矿物油乳剂作用下橘小实蝇的产卵拒避及触角电位反应

为了研究矿物油乳剂对害虫行为的干扰作用,测定和比较了4种矿物油乳剂对橘小实蝇Bactrocera dorsalis (Hendel)的产卵拒避效果及在其作用下该虫的触角电位反应（EAG）,并测试了其中拒避效果最好的Caltex Lovis夏用油的不同施用方式（浸蘸法和喷雾法）及不同施用浓度（150,250,350,450倍液）对橘小实蝇产卵拒避的影响。结果显示：分别用4种矿物油乳剂200倍液以浸蘸法处理香蕉,仅Caltex Lovis夏用油处理对橘小实蝇产卵拒避效果显著,其平均产卵孔数仅为清水对照的15.14%;其他3种矿物油乳剂则没有明显效果。这表明矿物油乳剂对昆虫行为的干扰作用与其组成成分相关。4种矿物油乳剂对橘小实蝇的产卵拒避效果与各矿物油乳剂的50倍液滴于滤纸条后0.5 h的雌成虫EAG值间无显著相关性,但与滴于滤纸条后3 h（滤纸条上水分已蒸发）的EAG值间有显著的负相关性,说明矿物油乳剂的挥发性组分对橘小实蝇的产卵拒避影响不大,因此推测矿物油乳剂在植物表面形成的油膜对植物挥发性物质的封闭作用与其产卵拒避效果可能有一定的关系。浸蘸法不同浓度处理间的产卵拒避效果无显著差异,均明显高于喷雾法处理及清水对照。在喷雾法处理中,仅150倍液有显著产卵拒避效果。这说明,矿物油乳剂需要在植物表面达到一定的沉积量,才能对橘小实蝇有较好的产卵拒避作用。与喷雾法相比,浸蘸法可能较利于矿物油在植物表面的沉积,这也佐证了矿物油乳剂所形成油膜的封闭性与其产卵拒避效果有一定的关系。     

拒避-诱杀组合技术对橘小实蝇产卵的影响

本文研究了以矿物油(mineral spray oil)乳剂为保护剂、"猎蝇"蛋白质毒饵为诱杀剂组成的拒避-诱杀组合技术对橘小实蝇Bactrocera dorsalis (Hendel)产卵的控制作用。结果显示:橘小实蝇在采用拒避-诱杀组合技术保护的供试香蕉上平均产卵孔数为0.000±0.000个,果实完好率达到100%,而单独使用"猎蝇"蛋白质毒饵的平均产卵孔数为27.000±1.732个,果实完好率仅为5.55%,表明该组合技术对橘小实蝇产卵的控制效果显著。在100倍～300倍浓度范围内,矿物油浓度越高,拒避-诱杀组合对橘小实蝇产卵的控制效果越好;随着虫口密度的增加,毒饵使用量和施用面积也须相应增加,才能取得更好的防治效果。     

非寄主植物提取物对橘小实蝇的产卵拒避作用

选取4种非寄主植物柠檬桉Eucalyptus citriodora、樟树Cinnamomum camphora、白干层Melaleuca leucadendron、夹竹桃Nerium indicum,初步研究了这4种植物叶子提取物对橘小实蝇Bactrocera dorsalis的产卵拒避作用。以无水乙醇作溶剂,供试4种植物中的白千层提取物对橘小实蝇具有较强的产卵拒避作用。检测了橘小实蝇对4种植物的乙醇提取物的触角电位值,发现各生物测定值与雌虫触角电位值呈显著相关性,表明其中的挥发性组分是橘小实蝇对植物提取物产生拒避反应的重要原因之一。用无水乙醇、乙醚、石油醚、二氯甲烷作溶剂,分别提取白干层叶,仅乙醇提取物有显著拒避作用;用这4种溶剂分别提取樟树叶,则无水乙醇、乙醚、石油醚作溶剂的提取物都有较好效果。     

