10种杀虫剂对4种蓟马的毒力及对西花蓟马的田间药效评价

蓟马对农作物的危害逐年加重, 为筛选防治蓟马的高效低毒药剂, 采用叶管药膜法测定了10种常用药剂对4种蓟马的室内毒力, 并开展了田间防效试验。室内毒力测定结果表明, 6%乙基多杀菌素SC和10%虫螨腈SC对4种蓟马的毒力相对较高, 25%噻虫嗪WG和5%甲维盐EC的毒力较低, 西花蓟马和瓜蓟马对10种药剂的敏感性低于花蓟马和烟蓟马。田间药效结果表明, 25%噻虫嗪WG、10%溴虫氟苯双酰胺SC和4.5%高效氯氰菊酯EC对西花蓟马的防效较高, 药后7 d药效最高达到90%以上。综合室内毒力和田间药效试验结果, 推荐4.5%高效氯氰菊酯EC和10%溴虫氟苯双酰胺SC为防治蓟马的首选药剂, 可与25%噻虫嗪WG、48%多杀霉素SC、1.8%阿维菌素EC和10%吡丙醚SC等药剂轮换使用。     

云南石榴蓟马种类组成及其种群动态

2007-2008年对云南甜石榴和酸石榴两种石榴上蓟马种类及其种群动态进行了系统调查、标本采集、种类鉴定。结果表明,为害石榴的蓟马有10种,分别为西花蓟马(Frankliniella occidentalis)、丽花蓟马(F.intonsa)、黄蓟马(Thripsflavus)、黄胸蓟马(T.hawaiiensis)、棕榈蓟马(T.palmi)、烟蓟马(T.tabaci)、茶黄硬蓟马(Scirto-thrips dorsalis)、端大蓟马(Megalurothrips distalis)、华简管蓟马(Haplothrips chinensis)和Thripssp.,其中西花蓟马是云南石榴蓟马的优势种。不同石榴品种上蓟马种类不同,甜石榴上有西花蓟马、丽花蓟马、黄蓟马、棕榈蓟马、烟蓟马、黄胸蓟马、端大蓟马、茶黄硬蓟马和蓟马属1种,酸石榴上蓟马种类有西花蓟马、丽花蓟马、黄蓟马、棕榈蓟马、烟蓟马、端大蓟马、茶黄硬蓟马、华简管蓟马和蓟马属1种,黄胸蓟马仅在甜石榴上发生为害。在石榴不同生育时期,发生为害不同,其中成虫和若虫集中为害花,造成麻点特征。     

基于生物防治的西花蓟马治理及思考

西花蓟马Frankliniella occidentalis(Pergande)是世界性的大害虫,对温室中蔬菜花卉造成巨大的危害。20世纪70年代后在世界范围内广泛而迅速地传播蔓延,近年入侵中国。西花蓟马对农药产生了广泛的抗性,使得生物防治一直作为其综合治理中的主导措施。本文综述了世界上西花蓟马生物防治的现状,以期为中国西花蓟马的治理提供一定的借鉴作用。     

三种药剂喷雾和灌根施药方式对西花蓟马的残留毒力

选取生产中常用的阿维菌素、噻虫嗪和螺虫乙酯,分别采用喷雾和灌根的方式施于甘蓝、甜椒和菜豆上,药后不同时间分别取3种作物上的老叶片及新生叶片,采用离心管法测定其对西花蓟马的残留毒力.结果表明,噻虫嗪灌根对西花蓟马的残留毒力最高,持效期长达一个月左右,可作为防治苗期西花蓟马的有效药剂和方法.     

