小卷蛾线虫脱水休眠的形态与耗氧量

报道了小卷蛾线虫 Steinernema carpocapsae (BJ品系)在高渗液中脱水进入休眠的形态变化和耗氧量。结果表明：脱水线虫的形态变化与耗氧量相关,线虫在高渗液第30 h内,脱水程度越强,耗氧量越低。线虫脱水进入休眠从形态上分为螺旋、鞘壁分离和侧线弯曲三个阶段。在螺旋阶段脱水线虫代谢开始减慢,耗氧量较对照减少了14%。在鞘壁分离阶段脱水线虫开始进入休眠,耗氧量较对照减少了65%,加水后线虫在10 min内100%复苏。在侧线弯曲阶段Ⅰ脱水线虫进入了深度休眠,耗氧量较对照减少了79%,加水后在30 min内100%复苏。     

小卷蛾斯氏线虫侵染对草地贪夜蛾幼虫天然免疫反应的影响

【目的】探讨昆虫病原线虫小卷蛾斯氏线虫Steinernema carpocapsae All侵染对草地贪夜蛾Spodoptera frugiperda幼虫天然免疫反应的影响。【方法】借助倒置显微镜观察和鉴定草地贪夜蛾幼虫的血细胞类型,并对小卷蛾斯氏线虫侵染后不同时间的草地贪夜蛾幼虫血细胞总数目进行统计;通过倒置显微镜观察草地贪夜蛾幼虫对侵入的小卷蛾斯氏线虫的包囊反应;利用倒置荧光显微镜观察小卷蛾斯氏线虫侵染后的草地贪夜蛾幼虫血细胞对金黄色葡萄球菌Staphylococcus aureus的吞噬活性;检测小卷蛾斯氏线虫侵染后的草地贪夜蛾幼虫血淋巴中酚氧化酶(phenoloxidase, PO)活性、体内抗菌肽基因相对表达水平以及血浆的抗菌活性。【结果】从草地贪夜蛾幼虫体内共发现5种不同类型的血细胞,分别为原血细胞、粒细胞、类绛色细胞、珠血细胞和浆血细胞。注射1 μL侵染期(infective juveniles, IJs)小卷蛾斯氏线虫(3 IJs/μL)后9和12 h,草地贪夜蛾幼虫的血细胞总数目显著增多。草地贪夜蛾幼虫的血细胞不能包囊活的以及冷处死的小卷蛾斯氏线虫,但可以包囊热处死的线虫。活的小卷蛾斯氏线虫会显著抑制草地贪夜蛾幼虫血细胞对金黄色葡萄球菌的吞噬活性,但冷处死和热处死的线虫不能。注射1 μL(3 IJs/μL)小卷蛾斯氏线虫后,草地贪夜蛾幼虫血淋巴PO活性总体呈“下降 升高 下降”变化趋势;体内抗菌肽基因Attacin-A2, Attacin-B1, Cecropin-B3, Cecropin-D, Gallerimycin, Gloverin-3以及Lebocin-2的表达水平在线虫侵染后12 h时显著上调,24 h时恢复到对照水平或低于对照水平;血淋巴抗菌活性水平在小卷蛾斯氏线虫侵染后12 h时显著升高,24 h时与对照无显著差异。【结论】小卷蛾斯氏线虫在侵入早期会抑制草地贪夜蛾幼虫的天然免疫反应来建立感染;随后草地贪夜蛾的免疫系统会被激活试图抵御小卷蛾斯氏线虫的侵染;后期随着线虫的成功定殖,草地贪夜蛾的免疫系统最终被抑制或破坏。本研究所得结果为进一步揭示线虫 草地贪夜蛾的免疫互作机理奠定了基础,也为改善昆虫病原线虫对草地贪夜蛾的防治效果提供了理论依据。     

