糖醋酒液对梨小食心虫和苹果小卷叶蛾的诱杀作用

糖醋酒液可以诱杀多种害虫,是一种传统无公害防治措施。但在植保上应用的糖醋酒液配方中的糖、醋、酒成分及配比却比较混乱,难于重复和推广应用。试验研究诱杀果树主要害虫梨小食心虫Grapholitha molesta(Busck)和苹果小卷叶蛾Adoxophyes orana Fisecher von Rslerstamm的糖醋酒液最佳配比。结果表明,糖醋酒液配比中乙酸∶乙醇∶水为3∶1∶3∶80是较理想配方,调节不同成分比例对诱虫效果会造成不良影响。试验结果还表明,梨小食心虫雌虫比例会随着糖醋酒液诱虫量的增加而减少。诱虫量小于10头/d时雌虫的比例为88.0%,诱虫量大于30头/d时雌虫比例只有56.1%。     

梨的小食心虫雄蛾对性诱剂趋性的田间观察

通过田间诱蛾比较,筛选出诱蛾力强的性诱剂配比,该配比为Z18-12AC:E8-12AC:Z8-12OH:n-12OH=95:5:5:300微克.经持效期测定,有效期在80天以上.在田间对雄蛾趋向于性诱剂的行为观察,看出雄蛾的趋性受诱芯配比、暴露天数影响显著,雄蛾的着陆受活动期风速影响明显。     

梨小食心虫性诱剂附加农药诱杀器的设计

通过田间对梨小食心虫雄蛾着陆行为观察,设计出4种诱杀器,其中双翼式和台式最适于雄蛾降落。诱杀器的材料以PVC塑板为好。涂在诱杀器上的缓释型菊酯农药,开始对雄蛾有较强的忌避作用,但在田间暴露10天后,雄蛾着陆率可在80％以上,让雄蛾接触在田间暴露的药膜5秒左右,开始雄蛾可在10分钟内被击倒,当药膜在田间暴露80天后,仍可击倒雄蛾,所以这种性诱剂加农药的诱杀器有可能用来防治梨小食心虫或其它小型害虫。     

江苏无锡梨小食心虫发生动态及性诱剂防治

利用性诱剂调查江苏无锡地区三个水蜜桃Prunus persica种植区梨小食心虫Gtapholitha molesta成虫的年发生动态,并比较不同时间挂放诱芯的诱集效果。结果表明,在无锡地区,梨小食心虫年发生5代,部分发育较快的五代幼虫在越冬前发育为成虫,但因无法找到合适的产卵场所而成为无效虫口。越冬代成虫和一代成虫发生较为整齐,可以使用性诱剂集中诱杀,但从二代成虫开始,发生呈现多个高峰,田间世代重叠明显。对梨小食心虫的性诱剂防治试验表明,在无锡地区,需高密度放置诱芯并2周更换1次诱芯方能达到防治效果。     

用性信息素诱捕法大面积防治梨小食心虫的田间试验

1981至1982年,在辽宁省绥申县白梨产区用合成梨小食心虫性信息素诱捕法进行了大面积防治梨小食心虫Grapholitha molesta(Busck)的田间试验。防治面积分别为4,000公顷和5,400公顷。平均每公顷设15个性信息素诱捕器。化学防治区每年8—9月份喷两次农药,诱捕区不喷这两次农药。诱捕区梨小食心虫雌蛾的交配率比化防区下降74.2—82.9%;梨小卵的寄生率提高79.2%;梨小虫果率下降50.3—72.8%。     

不同口径陷阱诱捕器诱杀梨小食心虫研究

梨小食心虫Grapholitha molesta(Busck)是重要的蛀果类害虫之一,目前性信息素广泛应用于梨小食心虫防治,为明确性信息素陷阱诱捕器的诱捕效果,针对开口方式设计四面开口和两面开口两种处理的陷阱诱捕器;针对口径的大小下设计2、3、4、5、6 cm的5种口径的对口瓶陷阱式诱捕器,分别在桃园对梨小食心虫进行诱捕试验,诱捕结果显示两面开口的诱捕器诱捕效果比四面开口的诱捕器效果显著,口径为2 cm和3 cm的陷井式诱捕器诱捕效果最佳,诱捕量显著高于5 cm和6 cm,诱捕量达34.6头/日和20.4头/日。通过试验明确了陷阱诱捕器的最佳诱捕效果的参数,同时为测报及田间大量诱杀的诱捕器使用提供依据,为防控梨小食心虫性信息素诱捕器提供标准化参数。     