橘小实蝇和番石榴实蝇重复利用寄主的产卵选择性

检疫性害虫橘小实蝇Bactrocera dorsalis和番石榴实蝇Bactrocera correcta是近缘种。本研究显示,两种实蝇对已被产卵寄主的识别与产卵选择性极相似。当寄主中至少含有600粒新鲜卵时,橘小实蝇或番石榴实蝇的雌成虫在其上继续产卵的数量才被抑制,而对同种实蝇卵和异种实蝇卵的反应几乎没有差异;两种实蝇在已被产卵的寄主中再次产卵,并没有刻意回避原产卵孔;寄主中的卵孵化为幼虫对后续实蝇的产卵行为产生了显著的抑制作用,随着幼虫数量的增多与龄期的增长,便不再有雌蝇选择该寄主产卵。因此,寄主中幼虫的存在是驱避橘小实蝇和番石榴实蝇在其上继续产卵的重要因素。两种实蝇幼虫寄主标记信息素的鉴定与利用将是今后研究的重点,利用其进行有害实蝇的种群控制将有很大的应用前景。     

不育胺对橘小实蝇的化学不育效果

【目的】为了解不育胺对橘小实蝇Bactrocera dorsalis(Hendel)的化学不育效果。【方法】通过喂食橘小实蝇不同浓度不育胺食料,测定了其对橘小实蝇的卵量及孵化率的影响。【结果】结果表明:喂食0.08%-0.3%不育胺食料的橘小实蝇成虫交配始见期和产卵始见期与正常对照相比推迟1-2d,均为9-10日龄开始交配,11-12日龄开始产卵;橘小实蝇取食不同浓度不育胺食料后,卵量和孵化率随浓度增加而降低。当取食0.3%不育胺食料时,♀处理×♂处理未见产卵,♀正常×♂处理和♀处理×♂正常均见产卵但卵量与对照相比显著降低且卵不孵化。取食0.3%不育胺的橘小实蝇雄虫相对不育系数为0.48,表明其交配竞争能力与正常雄虫相当。【结论】0.3%浓度的不育胺可作为橘小实蝇的化学不育剂。     

橘小实蝇和番石榴实蝇卵的提取物对两种实蝇行为的影响及化学成分分析

[目的]探究橘小实蝇Bactrocera dorsalis和番石榴实蝇Bactrocera correcta卵提取物对2种实蝇雌虫行为的影响,以及2种实蝇卵表面化合物的差异,为2种实蝇的化学生态防治提供理论依据.[方法]利用Y型嗅觉仪测定了橘小实蝇交配雌虫和番石榴实蝇交配雌虫对卵表提取物的行为反应,并利用EthoVision XT软件分析雌虫在Y管内的运动轨迹;利用气相色谱-质谱联用仪(GC-MS)鉴定分析橘小实蝇卵和番石榴实蝇卵的化合物成分,并利用标准曲线法测定了各组分的含量.[结果]橘小实蝇卵提取物对橘小实蝇交配雌虫具有显著引诱作用(x2=9.383,P=-0.002),对番石榴实蝇交配雌虫具有显著驱避作用(x2=6.737,P=0.009),番石榴实蝇卵提取物对番石榴实蝇交配雌虫(x2=4.235,P=0.040)和橘小实蝇交配雌虫都具有引诱作用(x2=5.818,P=0.016).从橘小实蝇卵表提取物中共鉴定出11种化合物,分别是茴香脑、十五烷、十二烷酸、十二酸乙酯、(Z)-11-十四碳烯酸、十四烷酸、十四酸乙酯、(E)-9-十六碳烯酸乙酯、十六烷酸、十八碳烯酸、(Z)-9-十八碳烯酸乙酯.从番石榴实蝇卵表提取物中仅鉴定出7种化合物,而且这7种化合物在橘小实蝇的卵提取物中都存在.仅存在于橘小实蝇卵表的4种化合物是茴香脑、十二烷酸、十二酸乙酯、(Z)-11-十四碳烯酸.在2种实蝇卵提取物的相同成分中,十四烷酸、(E)-9-十六碳烯酸乙酯、十六烷酸在橘小实蝇卵表的含量显著高于番石榴实蝇.[结论]番石榴实蝇具有通过卵表化合物识别同种卵和异种卵的能力,2种实蝇的卵表化合物具有明显的差异.     

