西花蓟马在室内的自由选择结果表明西花蓟马在7种不同蔬菜上着落的成虫数量和产卵量不同,其选择性为黄瓜＞四季豆＞茄子＞莴苣＞甘蓝＞芹菜＞蒜。不同蔬菜对西花蓟马的发育历期和产卵量有明显的影响,西花蓟马在黄瓜上发育最快,在四季豆上产卵量最高。西花蓟马对蔬菜寄主的选择性在田间的调查结果和室内实验结果基本一致。     

The effects of wild cruciferous host plants on morphology,reproductive performance and flight activity in the diamondback moth,Plutella xylostella (Lepidoptera: Yponomeutidae)

The wild crucifers,Rorippa indica andLepidium virginicum, are known to serve as host plants for the diamondback moth (DBM),Plutella xylostella, but they are less suitable than the preferred cultivated cruciferous plant, cabbage, in terms of adult body size and fecundity. The life history traits and flight activity of DBM adults grown on various host plants were investigated. The adults thus reared on each host plant were divided into three size groups (small, medium and large). In general, female adults grown on the wild crucifers were less fecund and lived longer than those reared on cabbage. Flight activity was higher in adults grown on wild crucifers than in those reared on cabbage. Male adults flew longer than females. Fecundity, longevity, flight activity and morphometrical characters of adults were positively correlated with pupal weight in individuals reared on the same host plant. A negative relationship was found between fecundity and flight activity in females of the same size group, but a positive one was observed in females reared on the same host plant.     

温室白粉虱对几种园艺植物的偏好性

温室白粉虱Trialeurodesvaporariorum是世界性害虫,每年都造成巨大的经济损失。研究了温室白粉虱在多种园艺植物混栽温室内对不同植物的选择性,结果表明在2 0种常见蔬菜和花卉中,可危害其中1 3种;温室白粉虱对其中6种寄主植物(旱金莲、一品红、菊花、番茄、小白菜和羽叶甘蓝)的选择性有显著差异,其种群数量为旱金莲和番茄显著多于小白菜、一品红和菊花,羽叶甘蓝显著少于其它5种植物;不同的虫态之间排序有小变动;温室白粉虱在番茄植株上部的垂直分布表现为卵和成虫在第3叶居多,若虫在第5叶居多,伪蛹在第9叶居多。     

Generalism Versus Specialism: Responses of Diadegma mollipla (Holmgren) and Diadegma semiclausum (Hellen), to the Host Shift of the Diamondback Moth (Plutella xylostella L.) to Peas

A population of the diamondback moth Plutella xylostella (L.) (Lepidoptera: Plutellidae) (DBM) was recently found to infest sugar snap- and snowpeas in the Rift Valley in Kenya, causing heavy damage. The influence of this host shift on host location preferences of two parasitoids was investigated: The indigenous Diadegma mollipla (Holmgren) regarded as a relative generalist, and Diadegma semiclausum(Hellen), regarded as highly specific to DBM. The attractiveness of different odour sources was compared for the two parasitoid species using a Y-tube olfactometer using naïve females. D. mollipla was not significantly attracted to any cabbage related odours but showed a significant preference for the DBM infested pea plant when tested against clean air. D. semiclausum was highly attracted to the undamaged cabbage plant and odours related to cabbage. On the other hand, peas infested with DBM, showed no attractiveness to this parasitoid. The results showed that specialisation of D. semiclausum is mediated by host plant signals, associated with crucifers, which are not encountered in DBM feeding on peas. For D. mollipla,although a frequent parasitoid on DBM in crucifers, volatiles emitted by these plants might not be used as primary cues for host location. This species may respond largely to chemicals yet unknown and associated with a variety of plant-herbivore interactions.     