苹果蠹蛾性信息素对梨小食心虫的诱集和迷向作用

【背景】在中国,苹果蠹蛾和梨小食心虫经常混合发生,但有关苹果蠹蛾迷向设置对梨小食心虫影响的研究却较少。【方法】在苹果蠹蛾和梨小食心虫同时发生的果园中设置2种迷向发散器,使用三角胶粘式信息素诱捕器监测2种昆虫的发生动态,以观察苹果蠹蛾性信息素是否会对梨小食心虫产生诱捕效果或类似的迷向作用。【结果】无论是否设置性信息素迷向发散器,苹果蠹蛾性信息素诱捕器均能诱集到梨小食心虫的雄性成虫。在2009~2011年的田间试验中,苹果蠹蛾性信息素诱捕器对梨小食心虫雄性成虫的诱集量最多能达梨小食心虫性信息素诱捕器的1.1倍,占2种诱捕器诱集总量的51.7%。在设置性信息素迷向发散器的果园中,梨小食心虫雄性成虫的诱集量受苹果蠹蛾性信息素迷向发散器的影响而下降:相比无迷向设置的对照果园,同时设置2种昆虫迷向发散器的果园中,苹果蠹蛾性信息素诱捕器内的梨小食心虫雄性成虫诱集总量最高下降了90.9%,梨小食心虫自身性信息素诱捕器内的梨小食心虫雄性成虫诱集总量最高下降了92.4%;在仅设置苹果蠹蛾性信息素迷向发散器的果园中,苹果蠹蛾性信息素诱捕器内的梨小食心虫雄性成虫诱集总量最高下降了87.5%,梨小食心虫性信息素诱捕器内的梨小食心虫雄性成虫诱集总量最高下降了60.6%。【结论与意义】苹果蠹蛾迷向发散器对于梨小食心虫雄性成虫存在"迷向"作用。在2种害虫同时发生的情况下使用2种迷向发散器,对于2种害虫能够达到比较好的防治效果。     

不同栽培管理梨园梨小食心虫发生程度研究

梨小食心虫Grapholitha molesta(Busck)是梨园中的一种重要害虫。本论文采用性诱剂诱集法研究了不同栽培管理条件下梨园梨小食心虫发生的情况。结果表明,在5种不同种植模式的果园中,梨小食心虫在单植桃园中发生最重,试验期间梨小食心虫的日平均诱蛾量为10.9头/盆,与其他4种栽植模式果园的诱捕量均呈显著差异,且混有桃树的果园中梨小食心虫的发生数量多,而单植梨园、梨苹果混栽园、单植苹果园的梨小食心虫发生相对较轻。果实套袋的管理方法也可以显著降低梨小食心虫的发生数量,非套袋梨园的日平均诱捕量为13.8头/盆,是套袋梨园的1.52倍。试验还表明,不同品种和不同树龄的梨树对梨小食心虫的抗虫性均存在显著差异。酥梨比巴梨的抗虫性差,试验期间酥梨园的日平均诱捕量为12.6头/盆,是巴梨园的2.21倍,而40年老酥梨园日平均诱蛾量为12.5头/盆,是20年酥梨园诱蛾量的2.5倍。     