植物果实、颜色和形状对橘小实蝇产卵选择的影响

橘小实蝇Bactrocera dorsalis(Hendel)是近几年入侵江苏南部地区,严重危害当地水果、蔬菜的重要害虫。为深入了解其在该地区果树、蔬菜上的产卵特性,进行植物果实、颜色和形状对其产卵选择影响的研究。实验室中"纸杯法"的产卵选择试验结果表明,橘小实蝇对不同水果的产卵偏好性由高到低依次为:柑橘、香蕉、芒果、枣、石榴、苹果、桃子、梨、李、葡萄、柿;对不同蔬菜的产卵偏好性由高到低依次为:丝瓜、豇豆、苦瓜、黄瓜、茄子、南瓜、青椒、番茄。对不同寄主颜色和形状的产卵选择特点为,雌虫常选择桔黄色、绿色,以及圆球形的寄主产卵,而较少选择黑色、方形的寄主产卵。从试验结果可以看出,寄主果实散发出的气味,及其颜色和形状对橘小实蝇的产卵选择有影响。     

寄生蜂对橘小实蝇控害作用的研究进展

橘小实蝇是一种世界性的检疫害虫,危害多种蔬菜和水果的重要害虫。寄生蜂作为橘小实蝇的重要天敌,对其防治起着重要的作用。本文归纳整理了橘小实蝇寄生蜂主要种类及生物学、生态学特性,并对主要寄生蜂的寄生选择偏好性、寄生能力评价、种群消长影响因素以及其保护利用、人工大量繁育技术研究等进行总结,旨在为更好的开展橘小实蝇寄生蜂的研究及最终实现其大规模应用提供一定的参考。     

海南儋州地区橘小实蝇成虫数量动态

【背景】橘小实蝇是热带、亚热带水果的重要害虫,在海南发生严重。【方法】利用橘小实蝇性诱剂进行田间诱捕,以诱到的雄成虫为指标,通过定期调查,获得了海南儋州地区4种样地橘小实蝇成虫的种群动态,并进一步通过相关分析,研究了芒果园橘小实蝇种群动态与温度和降雨量的相关性。【结果】儋州地区橘小实蝇种群周年发生,冬季种群数量较低,夏季种群数量较高。橘小实蝇种群高峰期发生于6月,其中芒果园达327.6头,蔬菜地为182.8头,办公区为150.0头,植物园为209.6头。在芒果园中,随着温度的升高,橘小实蝇的种群数量呈指数增长,其相关系数R=0.799;而与降雨量的相关系数较低,为0.367。【结论与意义】本研究可为儋州地区制定橘小实蝇综合防治策略提供理论依据。     

矿物油对茶园小贯小绿叶蝉的控制效果和对茶叶感官品质的影响

小贯小绿叶蝉Empoasca(Matsumurasca)onukii Matsuda是东亚茶树的重要害虫之一,目前在我国主要采用化学防治。本文研究一种nC23园艺用矿物油、加德士的D-C-Tron NR对其产卵和取食行为的影响,以及对其田间种群的控制效果,为在茶园使用矿物油替代化学农药进行防治提供依据。室内选择性试验结果表明,用矿物油150倍液、200倍液处理茶树离体嫩梢对小贯小绿叶蝉成虫都有显著的拒食和产卵忌避效果,第3天的拒食率分别为85.59%、89.17%,产卵忌避率分别为70.22%、91.5%,200倍液处理对若虫也有显著的驱避和拒食效果,第2天驱避率为81.96%,第3天拒食率为85.86%。田间试验结果表明,矿物油100倍液、200倍液、300倍液处理都显著降低小贯小绿叶蝉田间种群的虫口密度,其中100倍液和200倍液的防治效果无显著差异,处理后5 d若虫的校正减退率分别达89.13%、87.63%,成虫分别达87.58%、84.22%,都显著高于300倍液的防效。田间试验结果还表明,矿物油3个浓度处理后茶梢上的卵量显著减少,其中100倍液处理第7天的产卵忌避率最高,达80.86%,而各处理茶园蜘蛛的数量与对照相比都没有显著差异。另外,用矿物油200倍液喷施茶树后5 d、10 d采摘的茶芽制成绿茶,经感官评审与对照没有差异,说明矿物油对小贯小绿叶蝉具有较好的防治效果,而且对茶园蜘蛛安全,对茶叶感官品质没有影响,可以在小绿叶蝉防治中推广应用。     