Biological control of the diamondback moth, Plutella xylostella: A review

The diamondback moth (DBM), Plutella xylostella (L.) (Lepidoptera: Plutellidae), is one of the most destructive cosmopolitan insect pests of brassicaceous crops. It was the first crop insect reported to be resistant to DDT and now, in many crucifer producing regions, it has shown significant resistance to almost every synthetic insecticide applied in the field. In certain parts of the world, economical production of crucifers has become almost impossible due to insecticidal control failures. Consequently, increased efforts worldwide have been undertaken to develop integrated pest management (IPM) programs, principally based on manipulation of its natural enemies. Although over 130 parasitoid species are known to attack various life stages of DBM, most control worldwide is achieved by relatively few hymenopteran species belonging to the ichneumonid genera Diadegma and Diadromus, the braconid genera Microplitis and Cotesia, and the eulophid genus Oomyzus. DBM populations native to different regions have genetic and biological differences, and specific parasitoid strains may be associated with the specific DBM strains. Therefore, accurate identification based on genetic studies of both host and parasitoid is of crucial importance to attaining successful control of DBM through inoculative or inundative releases. Although parasitoids of DBM larvae and pupae are currently its principal regulators, bacteria-derived products (e.g., crystal toxins from Bacillus thuringiensis) and myco-insecticides principally based on Zoophthora radicans and Beauveria bassiana are increasingly being applied or investigated for biological control. Viruses, nematodes and microsporidia also have potential as biopesticides for DBM. When an insect pest is exposed to more than one mortality factor, there is the possibility of interactions that can enhance, limit, or limit and enhance the various aspects of effectiveness of a particular control tactic. This paper reviews the effectiveness of various parasitoids and entomopathogens against DBM, interactions among them, and their possible integration into modern IPM programs.     

Herbivore‐induced plants do not affect oviposition but do affect fitness of subsequent herbivores on canola

The diamondback moth (DBM), Plutella xylostella (L.) (Lepidoptera: Plutellidae), is oligophagous on plants in the Brassicaceae, and is considered one of the most significant insect pests of canola (Brassica napus L.), a major oilseed crop grown in the Prairie Provinces of Canada. The bertha armyworm (BAW), Mamestra configurata Walker (Lepidoptera: Noctuidae), is a generalist herbivore that preferentially feeds on canola plants. In the canola growing season in the Prairie Provinces of Canada, DBM feeding occurs prior to BAW herbivory. In this study, we test the effect of DBM herbivory on subsequent host use by BAW. Oviposition by female BAW was not influenced by previous DBM‐herbivory or mechanical damage of canola plants. Bertha armyworm larvae were deterred from feeding on canola previously damaged by DBM and larvae developed into lighter pupae when reared on DBM‐damaged plants. Bertha armyworm pupae that developed from larvae fed on mechanically damaged plants had similar pupal weights to those fed undamaged plants. Adult BAW reared on canola with previous DBM feeding damage had marginally smaller wings than moths reared on canola treated differently. The combination of these results suggests that herbivory by the brassicaceous specialist, DBM, negatively influences host use and larval performance by the generalist, BAW, on canola.     

Influence of cabbage resistance and colour upon the diamondback moth and its parasitoid Oomyzus sokolowskii

Host plant resistance and biological control are vital integrated pest management tools against the diamondback moth (DBM), Plutella xylostella (L.) (Lepidoptera: Plutellidae), but to date no study has investigated this system including the DBM parasitoid Oomyzus sokolowskii (Kurdjumov) (Hymenoptera: Eulophidae). We examined oviposition and development of P. xylostella exposed to two commercial cabbage cultivars (green ‘Chato de quintal’ and red ‘Roxo’) and possible effects upon O. sokolowskii. Under free‐choice tests, DBM females laid significantly more eggs on plants of the green cabbage, even though several population growth parameters showed that DBM developed better on the red cabbage. Furthermore, a laboratory free‐choice test with artificially green‐ and red‐painted kale leaf discs demonstrated a similar oviposition preference pattern, with green colour being preferred over red colour. The preference was apparently visually mediated; olfactometer tests showed similar attraction of moths to both green and red cultivars in choice and non‐choice tests. Host plant cultivar had no statistically significant effect on female parasitoid behaviour towards DBM larvae, nor on parasitoid numbers or longevity. Moreover, wasps parasitizing DBM larvae reared on the green cultivar developed more quickly and in larger numbers per parasitized larva. Thus, feeding on green cabbage rather than red does not hinder, and potentially even enhances, control of DBM by O. sokolowskii. On a practical level, these results suggest that intercalating green cabbage cultivars as a trap crop might help protect more profitable red cultivars in growing fields.     

Can cruciferous agroecosystems grown under variable conditions influence biological control of Plutella xylostella (Lepidoptera: Plutellidae)?