小地老虎食诱剂糖醋酒液配方筛选及发酵增效作用

【目的】为筛选和规范诱集小地老虎Agrotis ipsilon成虫的最佳糖醋酒液配方及最佳发酵时间,确定发酵液中的挥发物成分。【方法】优选以单一纯物质糖、醋、酒和水进行混配的配方A, B, C和D, 其配比分别为蔗糖(g)∶乙酸(mL)∶无水乙醇(mL)∶纯水(mL)(m/v/v/v)=3∶1∶3∶80, 3∶1∶3∶160, 3∶1∶6∶80和1∶1∶3∶80及常见配方E［白糖(g)∶白醋(mL)∶白酒(mL)∶自来水(mL)= 6∶3∶1∶10(m/v/v/v)］,分别并采用Y型嗅觉仪及GC-MS测试和分析小地老虎成虫对发酵1~15 d后的糖醋酒液的趋性及发酵液中的挥发物成分。【结果】趋性试验结果表明,糖醋酒液B配方对小地老虎诱集效果显著优于A, C, D和E配方,C配方次之。小地老虎成虫对B和C这两种配方发酵8 d发酵液的选择反应率均显著高于对未发酵及发酵5 d和7 d外的其他发酵时间发酵液的选择反应率。挥发物成分组成分析结果显示,糖醋酒液B配方发酵8 d发酵液的挥发物共有41种化合物,主要包括17种烃类化合物、8种醛类化合物、2种酮类化合物、4种醇类化合物、5种酯类化合物和5种醚类化合物。而且发酵8 d的糖醋酒液B配方与其未发酵以及发酵4 d和发酵12 d的糖醋酒液B配方之间的挥发物成分差异较大。【结论】优选并明确单一物质糖、醋、酒和水进行混配的小地老虎食诱剂配方(3∶1∶3∶160, m/v/v/v),其糖醋酒液通过发酵可以产生增效作用,最佳发酵时间为8 d。     

梨小食心虫对LED光的趋性及影响因素的研究

为了明确梨小食心虫Grapholita molesta Busck对LED光的趋性及果园利用LED光诱捕梨小食心虫的效果,为开发基于梨小食心虫趋光行为的新防治手段提供依据。本研究通过室内观察梨小食心虫成虫对不同波长的4种LED光及白光的趋性及暗适应时间、性别、日龄和光照强度对趋光性的影响,进一步调查了LED光对田间梨小食心虫成虫的诱捕效果。结果表明:在室内条件下,梨小食心虫成虫对520 nm的绿光趋性最强。1⁵日龄成虫中,以3日龄成虫趋光性最强,且雌虫趋光性显著高于雄虫。在暗适应0.55日龄成虫中,以3日龄成虫趋光性最强,且雌虫趋光性显著高于雄虫。在暗适应0.5³.0 h范围内,梨小食心虫成虫的趋光性表现为"抛物线形",以暗适应2.0 h时趋光性最强,并显著高于其它暗适应处理时间。在550、650、750、850 lx光照强度下,以650 lx光强时的趋光性最强。田间诱捕结果表明,不同颜色的LED灯对梨小食心虫的诱捕效果均不理想,不适于梨小食心虫的防治。     

印楝素乳油对梨小食心虫的防控效果研究

【目的】探索0.3%印楝素乳油对梨小食心虫Grapholita molesta的控制效果。【方法】根据梨小食心虫的生物习性,采用浸渍法和浸虫法对梨小食心虫1日龄、3日龄、5日龄的卵和3龄、5龄幼虫进行了杀虫活性测定,采用药膜法对梨小食心虫初孵幼虫进行毒力测定,并通过田间试验测定0.3%印楝素乳油对梨小食心虫的控制效果。【结果】0.3%印楝素乳油对梨小食心虫1日龄、3日龄和5日龄卵的致死中量分别为6.5195、4.5789、6.6268 mg/L,对初孵幼虫的致死中量为6.0495 mg/L,效果较好,而对3龄和5龄幼虫几乎没有杀伤作用。使用有效成分为2.0 mg/kg~3.0 mg/L的印楝素乳油在田间进行梨小食心虫防治试验时,药后5 d和10 d的防治效果在63.18%~76.22%之间,至药后15 d时,防效则下降到27%以下,果实受害明显,表明该药剂已失去控制作用。【结论】印楝素乳油不能作为防治梨小食心虫的专用药剂,仅可在其发生危害的初期,防治其他害虫时,作为兼治的药剂来使用。     