Western flower thrips resistance to insecticides: detection, mechanisms and management strategies

Insecticide resistance continues to be one of the most important issues facing agricultural production. The challenges in insecticide resistance and its management are exemplified by the situation with the western flower thrips Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae). This highly invasive pest has a great propensity for developing insecticide resistance because of its biological attributes, and cases of resistance to most classes of insecticides used for its management have been detected. To combat insecticide resistance in the western flower thrips, several insecticide resistance management (IRM) programs have been developed around the world, and these are discussed. Successful programs rely on non-insecticidal tactics, such as biological and cultural controls and host plant resistance, to reduce population pressures, rotations among insecticides of different mode of action classes to conserve insecticide efficacy, resistance monitoring, sampling to determine the need for insecticide applications and education to assure proper implementation. More judicious insecticide use is possible with the development of well-founded economic thresholds for more cropping systems. While growers will continue to rely on insecticides as part of western-flower-thrips- and thrips-transmitted virus management, more effective management of these pests will be achieved by considering their management in the context of overall integrated pest management, with IRM being a key component of those comprehensive programs.     

Prey consumption rates and compatibility with pesticides of four predatory mites from the family Phytoseiidae attacking Thrips palmi Karny (Thysanoptera: Thripidae)

BACKGROUND: Predatory mites (Amblyseius swirskii Athias‐Henriot, Typhlodromips montdorensis Schicha, Neoseiulus cucumeris (Oudemans) and Iphiseius degenerans Berlese) were investigated for their potential to act as control agents for Thrips palmi Karny. Prey consumption rates and compatibility with pesticides were assessed. RESULTS: Second‐instar larvae were the preferred life stage. Typhlodromips montdorensis consumed the most larvae (2.8) and also an average of 1.2 adult T. palmi per 5 day period. Both 24 and 48 h assessments following application of abamectin, spinosad and imazalil demonstrated mortality of predatory mites (across all species), which was significantly higher than with the other treatments (P < 0.001). Spraying with pymetrozine did not provide any increased mortality when compared with the water control. Application of thiacloprid proved detrimental only to I. degenerans. Following indirect exposure of predatory mites to pymetrozine and imazalil, no significant differences in mite mortality were obtained. Indirect exposure to spinosad was identified as the most detrimental treatment (P < 0.001) to all mites. Abamectin also proved detrimental, with only T. montdorensis showing any potential tolerance. CONCLUSION: All predatory mites investigated offer potential for controlling T. palmi. Compatibility with chemicals varied between the mites. The potential of incorporating the mites into eradication strategies for T. palmi is discussed. Copyright © 2012 Society of Chemical Industry     

Soil application of azadirachtin and 3-tigloyl-azadirachtol to control western flower thrips, Frankliniella occidentalis (Thysanoptera: Thripidae): translocation and persistence in bean plants

To study the systemic effects of active neem ingredients, the substrate of bean plants was treated with a 170 g kg(-1) azadirachtin (NeemAzal-U; Trifolio-M GmbH, Lahnau, Germany, registration pending). This product was used at a dose rate of 10 mg AZA (azadirachtin a) and 1.2 mg 3-tigloyl-azadirachtol (azadirachtin b) per treated bean plant. Afterwards, the translocation and persistence of AZA and 3-tigloyl-azadirachtol and the effects on western flower thrips, Frankliniella occidentalis (Pergande), were studied. Residues of AZA and 3-tigloyl-azadirachtol from substrates with different contents of organic matter [pure culture substrate (CS), CS-sand mixture] and from various plant parts were quantified by high-performance liquid chromatography-mass spectrometry (HPLC-MS). The dissipation trends of AZA and 3-tigloyl-azadirachtol were similar within the same substrates. A slower decline of both active ingredients was measured with CS than with CS-sand mixture. Residue analysis of the bean plants showed that only small proportions of the initial amounts of AZA and 3-tigloyl-azadirachtol applied to the substrate were present in the plant (0.3-8.1%). Variable amounts of residues of the active components in relation to plant parts and time of analysis indicated a different translocation pattern for the two active ingredients. Higher residues of the active ingredients were found in roots and stems after neem application using CS, whereas higher residues were found in leaves after CS-sand mixture treatments. Mortality of F. occidentalis after NeemAzal-U soil applications reached up to 95% on CS-sand mixture, compared with 86% in CS.     