Oviposition responses of Queensland fruit fly (Bactrocera tryoni) to mineral oil deposits on tomato fruit

Behavioural responses of wild and laboratory‐culture females of Queensland fruit fly, Bactrocera tryoni (Froggatt) (Diptera: Tephritidae), to mineral oil deposits on tomato fruit dipped in aqueous oil emulsions were assessed in a no‐choice test and three choice tests. The oils were two commercial products used to manage plant pests and diseases, Ampol D‐C‐Tron NR and SK EnSpray 99, one distillation fraction of the base oil of the former, and four distillation fractions of the base oil of the latter. The initial and final boiling points of the fractions were equivalent to those of n‐alkanes with chain lengths of C20–22 (Ampol), and C21–C23, C22–23.5, C22–24, and C22–24.5 (SK). For both fly types in the no‐choice test, numbers of punctures and eggs per fruit declined strongly as concentrations of the nC20–22 Ampol fraction in emulsions rose from 0.25 to 2% (vol/vol). Fly type affected the extent of responses but there was no significant interaction for fly type*oil concentration. Responses of laboratory‐culture females in the choice tests also declined as concentrations of SK and the four fractions of its base oil in emulsions rose from 0 to 0.25%. The SK nC22–24 and nC22–24.5 fractions had least impact. Responses of laboratory‐culture flies to 0.5% emulsions of the nC20–22 Ampol fraction and the nC21–23 SK fraction in choice tests were not significantly different. Likewise, responses of laboratory‐culture flies to 0.5% emulsions of the two commercial products were not significantly different. Emulsifier type did not affect numbers of punctures or eggs per fruit in choice responses of laboratory‐culture flies to 0.5% emulsions of the Ampol nC20–22 fraction or 0.5% emulsions of the SK nC21–23 fraction. If the equivalence of no‐choice and choice responses in the laboratory were to hold in the field, then unsprayed ‘sacrificial’ plants would not be necessary and oil emulsions could be used as cover sprays.     

Nepetalactones from essential oil of Nepeta cataria represent a stable fly feeding and oviposition repellent

The stable fly, Stomoxys calcitrans (L.) (Diptera: Muscidae), is one of the most serious pests to livestock. It feeds mainly on cattle and causes significant economic losses in the cattle industry. Standard stable fly control involving insecticides and sanitation is usually costly and often has limited effectiveness. As we continue to evaluate and develop safer fly control strategies, the present study reports on the effectiveness of catnip (Nepeta cataria L.) oil and its constituent compounds, nepetalactones, as stable fly repellents. The essential oil of catnip reduced the feeding of stable flies by >96% in an in vitro bioassay system, compared with other sesquiterpene-rich plant oils (e.g. amyris and sandalwood). Catnip oil demonstrated strong repellency against stable flies relative to other chemicals for repelling biting insects, including isolongifolenone, 2-methylpiperidinyl-3-cyclohexen-1-carboxamide and (1S,2'S)-2-methylpiperidinyl-3-cyclohexen-1-carboxamide. The repellency against stable flies of the most commonly used mosquito repellent, DEET, was relatively low. In field trials, two formulations of catnip oil provided >95% protection and were effective for up to 6 h when tested on cattle. Catnip oil also acted as a strong oviposition repellent and reduced gravid stable fly oviposition by 98%.     