湖北老河口梨小食心虫成虫发生规律及综合防治效果

【目的】为了寻找湖北省老河口梨小食心虫Grapholita molesta(Busck)的最佳防治时期,推广使用无公害防控技术,减少化学药剂的使用。【方法】分别调查了梨小食心虫在梨园及桃园的发生规律,释放赤眼蜂的生物防治效果,糖醋酒液、三角形诱捕器、黄板的物理防治效果,以及性信息素迷向防治效果。【结果】结果表明,桃园梨小食心虫最佳防治时期在4月中下旬,梨园梨小食心虫最佳防治时期在5月下旬、6月上旬、8月中旬前。防治效果上,释放赤眼蜂生物防治措施、配比为红糖∶白酒∶食用醋:水=3∶1∶3∶80的糖醋酒液诱捕器的物理防治措施、迷向丝及迷向素的迷向措施均有替代化学防治措施的潜力。【结论】综合防治能够有效控制梨园梨小食心虫发生量,减少化学防治频次,为建立稳定的梨园生态系统及生产无公害水果提供了帮助。     

Simultaneous identification of Grapholita molesta Busck and Grapholita dimorpha Komai by PCR‐RFLP

Although several molecular diagnostic techniques are available for the identification of the apple‐feeding pests Grapholita molesta Busck and Grapholita dimorpha Komai, these pests are severely affecting apple orchards in Korea. These two pests may be misidentified or the available molecular diagnostic techniques may not facilitate the simultaneous identification of the morphological features of both species. In this study, we developed a multiplex assay for these two species using the polymerase chain reaction – restriction fragment length polymorphism (PCR‐RFLP) method. Sixty‐two specimens were collected from apples presumed infested with moth larvae and from pheromone traps from 2013 to 2014. Both species were identified morphologically, and a partial region of the cytochrome b gene was sequenced to design primers for PCR‐RFLP. Digestion profiles of G. molesta and G. dimorpha, using the Sau3A1 restriction enzyme, were characterized using three DNA fragments each for G. molesta (363 bp, 91 bp and 31 bp) and G. dimorpha (220 bp, 234 bp and 31 bp). The RFLP assay developed for both species in this study was more efficient and accurate than other currently used diagnostic assays and would be helpful to identify field‐collected specimens for pest control research.     

梨小食心虫幼虫感受器扫描电镜观察

梨小食心虫Grapholita molesta(Busck)是一种世界性蛀果害虫,主要以幼虫钻蛀蔷薇科果树的嫩梢和果实进行为害.本文利用扫描电子显微镜观察了梨小食心虫幼虫的超微形态和感受器.结果表明,幼虫触角上有3种类型的感受器:2个刺形感受器、6个锥形感受器和1个栓锥形感受器.上唇有6对刺形感受器.上颚的前端有切齿叶.在下颚的轴节和茎节各有1个刺形感受器.每个外颚叶有3个短而尖的锥形感受器、2个大的栓锥形感受器和3个刺形感受器.体节末梢的下颚须有7个锥形感受器、1个栓锥形感受器.下颚须的末端有1个指形感受器和2个板形感受器.每个下唇须末端具有1个尖锥状刺形感受器和1个长的栓锥形感受器.胸足与腹足上也分布有不规则的毛型感受器和刺型感受器.该研究将为进一步阐明梨小食心虫与其寄主的关系提供形态学的理论基础.     

Mating disruption barriers in pome fruit for improved control of oriental fruit moth Grapholita molesta Busck (Lep., Tortricidae) in stone fruit under mating disruption

Oriental fruit moth (OFM) Grapholita molesta Busck (Lep., Tortricidae) is a very important pest in commercial orchards in Victoria, Australia. Pheromone‐mediated mating disruption (MD) applied in stone fruit orchards successfully controlled OFM populations for many years, but damage to shoot tips and fruit at the edge of peach blocks located adjacent to pear blocks under insecticide treatments has become problematic. To improve protection of stone fruit against edge damage and outbreaks of OFM, all orchards were treated with sex pheromone dispensers for MD on an area‐wide basis. Area‐wide MD treatment, including all pome and stone fruit orchards in a discrete area, successfully controlled edge infestations of OFM, but was expensive. To reduce the cost of OFM control, sex pheromone dispensers for MD were applied as barrier treatments to 54–60 m of neighbouring pears adjacent to peaches under MD. Detailed monitoring of the OFM population, shoot tip and fruit damage assessments indicated that application of MD barriers on pears during two consecutive seasons provided sufficient control of OFM on peaches. This MD barrier treatment was able to reduce the number of OFM caught in all experimental peach blocks, with damage to shoot tips and fruit giving similar results to MD treatment of the whole neighbouring pear block. Extending the MD treatment area for 54–60 m into the neighbouring pear block significantly reduced the edge damage in MD‐treated peaches in the first season and almost eliminated OFM damage in the second season.     