不同温度下4株白僵菌对西花蓟马的致病力

本文测定了4株白僵菌在18、22、26、30、34 ℃ 5个温度下对西花蓟马成虫和若虫的毒力, 结果表明：白僵菌JMS、HS、MBb、RSB 4个菌株在这5个温度下对西花蓟马成虫均具有很高的致病力,绝大多数西花蓟马在5 d左右死亡,致死率均在97％以上,多数为99％～100％,致死中时为1.4～3.2 d,白僵菌RSB菌株对西花蓟马成虫的致死中时最短,在30 ℃下,仅为1.4 d。在各温度下供试菌种对西花蓟马若虫的致病力明显低于对西花蓟马成虫的致病力,其致死率一般在90％～99％,致死中时也相对较长。     

Relationship between esterase activity and acrinathrin and methiocarb resistance in field populations of western flower thrips, Frankliniella occidentalis

The western flower thrips, Frankliniella occidentalis (Pergande), is a serious pest in the south-east of Spain owing to its direct feeding on crops, transmission of the tomato spotted wilt virus and its very high level of resistance to insecticides. Mechanisms of resistance were examined using field populations of F. occidentalis with different susceptibilities to acrinathrin, methiocarb (selective insecticides), endosulfan, metamidophos and deltamethrin (broad-spectrum insecticides). Esterase activity towards alpha-naphthyl acetate and p-nitrophenyl acetate in resistant strains was significantly higher than in the reference strain (MLFOM) for both model substrates. This higher activity was significantly correlated with acrinathrin and methiocarb resistance.     

我国蔬菜作物重大入侵害虫发生、危害与控制

蔬菜是我国重要的经济作物,近年来外来入侵害虫给我国蔬菜生产造成了重大损失。本文以严重危害我国蔬菜作物的3类重大入侵害虫-烟粉虱、西花蓟马和斑潜蝇为例,从入侵昆虫的发现、种群鉴定、分布扩散趋势及其规律、灾变机制以及可持续治理技术体系的研究与应用等方面概述了我国蔬菜入侵害虫研究的主要成就。     

新鲜北美一枝黄花叶对南黄蓟马的拒食活性

南黄蓟马虽为菊科、茄科、葫芦科植物的常见害虫,但未见其侵害菊科植物北美一枝黄花,这促使作者对其拒食活性进行研究。在为期一周的叶片喂食试验中南黄蓟马成虫全部死亡,提示北美一枝黄花中含有拒食活性物质。该植物新鲜叶的甲醇提取物(含有3%蔗糖溶液)的纸片喂食试验显示了类似的拒食活性。通过活性追踪,最终确定北美一枝黄花甲醇提取物的正丁醇萃取部分经反相中压柱色谱以及高效液相色谱分离得到的两个流分具有拒食活性,且两者联合使用拒食效果更加明显。     

Resistance to spinosad in the western flower thrips, Frankliniella occidentalis (Pergande), in greenhouses of south-eastern Spain

Susceptibility to spinosad of western flower thrips (WFT), Frankliniella occidentalis (Pergande), from south-eastern Spain was determined. LC(50) values of the field populations without previous exposure to spinosad collected in Murcia in 2001 and 2002 ranged from 0.005 to 0.077 mg L(-1). The populations collected in Almeria in 2003 in greenhouses were resistant to spinosad (LC(50) > 54 mg L(-1)) compared with the authors' highly susceptible laboratory strain. The highly sensitive laboratory strain leads to very high resistance ratios for the field populations (>13 500), but these ratios do not necessarily mean resistance problems and control failures (spinosad field rate 90-120 mg L(-1)). The populations collected in Murcia from some greenhouses in 2004 were also resistant to spinosad (RF > 3682). Spinosad overuse, with more than ten applications per crop, produced these resistant populations in some greenhouses. Spinosad showed no cross-resistance to acrinathrin, formetanate or methiocarb in laboratory strains selected for resistance towards each insecticide. Correlation analysis indicated no cross-resistance among spinosad and the other three insecticides in 13 field populations and in nine laboratory strains. The synergists piperonyl butoxide (PBO), S,S,S-tributyl phosphorotrithioate (DEF) and diethyl maleate (DEM) did not enhance the toxicity of spinosad to the resistant strains, indicating that metabolic-mediated detoxification was not responsible for the spinosad resistance. These findings suggest that rotation with spinosad may be an effective resistance management strategy.     