Determining the most efficacious method for the release of parasitoids is challenging, depending on the crop area to be covered and the environmental conditions created by the agroecosystem. Release of the parasitoid Oomyzus sokolowskii (Kurdjumov) and the effect of crucifers cropping systems were investigated in relation to diamondback moth (DBM), Plutella xylostella (L.) control. First, we investigated the dispersal ability of O. sokolowskii. Kale plants were infested with 20, 25, 30 and 35 DBM larvae each, at distances of 0, 8, 16, and 24 m, from a central release point in the field. Second, the effect of a multiple host plant system composed of cabbage, broccoli and Napa cabbage on the parasitism capacity of O. sokolowskii was investigated. Lastly, the parasitism capacity of O. sokolowskii and the colonization rate of DBM were investigated comparing cropping systems composed of either a monoculture of cabbage, or three different intercropping systems: cabbage and green onion, cabbage and cilantro, and cabbage, green onion and cilantro. For all experiments, selected plants were infested with sentinel DBM larvae and caged with mesh that allowed parasitoids to search inside the cages while reducing the impact of opportunists on DBM larvae. Results showed that parasitoids were able to disperse and parasitize P. xylostella at similar rates throughout a field of kale up to 24 m from the release point. Intercropping of cabbages with other crop plants did not negatively affect parasitism rates of O. sokolowskii, which makes it promising for DBM biological control; however it did not interfere with cabbage colonization by DBM.     

EFFECTS OF HOST PLANTS ON POPULATION DYNAMICS OF LIPAPHIS ERYSIMI (KALT.) IN THE FIELD

Abstract The population dynamics of alates and apterous of turnip aphid (TA) Lipaphis erysimi (Kalt.) together with the incidence of parasitism by Diaeretiella rapae (M'Intosh) on five host vegetable varieties in the field were evaluated. The results showed that the average populations of TA apterous on host vegetable varieties turnip, Chinese kale, leaf mustard, flowering cabbage and Chinese cabbage were 63. 425, 10. 041, 24. 928, 23. 323 and 114. 308 aphids/plant, respectively. The 'critical day' was used to estimate the date when TA population density on host vegetable varieties reaches its economic threshold. The relationship between TA apterous population ( x ) and mummy aphids parasitized by parasitoid D. rapae was significant, and the regression formula is y = 0. 1211 + 0. 01431 (r=0. 9739**).     

The diamondback moth, Plutella xylostella, specifically inactivates Mustard Trypsin Inhibitor 2 (MTI2) to overcome host plant defence

The mustard trypsin inhibitor family has so far only been described among cruciferous species which represent the host plants for the specialist diamondback moth (DBM), Plutella xylostella. The performance of a Dutch and Chinese strain of DBM was assessed on transgenic Arabidopsis expressing Mustard Trypsin Inhibitor 2 (MTI2) at a level of 84 microg/g fresh weight equivalent to 12 microM. No significant differences in larval mortality or development were found relative to the control. Trypsin activity in gut extracts from larvae feeding on either control or transgenic plants were titrated with MTI2 and SKTI (Soybean Kunitz Trypsin Inhibitor) to assess the basis of the insensitivity to MTI2. The specific trypsin activity per gut of larvae reared on MTI2 plants was not significantly higher compared to the control, and ca. 80% of trypsin activity could be inhibited by both inhibitors in both treatments, suggesting no specific induction of PI-insensitive activity in response to MTI2 in the diet. On the basis of the apparent equilibrium dissociation constant of Plutella trypsins for MTI2 (80 nM), the gut trypsin concentration (4.8 microM), and the MTI2 concentration in the leaves (12 microM) it was calculated that 99% of the gut trypsin activity sensitive to MTI2 should be inhibited in vivo, unless MTI2 was degraded. Indeed, we found that a pre-incubation of MTI2 and SKTI with gut proteases for 3 h resulted in complete loss of inhibitory activity of MTI2, but not of SKTI, at the concentration ratios found in planta. This process was enzymatic as it was inactivated by heat. Gut extracts of larvae reared on control or MTI2 leaves were equally well capable of this degradation indicating that the inactivating enzymes are constitutively expressed. In conclusion, it appears that the insensitivity of the diamondback moth to MTI2 can be sufficiently explained by the specific degradation of MTI2, thereby protecting itself against this protease inhibitor which is part of the defense of cruciferous plant species.