Evaluation of extended-season mating disruption of the Oriental fruit moth Grapholita molesta (Busck) (Lep., Tortricidae) in apples

Abstract:  Oriental fruit moth Grapholita molesta (Busck) (Lep., Tortricidae) has recently become a key pest of apples throughout the eastern USA. Pheromone-mediated mating disruption of Oriental fruit moth was successfully used in North Carolina apple orchards in the past few years. However, low levels of late-season fruit damage occurred in some orchards treated in late May with hand-applied pheromone dispensers because of inadequate dispenser longevity. To investigate alternative pheromone application schedules for extended mating disruption control, the following pheromone treatments were compared with conventional insecticides in Henderson County (NC) in 2002: late May application of hand-applied dispensers; late June application of hand-applied dispensers; late May application of hand-applied dispensers supplemented with a late August application of sprayable pheromone dispensers; late May application of hand-applied dispensers which have a longer activity period; and conventional insecticides as a control. All treatments were sprayed with an insecticide at petal fall in late April for thinning and for control of the first generation Oriental fruit moth adults. Pheromone trap catches were significantly reduced in all mating disruption blocks compared with conventional insecticide blocks. Among pheromone treatments, the highest trap captures were recorded in the delayed hand-applied dispenser treatment in June before treatment. However, the mean percentage fruit damage did not vary with timing of application of hand-applied dispensers and the type of pheromone dispenser used. Clearly, the combination of each mating disruption treatment with insecticide application against first generation Oriental fruit moth was as effective as the conventional insecticide treatment under moderate population pressure.     

桃园中食心虫单一性诱芯及其复合配置的诱蛾效率比较

【目的】明确两种食心虫性诱芯复合配置的诱蛾效果,提高其监测或防治效率及其绿色环保化水平,为果树生产中食心虫的高效监测和绿色防控提供科学依据。【方法】田间系统调查研究了梨小食心虫(以下简称"梨小")、桃小食心虫(以下简称"桃小")单一性诱芯及其复合配置3种处理的诱蛾效率,并利用"Y"型嗅觉仪比较研究了其间梨小雄蛾趋向性的差异。【结果】(1)梨小和桃小性单一诱芯及其复合配置对梨小均具有引诱作用,其诱蛾总量依次为8 238.33、1 451.67、8 321.67头/诱捕器,其中第1、2、3代时复合配置诱蛾量最大,越冬代和第4代时梨小单一性诱芯诱蛾量最大,而各世代桃小单一性诱芯诱蛾量均最低。梨小单一性诱芯及其复合配置均监测到5个梨小发生高峰,且峰期基本一致,但复合配置的峰日诱蛾量均较高;桃小单一性诱芯仅监测到3个梨小发生高峰,且峰日诱蛾量亦较低。(2)桃小单一性诱芯及其复合配置对桃小均具有引诱作用,其诱蛾总量依次为4.00、2.33头/诱捕器,而梨小单一性诱芯对桃小无引诱作用。(3)"Y"型嗅觉仪研究发现,梨小食心虫对梨小和桃小各单一性诱芯及其复合配置均具有趋向作用,其趋向率依次为50.67%、8.67%、53.33%。【结论】梨小和桃小单一性诱芯复合配置对梨小诱捕量有微增效作用,而对桃小诱捕量有一定干扰作用,但影响均不显著。据此,该复合配置可用于桃园中梨小和桃小的监测与防控。     

Molecular and functional characterization of three odorant binding proteins from the oriental fruit moth Grapholita molesta (Busck) (Lepidoptera: Tortricide)