昆虫病原线虫对腰果细蛾的致病力测定

室内测定了Steinernema carpocapsae All、S.carpocapsae Biosys、S.glaseri NC52、S.longicaudum X-7、Heterorhabditis bacteriophora H06和H.indica LN2共6个昆虫病原线虫品系对腰果细蛾Acrocercops syngramma Meyrick幼虫的致病力。结果表明,线虫S.carpocapsae All、Biosys品系与线虫S.glaseri NC52对腰果细蛾幼虫的致死效果显著高于其它线虫,但供试的6个线虫品系均未能在腰果细蛾幼虫体内繁殖下一代,说明供试线虫在腰果细蛾幼虫体内难以繁殖。选择小卷蛾斯氏线虫S.carpocapsae All进一步研究其对腰果细蛾的致病力,结果发现,All线虫对腰果细蛾3龄幼虫处理24 h后的致死中浓度LC50为19.88 IJs/虫。腰果细蛾各龄幼虫和蛹对小卷蛾斯氏线虫S.carpocapsae All均表现出高度的敏感性,但不同幼虫龄期和处理时间敏感程度不同。小卷蛾斯氏线虫S.carpocapsae All对不同龄期腰果细蛾幼虫和蛹均表现出较强的致病力。     

病原线虫对桔小实蝇种群的控制作用

通过室内和田间实验研究了昆虫病原线虫对桔小实蝇Bactrocera (Bactrocera) dorsalis (Hendel)的控制作用。室内实验结果表明,供试的3种线虫的4个品系（小卷蛾斯氏线虫Steinernema carpocapsae All品系与A24品系,夜蛾斯氏线虫Steinernema feltiae SN品系和嗜菌异小杆线虫Heterorhabditis bacteriophora H06品系）,以小卷蛾斯氏线虫All品系对桔小实蝇的侵染力最强,其3天的LD₅₀和LD₉₅分别为35.0和257.1条/cm²土壤。按300条/cm²土壤的量施用,小卷蛾斯氏线虫All品系对当代桔小实蝇的控制效果为86.3%。用以虫期作用因子组建的生命表方法评价了小卷蛾斯氏线虫All品系对田间桔小实蝇下代种群的控制作用,结果表明,按300条/cm²土壤的量施用线虫,对照杨桃园的桔小实蝇种群趋势指数为105.9,而处理杨桃园的桔小实蝇种群趋势指数下降为15.5;小卷蛾斯氏线虫All品系对桔小实蝇的干扰控制指数为0.146,即线虫处理果园的下代种群密度仅为对照果园的14.6%。     

4种昆虫病原线虫对草地贪夜蛾的致死作用

【目的】探讨昆虫病原线虫对草地贪夜蛾幼虫的侵染效果。【方法】在室内条件下采用生测试验法,测定了小卷蛾斯氏线虫AⅡ、长尾斯氏线虫X-7、夜蛾斯氏线虫SN和嗜菌异小杆线虫H06等4种昆虫病原线虫对草地贪夜蛾2龄和5龄幼虫的致死作用。【结果】小卷蛾斯氏线虫AⅡ与草地贪夜蛾数量比为50∶1时,36 h后草地贪夜蛾2龄和5龄幼虫的死亡率分别为92%和100%。长尾斯氏线虫X-7与草地贪夜蛾数量比为50∶1时,36 h后草地贪夜蛾2龄幼虫的死亡率为80%;在数量比30∶1时,36 h后草地贪夜蛾5龄幼虫死亡率为100%。夜蛾斯氏线虫SN与草地贪夜蛾数量比为400∶1时,36 h后草地贪夜蛾2龄和5龄幼虫的死亡率分别为88%和85%。嗜菌异小杆线虫H06与草地贪夜蛾在400∶1时,36 h后草地贪夜蛾2龄和5龄幼虫的死亡率分别为32%和67.5%。【结论】小卷蛾斯氏线虫AⅡ具有较好的草地贪夜蛾生物防治潜质,其次是长尾斯氏线虫X-7。     

不同昆虫病原线虫一共生细菌组合的生化特性研究

本文分别以无菌的小卷蛾斯氏线虫的A24品系线虫与其自身携带的共生细菌菌株和与格氏线虫RS92品系的共生细菌菌株,以及以无菌的嗜菌异小杆线虫的H06品系线虫与其自身携带的共生细菌菌株和与大异小杆线虫HNA品系的共生细菌菌株建立单菌组合;测定了各组合感染期线虫的致病力、干重和体内主要生化物质的含量.结果发现,共生细菌除了对感染期线虫的致病力产生显著影响外,对线虫干重、蛋白质、氨基酸、糖原和脂肪酸等生化物质的含量也有很大的影响.     