3种环境友好型药剂对西花蓟马的室内毒力与田间防效

测定了3种杀虫剂对西花蓟马的室内毒力和田间防效。室内生物测定结果表明,多杀菌素、甲氨基阿维菌素苯甲酸盐、阿维菌素对西花蓟马成虫的LC50值为0.050～2.887mg/L,对西花蓟马若虫的LC50值为0.040～0.457mg/L;田间药效试验表明,田间防治西花蓟马时推荐使用剂量(防效>80%)分别为:2.5%多杀菌素悬浮剂30～60g/667m2,1%甲氨基阿维菌素苯甲酸盐乳油30～60g/667m2,1.8%阿维菌素乳油不可低于75g/667m2。     

Characterization of a vector-non-transmissible isolate of Tomato spotted wilt virus

The characteristics of a thrips‐non‐transmissible isolate of Tomato spotted wilt virus (TSWV), designated TSWV‐M, were compared with those of a thrips‐transmissible isolate, designated TSWV‐T. TSWV‐M showed a narrower host range than TSWV‐T. Adult thrips failed to transmit TSWV‐M, although the vector acquired the virus during the larval stages. TSWV‐M was detected by RT‐PCR in adult thrips bodies, but not in thrips heads, suggesting that loss of thrips transmissibility was the result of the absence of virus in adult thrips salivary glands. Whereas N (nucleoprotein), NSs (non‐structural protein) and G_C (the C‐terminal portion of the glycoprotein precursor protein) were present in similar amounts in leaf tissue from TSWV‐M‐ or TSWV‐T‐infected plants, G_N (the N‐terminal portion of the glycoprotein precursor protein) was present at much lower amounts in TSWV‐M‐ than in TSWV‐T‐infected plants. SDS‐PAGE and immunoblotting analysis of TSWV‐M and TSWV‐T virion preparations with G_N‐ and G_C‐specific antibodies revealed similar amounts of the G_N and G_C glycoproteins in TSWV‐T virions, but lower amounts of G_N than G_C in TSWV‐M virions. This resulted in a statistically significant reduction in the G_N/G_C ratio in TSWV‐M virions. In affinoblots, the G_C and G_N glycoproteins of TSWV‐M exhibited weak binding with lectins showing affinity for N‐linked oligosaccharide structures. Sequence analysis of M RNA (medium segment of the TSMV genome) revealed no deletions or frameshift mutations in the G_N/G_C precursor of TSWV‐M. However, five amino acid changes were detected in the G_N/G_C precursor. A single, relatively conservative amino acid substitution (V→I) was observed in the NSm protein. Sequence analysis of S RNA (small portion of the TSMV genome) revealed a large intergenic region with no changes in the N protein and with three amino acid changes in the NSs protein.     

西花蓟马天敌种类及主要种类的控害潜能

西花蓟马[Frankliniella occidentalis(Pergande)]是国际上备受关注的检疫性有害生物,近年来该虫分布范围不断扩大,对农作物、园林园艺植物的危害日趋加重,发挥天敌对该虫的自然控制作用已引起人们广泛重视。本文根据国内外研究报道,总结和记述了西花蓟马的天敌种类及其主要种类对西花蓟马的控制作用。西花蓟马的天敌约有60种,其中天敌昆虫50种,昆虫病原线虫5种,虫生真菌5种。同时,对主要天敌种类小花蝽、昆虫病原线虫和虫生真菌对西花蓟马的捕食寄生及控制潜力进行了阐述。     

Ornamental plants and thrips populations associated with tomato spotted wilt virus in Greece