Evaluation of extracts and oils of tick-repellent plants from Sweden

Abstract. Leaves of Myrica gale Linnaeus (Myricaceae), Rhododendron tomentosum (Stokes) H. Harmaja (formerly Ledum palustre Linnaeus: Ericaceae) and Artemisia absinthium Linnaeus (Asteraceae) were extracted with organic solvents of different polarities and the essential oils of leaves were obtained by steam distillation. The extracts or oils were tested in the laboratory for repellency against host-seeking nymphs of Ixodes ricinus Linnaeus (Acari: Ixodidae). Rhododendron tomentosum oil, 10%, diluted in acetone, exhibited 95% repellency; R. tomentosum and A. absinthium extracts in ethyl acetate, > 70% repellency; A. absinthium extract in hexane, approximately 62% repellency; and M. gale oil, 10%, approximately 50% repellency on I. ricinus nymphs. Compounds in the leaf extracts or in the oils were collected by solid phase microextraction (SPME) and identified by gas chromatography-mass spectrometry (GC-MS) and/or MS. Characteristic volatiles detected from oil or extract of M. gale were the monoterpenes 1,8-cineole, alpha-terpineol, 4-terpineol and thujenol; and of R. tomentosum myrcene and palustrol. Characteristic volatiles from leaf extracts of A. absinthium were sabinene, oxygenated monoterpenes, e.g. thujenol and linalool, and geranyl acetate. Each plant species synthesized numerous volatiles known to exhibit acaricidal, insecticidal, 'pesticidal' and/or arthropod repellent properties. These plants may be useful sources of chemicals for the control of arthropods of medical, veterinary or agricultural importance.     

Impact of physical characteristics of some mineral and plant oils on efficacy against selected pests

Mineral oils have been historically favoured over plant oils for insect pest control in horticultural crops because of their greater efficacy. Recently the increased pressure for environmentally sustainable pest management strategies has renewed interest in the use of plant oils and also in the reasons for differences in efficacy between plant and mineral oils. Efficacy of canola and mineral oils were compared for two modes of action: asphyxia in control of Saissetia oleae on olives and as an oviposition deterrent in control of Phyllocnistis citrella on lemons. On olives both canola and mineral oil treatments significantly reduced the number of black scale in comparison to the control but mineral oil reduced the number of black scale significantly more than canola oil. When oils were applied to lemons as a preventative spray, concentrations of canola oil above 0.5% significantly reduced the number of P. citrella mines per leaf compared to the control and there were no significant differences between any concentration above 0.5% canola oil and 0.5% mineral oil. Canola oil applied at a concentration of 0.5% was significantly less effective than mineral oil applied at the same concentration. Efficacy of canola oil was found to be lower than that of mineral oil in all experiments, but the higher efficacy of mineral oil was more pronounced in suffocation of S. oleae than in deterrence of P. citrella oviposition. Our results indicate that even though canola oil has very different molecular structures than mineral oils the resulting physical characteristics of canola oil, primarily high boiling point and viscosity, may contribute to their lower efficacy against arthropod pests. However, low phytotoxicity of canola oil indicates that the chemical structure of molecules contained in canola oil had much more influence on processes on the plant surface than the physical characteristics of the oil.     

Laboratory evaluation of aromatic essential oils from thirteen plant species as candidate repellents against <Emphasis Type="Italic">Leptotrombidium</Emphasis> chiggers (Acari: Trombiculidae), the vector of scrub typhus