噻虫嗪对昆虫病原线虫侵染韭菜迟眼蕈蚊能力的影响

【目的】为提高昆虫病原线虫对韭菜迟眼蕈蚊Bradysia odoriphaga Yang et Zhang幼虫的防治效果,将昆虫病原线虫与环境友好型化学杀虫剂混用是一条有效途径。【方法】测定了噻虫嗪与6个昆虫病原线虫品系混用对韭菜迟眼蕈蚊的作用效果,以及温度和土壤含水量对作用效果的影响,并进行了田间验证。【结果】田间推荐浓度噻虫嗪(100 mg·L~(-1))对6种供试线虫存活无显著影响。处理后3 d,低浓度噻虫嗪(15 mg·L~(-1))分别与6品系线虫混合后处理韭菜迟眼蕈蚊幼虫,其死亡率明显高于线虫和噻虫嗪单用处理。小卷蛾斯氏线虫SF-SN+噻虫嗪、印度异小杆线虫LN2+噻虫嗪和小卷蛾斯氏线虫All+噻虫嗪3种组合发挥杀虫作用的最适温度范围分别为20~25℃、25~30℃和25~30℃,显著高于其他温度;最适土壤含水量范围为10%~18%,也显著高于其他湿度。大田条件下,施用后7 d,单用噻虫嗪、线虫+噻虫嗪组合处理对韭菜迟眼蕈蚊的防治效果显著高于单线虫,且以芫菁夜蛾斯氏线虫SF-SN+噻虫嗪的防治效果最高,达到93%以上。【结论】芫菁夜蛾斯氏线虫SF-SN品系与噻虫嗪组合联合防治韭菜迟眼蕈蚊效果最好。     

昆虫病原线虫斯氏线虫和异小杆线虫对长角血蜱雌蜱的致病力

用昆虫病原线虫小卷蛾斯氏线虫（Sc BJ）、夜蛾斯氏线虫（Sf Otio）、拟双角斯氏线虫（Sc D43）、格氏斯氏线虫（Sg NC32）和嗜菌异小杆线虫（Hb E-6-7）对长角血蜱雌蜱进行感染试验,所用线虫剂量为4 000 Ijs/dish。结果表明,5种线虫均对长角血蜱雌蜱有致死效应。Hb E-6-7和Sc BJ两种线虫对雌蜱各发育期致病力最强,导致雌蜱的累积死亡率和半致死时间分别为饥饿雌蜱82.5%,9.0天和75.0%,8.8天;吸血雌蜱90.0%,8.0天和82.5%,8.0天;饱血雌蜱93.3%,7.3天和86.7%,7.3天。Sc D43对饱血雌蜱有较高的致死效应,为80.0%,但半致死时间较长,为11.7天。Sf Otio和Sg NC32对长角血蜱雌蜱的致死效应较低。饱血雌蜱较饥饿雌蜱和吸血雌蜱更易被线虫感染。     

中国异皮属线虫一新种（线虫纲：垫刃目：异皮科）

本文描述采自河北省滦县寄生于白茅Ｉｍｐｅｒａｔｅ ｃｙｌｉｎｄｒｉｃａ ｖａｒ．Ｍａｊｏｒ的异皮属线虫一新种,中华异皮线虫Ｈｅｔｅｒｏｄｅｒａ ｓｉｎｅｎｓｉｓ ｓｐ．ｎｏｖ．;新种孢囊为柠檬形,阴门膜孔为两侧单膜孔型,下桥发达有泡状突;二龄幼虫口针基部球前部略凹陷,口孔侧唇外缘融合王头晕第１环纹内,即无明显侧唇,其体侧区有３条侧线与体环纹呈不完全网格状交叉;雄虫侧区有３条侧线与体环纹呈完全网格状     

无孔小咽属线虫一新种(线虫纲,矛线目,孔咽科)