A survey was conducted in order to record the ornamental plants that are hosts of tomato spotted wilt virus (TSWV) and impatiens necrotic spot virus (INSV) in Greece. Polyclonal antibodies prepared against the N protein of a Greek isolate of TSWV fromGerbera jamesonii (GR-34) were used. Leaf samples were taken from plants showing typical symptoms of tospovirus infection such as chlorotic and necrotic rings on the leaves and malformation and necrosis of the flowers. The samples were tested by double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA) using polyclonal antibodies to the N proteins of TSWV and INSV (NL-07). ELIS A-positive samples were mechanically transmitted to plants ofPetunia hybrida, Nicotiana rustica andN. benthamiana to confirm infection. Although none of the samples was found infected with INSV, TSWV presence was recorded in 42 botanical species that belong to 40 genera in 27 families. Among them the speciesBeloperone guttata, Coleus barbatus, Impatiens petersiana andLilium auratum are reported for the first time as hosts of TSWV, whereasBegonia sp.,Catharanthus roseus Celosia cristata, Dianthus chinensis, Fuchsia hybrida andStephanotis floribunda are found as new hosts of the virus in Greece. Thrips collected from TSWV-infected plants were in most cases identified asFrankliniella occidentalis, except from plants ofDendranthema sp. andDianthus caryophyllus whereThrips tabaci individuals were also identified. Different percentages of transmitters were noticed when the thrips populations collected from TSWV-infected ornamental hosts were tested for transmission of TSWV.     

西花蓟马对不同寄主植物的选择及嗅觉行为反应

为比较西花蓟马Frankliniella occidentalis对不同寄主植物的选择性,本研究采用罩笼法观察了西花蓟马对8种不同蔬菜寄主植物(茄子、甘蓝、辣椒、黄瓜、莴笋、番茄、芹菜、香菜)的选择性,并使用"Y"形嗅觉仪评价了西花蓟马对不同蔬菜的嗅觉行为反应.结果 表明,在8种不同蔬菜寄主植物中,西花蓟马对茄子、甘蓝...     

不同色板和引诱剂对设施蔬菜主要害虫的诱杀效果

为了发挥物理防治技术的作用,降低农药用量,本文探讨了不同色板和诱芯对设施蔬菜主要害虫的控制作用和使用技术。结果表明,在种植辣椒、番茄和黄瓜的温室,普通黄板和烟粉虱诱芯黄板对烟粉虱均具有较好的诱杀效果,2种色板诱杀烟粉虱的数量无显著差异;蓝板无明显诱杀作用。第6周,普通黄板对烟粉虱的诱杀量高于烟粉虱诱芯黄板,且差异显著(P0.05),表明烟粉虱对黄色的趋性更强。针对温室害虫蓟马,普通蓝板的诱虫量显著高于普通黄板和烟粉虱诱芯黄板,表明蓟马对蓝色的趋性更强。因而,在烟粉虱和蓟马混合发生的温室中,推荐黄板和蓝板的联合使用同时治理两种害虫。     

几种杀虫剂对棕榈蓟马的室内毒力与田间防效

为筛选出用于防治棕榈蓟马的有效药剂,采用玻璃残留处理法测定了5种药剂对蔬菜上棕榈蓟马的室内毒力,并进行了田间药效试验。室内毒力测定结果表明,杀虫活性最高的是乙基多杀菌素,其48h的LC50值为0.19mg/L;其次是阿维菌素、溴氰虫酰胺和啶虫脒,LC50值为54.45~76.48mg/L,呋虫胺的毒力最低。田间试验结果表明,6%乙基多杀菌素悬浮剂和1.8%阿维菌素乳油对棕榈蓟马药后1~14d的防效均达90.88%以上,明显高于其他3种药剂。6%乙基多杀菌素悬浮剂是防治棕榈蓟马的首选药剂,推荐轮换使用1.8%阿维菌素乳油和10%溴氰虫酰胺可分散油悬浮剂。