Scrub typhus, a rickettsial disease transmitted by several species of Leptotrombidium chiggers (larvae), is endemic in many areas of Asia. The disease is best prevented by the use of personal protective measures, including repellents. In this study commercially produced aromatic, essential oils of 13 plant species and ethanol (control) were tested in the laboratory for repellency against host-seeking chiggers of Leptotrombidium imphalum Vercammen-Grandjean and Langston (Acari: Trombiculidae). A rapid, simple and economic in vitro test method was used by exposing the chigger for up to 5 min. Repellency was based on relative percentages of chiggers attracted to test and control substances. Four of the 13 essential oils showed promise as effective repellent against L. imphalum chiggers. Syzygium aromaticum (clove) oil exhibited 100% repellency at 5% concentration (dilution with absolute ethanol), whereas Melaleuca alternifolia (tea tree) oil exhibited 100% repellency at 40% concentration. Undiluted oils of Zingiber cassamunar (plai) and Eucalyptus globules (blue gum) exhibited 100% repellency. Of the remaining nine essential oils, only 100% Pelargonium graveolens (geranium) exhibited >50% repellency (viz. 57%). Styrax torkinensis (benzoin) oil did not exhibit any repellency. These findings show that several aromatic, essential oils of plants may be useful as chigger repellent for the prevention of scrub typhus. Syzygium aromaticum oil may be safer and more economical to prevent chigger attacks than commercially available synthetic chemicals, such as DEET that may have harmful side effects.     

香茅精油对桔小实蝇产卵驱避作用及其化学成份分析

研究了香茅Cymbopogon nardus精油对桔小实蝇Bactrocera dorsalis (Hendel)的产卵驱避作用及其化学成分。结果表明,香茅精油对桔小实蝇产卵具有一定的驱避作用,不同浓度香茅精油处理芒果上的产卵量均显著低于对照,且随着香茅精油浓度的提高其产卵量逐渐减少,当浓度为10000μg/mL时,产卵驱避率为70.06%。采用气相色谱—质谱联用(GC-MS)技术分析了香茅精油的化学成份,结果发现该精油挥发物中含量较高的是3-蒈烯,香茅醛,香叶醇,香茅醇,柠檬烯。     

Repellent effect of santalol from sandalwood oil against Tetranychus urticae (Acari: Tetranychidae)

Thirty-four essential oils were screened for their repellent activities against the twospotted spider mite, Tetranychus urticae Koch (Acarina: Tetranychidae), at 0.1% concentration level using choice and no-choice laboratory bioassays. Of these, 20 essential oils showed significant repellencies against T. urticae in the choice tests. In subsequent no-choice tests using these 20 essential oils, only sandalwood oil showed significant repellency against T. urticae. Total number of eggs oviposited by T. urticae was significantly lower than controls in the choice tests when the kidney bean leaves were treated with 1 of 14 essential oils. The significant repellency of sandalwood oil against T. urticae lasted at least for 5 h at the 0.1% concentration level. Our GC-MS analysis indicated that the major components of the sandalwood oil were alpha-santalol (45.8%), beta-santalol (20.6%), beta-sinensal (9.4%), and epi-beta-santalol (3.3%). Santanol, a mixture of the two main components in the sandalwood oil, appears to be responsible for the repellency of sandalwood oil against T. urticae.     

Repellency of essential oils to Frankliniella occidentalis (Thysanoptera: Thripidae) as affected by type of oil and polymer release

Eight essential oils [0.125-1.0% (vol:vol) in acetone] were separately deposited on leaf disks to evaluate their potential to repel western flower thrips, Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae), adult females. Two of the best-performing essential oils were incorporated into polymer matrices of methyl cellulose or alginate [0.5 or 1% (wt:vol)] to verify the potential of the polymer to extend repellency of oils over time (24-120 h). Results showed that at a concentration of 0.5%, Thymus vulgaris L. (common thyme) and Satureja montana L. (winter savory) were the most repellent essential oils. For these two treatments, no western flower thrips were counted on treated leaf disks 60 min after the start of the test. T. serpyllum and O. compactum also showed repellency values > or = 90% at this concentration. With both the alginate and methyl cellulose polymers, the incorporation of polymers into treatment solutions containing 0.5% concentrations of S. montana and T. serpyllum resulted in higher repellency compared with treatment solutions lacking these polymers for a minimum of 3 d. For the alginate polymer, differences associated with polymer concentrations were most dramatic. High repellency was maintained for 4 d when a 0.5% concentration of the alginate was used in combination with a 0.5% concentration of S. montana. The use of repellent oils with polymers that extend their repellency may prove useful for both pre- and postharvest applications in flower crops.