描述了采自山东省胶南市蓝莓Vaccinium corymbosumL.根部的线虫1新种,即胶南无孔小咽线虫Aporcelaimellus jiaonanensis sp.nov.。新种主要的鉴别特征是雌虫虫体中等长度,强壮,体表角质层由明显的两层组成;唇区缢缩明显,唇瓣彼此分离,呈角状;齿针强壮;内阴唇骨化明显,呈心形;尾圆锥形,具近指状尾尖突,尾尖突末端钝,尾长是肛门处体宽的1.1～1.4倍。新种的近似种是亚马逊无孔小咽线虫A.amazonicus Andrassy,2004和岛居无孔小咽线虫A.insularis Andrassy,2004。新种与前者的主要区别是:新种内阴唇呈心形,尾尖突末端钝;亚马逊无孔小咽线虫内阴唇长且窄,不呈心形,尾尖突末端锐尖。新种与后者的主要区别是:新种虫体较长,尾较长、呈圆锥形,具近指状尾尖突;岛居无孔小咽线虫虫体较短,尾很短,向背面凹陷,具向背面弯曲的钉状尾尖突。     

Directional movement of entomopathogenic nematodes in response to electrical field: effects of species, magnitude of voltage, and infective juvenile age

Entomopathogenic nematodes respond to a variety of stimuli when foraging. Previously, we reported a directional response to electrical fields for two entomopathogenic nematode species; specifically, when electrical fields were generated on agar plates Steinernema glaseri (a nematode that utilizes a cruiser-type foraging strategy) moved to a higher electric potential, whereas Steinernema carpocapsae, an ambush-type forager, moved to a lower potential. Thus, we hypothesized that entomopathogenic nematode directional response to electrical fields varies among species, and may be related to foraging strategy. In this study, we tested the hypothesis by comparing directional response among seven additional nematode species: Heterorhabditis bacteriophora, Heterorhabditis georgiana, Heterorhabditis indica, Heterorhabditis megidis, Steinernema feltiae, Steinernema riobrave, and Steinernema siamkayai. S. carpocapsae and S. glaseri were also included as positive controls. Heterorhabditids tend toward cruiser foraging approaches whereas S. siamkayai is an ambusher and S. feltiae and S. riobrave are intermediate. Additionally, we determined the lowest voltage that would elicit a directional response (tested in S. feltiae and S. carpocapsae), and we investigated the impact of nematode age on response to electrical field in S. carpocapsae. In the experiment measuring diversity of response among species, we did not detect any response to electrical fields among the heterorhabditids except for H. georgiana, which moved to a higher electrical potential; S. glaseri and S. riobrave also moved to a higher potential, whereas S. carpocapsae, S. feltiae, and S. siamkayai moved to a lower potential. Overall our hypothesis that foraging strategy can predict directional response was supported (in the nematodes that exhibited a response). The lowest electric potential that elicited a response was 0.1 V, which is comparable to electrical potential associated with some insects and plant roots. The level of response to electrical potential diminished with nematode age. These results expand our knowledge of electrical fields as cues that may be used by entomopathogenic nematodes for host-finding or other aspects of navigation in the soil.     

EVect of the Entomopathogenic Nematodes, Steinernema feltiae and S. carpocapsae , on the Potato Cyst Nematode, Globodera rostochiensis , in Pot Trials

Two pot experiments, one in a glasshouse and the other in an outdoor sand plunge, were conducted to examine the influence of the entomopathogenic nematodes, Steinernema feltiae and S. carpocapsae , on the invasion and development of the potato cyst nematode, Globodera rostochiensis . Of a total of eight diVerent treatments with entomopathogenic nematodes in the glasshouse trial, three reduced the invasion of G. rostochiensis and one reduced the numbers of new cysts that were produced compared with controls. In the outdoor experiment, seven of the 12 treatments gave a reduction in invasion but none resulted in changes in the numbers of cysts found at plant senescence. In general, invasion of G. rostochiensis juveniles was reduced more eVectively by S. carpocapsae than by S. feltiae , and was greatest in the outdoor trial where larger inocula of entomopathogenic nematodes were used. Overall, the results indicated that use of S. feltiae and S. carpocapsae is unlikely to provide a viable control strategy for G. rostochiensis .     