Odorant binding proteins (OBPs) act in recognizing odor molecules and their most well‐studied functions are transporting odors across the sensillum lymph to olfactory receptor neurons within the insect antennal sensillum. The adults of Grapholita molesta highly depend on olfactory cues in locating host plants and selecting oviposition sites, in which OBPs play an important role in perceiving and recognizing host plant volatiles. Exploring the physiological function of OBPs could facilitate our understanding of their importance in insects’ chemical communication. In this study, three OBP genes were cloned and named GmolOBP4, GmolOBP5, and GmolOBP10. Quantitative real‐time PCR results indicated that GmolOBP4 and GmolOBP10 were predominantly expressed in adult antennae and GmolOBP5 was expressed in multiple tissues, including head, legs, and wings in addition to antennae. The binding affinities of the three recombinant GmolOBPs (rGmolOBPs) with four sex pheromone components and twenty‐nine host plant volatiles were measured using 1‐N‐Phenyl‐naphthylamine as a fluorescence probe. The three rGmolOBPs exhibited specific binding properties to potential ligands, GmolOBP4 and GmolOBP10 bound to minor sex pheromone components, such as (Z)‐8‐dodecenyl alcohol and dodecanol, respectively. rGmolOBP4 showed intermediate binding ability with hexanal, benzyl alcohol, and pear ester, rGmolOBP5 had a weak affinity for benzaldehyde, pear ester and, methyl jasmonate, and rGmolOBP10 showed strong binding capacity toward hexanol, decanol, and α‐ocimene. We speculate that the GmolOBP4 and GmolOBP10 have dual functions in perception and recognition of host plant volatiles and sex pheromone components, while GmolOBP5 may serve other function(s).     

果园梨小食心虫越冬幼虫与成虫发生的关系

【目的】探明梨小食心虫Grapholita molesta (Busck)在果园中的越冬场所及越冬幼虫与越冬代成虫发生的关系, 为更好地防治梨小食心虫提供科学依据。【方法】选取山东省不同地区（济南、泰安、肥城、广饶、莱芜）6个代表性的果园进行系统调查, 刮树皮调查记录梨小食心虫越冬幼虫在树体上的分布和存活情况, 利用封闭纱网调查土壤中梨小食心虫越冬幼虫数量, 同时利用性诱集和糖醋液对越冬代成虫发生量进行监测, 分析同园越冬幼虫与成虫发生的关系。【结果】梨小食心虫幼虫平均越冬成活率高达62.99%; 不同果园间梨小食心虫的越冬幼虫数量差异显著（P<0.001）。 越冬场所选择更倾向于树体下部（45.10%）和中部（46.28%）以及相应的主干（28.48%）和主枝（44.24%）, 而位于树体上部(8.62%)及相应的侧枝(27.28%)的相对较少; 对树枝方位的选择没有显著差异（P>0.05）（东27.57%, 西26.13%, 南23.76%, 北22.54%）。同园越冬幼虫数量与越冬代成虫诱集数量无显著相关性。【结论】梨小食心虫以老熟幼虫在果树中、下部主干和主枝及树干周围的土壤中越冬。梨小食心虫在果园调查获得的越冬幼虫数量不能作为该果园翌年越冬代成虫发生和防治的依据, 发生危害情况还需根据周围环境情况做综合考虑。     

Distribution of the oriental fruit moth Grapholita molesta Busck (Lep., Tortricidae) infestation on newly planted peaches before and during 2 years of mating disruption

Abstract:  Oriental fruit moth (OFM) Grapholita molesta Busck (Lep., Tortricidae) is one of the most important pests of commercial stone fruit orchards in the Goulburn-Murray Valley region of Victoria, Australia. OFM populations have been successfully controlled by the use of the mating disruption (MD) technique for many years, but damage to shoot tips and fruit has now started to increase. The most severe damage under MD is found at the edge of peach blocks, adjacent to the pear blocks under insecticide treatment. In 1997–98, OFM infestation levels were examined in a newly planted peach block surrounded by older peaches, pears, apples and pasture. The infestation distribution was followed up for four consecutive years. No treatments were used against OFM for the first 2 years in the newly planted peaches, but in years 3 and 4 the whole block was treated with MD. At the end of year 2, shoot tip damage was randomly distributed throughout the newly planted peach block with no 'edge effect'. After MD was applied in year 3, the damage was confined to the edges of the block adjacent to insecticide-sprayed apples and pears. No 'edge effect' was detected along the border with an older peach block treated with MD or on the border with pasture. Extending the MD treated area for 25–30 m into the neighbouring apples and pears in year 4 reduced the 'edge effect'.