Susceptibility of the strawberry crown moth (Lepidoptera: Sesiidae) to entomopathogenic nematodes

The objective of this study was to determine the susceptibility of the strawberry crown moth, Synanthedon bibionipennis (Boisduval) (Lepidoptera: Sesiidae) larvae to two species of entomopathogenic nematodes. The entomopathogenic nematodes Steinernema carpocapsae (Weiser) strain Agriotos and Heterorhabditis bacteriophora (Steiner) strain Oswego were evaluated in laboratory soil bioassays and the field. Both nematode species were highly infective in the laboratory bioassays. Last instars were extremely susceptible to nematode infection in the laboratory, even in the protected environment inside the strawberry (Fragaria x ananassa Duch.) crown. Infectivity in the laboratory was 96 and 94% for S. carpocapsae and H. bacteriophora, respectively. Field applications in late fall (October) were less effective with S. carpocapsae and H. bacteriophora, resulting in 51 and 33% infection, respectively. Larval mortality in the field from both nematode treatments was significantly greater than the control, but treatments were substantially less efficacious than in the laboratory. Soil temperature after nematode applications in the field (11 degrees C mean daily temperature) was below minimum establishment temperatures for both nematode species for a majority of the post-application period. It is clear from laboratory data that strawberry crown moth larvae are extremely susceptible to nematode infection. Improved control in the field is likely if nematode applications are made in late summer to early fall when larvae are present in the soil and soil temperatures are more favorable for nematode infection.     

Multiple-species natural enemy approach for biological control of alfalfa snout beetle (Coleoptera: Curculionidae) using entomopathogenic nematodes

Multiple-species natural enemy approach for the biological control of the alfalfa snout beetle, Otiorhynchus ligustici (L.) (Coleoptera: Curculionidae), was compared with using single-species of natural enemies in the alfalfa ecosystem by using entomopathogenic nematodes with different dispersal and foraging behaviors. Steinernema carpocapsae NY001 (ambush nematode), Heterorhabditis bacteriophora Oswego (cruiser nematode), and Steinernema feltiae Valko (intermediate nematode) were applied in single-species, two-species combinations, and one three-species combination treatments at 2.5 x 10(9) infective juveniles per hectare. All nematode species persisted for a full year (357 d). S. carpocapsae NY001 protected the plants from root-feeding damage better than H. bacteriophora Oswego but allowed for higher larval survival than all other nematode treatments. S. feltiae Valko protected the plants better than H. bacteriophora Oswego and controlled alfalfa snout beetle larvae better than S. carpocapsae NY001. H. bacteriophora Oswego allowed for similar root damage compared with control plots but reduced larval populations better than S. carpocapsae NY001. The combination of S. carpocapsae NY001 and H. bacteriophora Oswego provided significantly better protection for the plants than the control (unlike H. bacteriophora Oswego alone) and reduced host larva survival more than S. carpocapsae NY001 alone. The combination S. feltiae Valko and H. bacteriophora Oswego could not be statistically separated from the performance of S. feltiae Valko applied alone.     

When mutualists are pathogens: an experimental study of the symbioses between Steinernema (entomopathogenic nematodes) and Xenorhabdus (bacteria)

In this paper, we investigate the level of specialization of the symbiotic association between an entomopathogenic nematode (Steinernema carpocapsae) and its mutualistic native bacterium (Xenorhabdus nematophila). We made experimental combinations on an insect host where nematodes were associated with non-native symbionts belonging to the same species as the native symbiont, to the same genus or even to a different genus of bacteria. All non-native strains are mutualistically associated with congeneric entomopathogenic nematode species in nature. We show that some of the non-native bacterial strains are pathogenic for S. carpocapsae. When the phylogenetic relationships between the bacterial strains was evaluated, we found a clear negative correlation between the effect a bacterium has on nematode fitness and its phylogenetic distance to the native bacteria of this nematode. Moreover, only symbionts that were phylogenetically closely related to the native bacterial strain were transmitted. These results suggest that co-evolution between the partners has led to a high level of specialization in this mutualism, which effectively prevents horizontal transmission. The pathogenicity of some non-native bacterial strains against S. carpocapsae could result from the incapacity of the nematode to resist specific virulence factors produced by these bacteria.     

Interactions of two idiobiont parasitoids (Hymenoptera: Ichneumonidae) of codling moth (Lepidoptera: Tortricidae) with the entomopathogenic nematode Steinernema carpocapsae (Rhabditida: Steinernematidae)

Simultaneous use of parasitoids and entomopathogenic nematodes for codling moth (CM) control could produce an antagonistic interaction between the two groups resulting in death of the parasitoid larvae. Two ectoparasitic ichneumonid species, Mastrus ridibundus and Liotryphon caudatus, imported for classical biological control of cocooned CM larvae were studied regarding their interactions with Steinernema carpocapsae. Exposure of M. ridibundus and L. caudatus developing larvae to infective juveniles (IJs) of S. carpocapsae (10 IJs/cm2; approximately LC(80-90) for CM larvae) within CM cocoons resulted in 70.7 and 85.2% mortality, respectively. However, diapausing full grown parasitoid larvae were almost completely protected from nematode penetration within their own tightly woven cocoons. M. ridibundus and L. caudatus females were able to detect and avoid ovipositing on nematode-infected cocooned CM moth larvae as early as 12h after treatment of the host with IJs. When given the choice between cardboard substrates containing untreated cocooned CM larvae and those treated with an approximate LC95 of S. carpocapsae IJs (25 IJs/cm2) 12, 24, or 48h earlier, ovipositing parasitoids demonstrated a significant preference for untreated larvae. The ability of these parasitoids to avoid nematode-treated larvae and to seek out and kill cocooned CM larvae that survive nematode treatments enhances the complementarity of entomopathogenic nematodes and M. ridibundus and L. caudatus.     

Suppression of Plant-parasitic Nematode Populations in Turfgrass by Application of Entomopathogenic Nematodes

We studied the influence of entomopathogenic nematodes , Steinernema carpocapsae and S. riobravis, on natural populations of plant - parasitic nematodes (PPNs) infesting turfgrass in Georgia and South Carolina . S. riobravis applied at 6 109 infective juveniles (IJs) / acre provided up to 95 - 100% control of the root - knot , Meloidogyne sp ., sting , Belonolaimus longicaudatus, and ring nematode , Criconemella sp ., in Georgia , but S. carpocapsae had no effect . S. riobravis was as effective as the chemical nematicide , Fenamiphos (Nemacur 10G) at 4 weeks after treatment and more effective at 8 weeks after treatment . In South Carolina , both S. riobravis and S. carpocapsae applied at 1 109 IJs / acre provided up to 86 - 100 % control of the root - knot , sting and ring nematodes . Application of 6 109 IJs / acre increased control by only 4 - 14 % over the 1 109 dosage . Possible causes of differences in efficacy of S. carpocapsae at the two sites are discussed . It is concluded that S. riobravis may provide effective , predictable and economical control of PPNs in turfgrass .     

Effectiveness of different species of entomopathogenic nematodes for biocontrol of the Mediterranean flatheaded rootborer, Capnodis tenebrionis (Linné) (Coleoptera: Buprestidae) in potted peach tree

The susceptibility of larvae of the Mediterranean flatheaded rootborer (Capnodis tenebrionis) to 13 isolates of entomopathogenic nematodes was examined using GF-677 potted trees (peachxalmond hybrid) as the host plant. The nematode strains tested included nine Steinernema feltiae, one S. affine, one S. carpocapsae and two Heterorhabditis bacteriophora. Nematodes showed the ability to locate and kill larvae of C. tenebrionis just after they enter into the roots of the tree. S. feltiae strains provided an efficacy ranging from 79.68% to 88.24%. H. bacteriophora strains resulted in control of 71.66-76.47%. S. carpocapsae (B14) and S. affine (Gspe3) caused lower control of C. tenebrionis larvae (62.03% and 34.76%, respectively). The influence of foraging strategy and the use of autochthonous nematodes to control C. tenebrionis larvae inside the roots is discussed.