梨小食心虫幼虫龄数和龄期的划分

【目的】为明确梨小食心虫Grapholitha molesta(Busck)幼虫的发育状况,以便进行预测预报及采取防治措施。【方法】试验对幼虫头壳宽、上颚宽、体长和体宽4项指标进行测量。【结果】头壳宽和上颚宽符合Dyar法则和Crosby法则并呈现明显的线性回归关系,可作为龄期划分的重要指标,确定其龄期为5龄。室内26℃温度下饲养幼虫历期约为15 d,1~4 d为1龄期、4~7 d为2龄期、6~10 d为3龄期、8~12 d为4龄期、11~15 d为5龄期。【结论】幼虫刚毛、体色、斑纹也可作为龄期划分辅助参考方法,体长和体宽变异性较大,不宜作为幼虫龄数划分的标准。     

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。     

梨小食心虫化学感受蛋白cDNA的克隆、序列分析及原核表达

为了研究梨小食心虫Grapholita molesta化学感受蛋白（chemosensory proteins, CSPs）在化学感受系统中的作用, 本研究利用RT-PCR和RACE技术克隆到一条梨小食心虫化学感受蛋白的全长cDNA序列, 命名为GmolCSP （GenBank 登录号： JQ821389）。序列分析表明, GmolCSP开放阅读框序列为384 bp, 编码127个氨基酸残基, 预测N末端含有18个氨基酸组成的信号肽序列, 其成熟蛋白的预测分子量为12.80 kD, 等电点为8.33。该基因编码的氨基酸序列与其他鳞翅目昆虫化学感受蛋白的氨基酸序列具有较高同源性。RT-PCR结果显示, GmolCSP在梨小食心虫成虫触角、 去触角的头、 胸、 腹、 足和翅中都有表达。将GmolCSP重组到表达载体pET-32a中, 转入大肠杆菌Escherichia coli BL21（DE3）进行表达。SDS-PAGE和Western 印迹检测结果显示, 梨小食心虫化学感受蛋白基因在大肠杆菌中成功地表达出一个分子量约为29 kD的融合蛋白, 与预测的融合蛋白分子量大小一致。本研究结果为进一步研究该蛋白的分子结构和功能奠定了良好基础。     

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。     

糖醋酒液与性诱剂结合对梨园梨小食心虫的最佳诱捕效果研究

【目的】糖醋酒液能有效诱集梨小食心虫Grapholita molesta(Busck),而性诱剂辅助正好使糖醋酒液诱捕效果得以补充。【方法】本文对6种配方的糖醋酒液、3种窗口形状诱瓶、有无性诱剂辅助、4种高度、5种间距在梨园对梨小食心虫的诱捕效果进行了研究,总结出糖醋酒液对梨小食心虫最佳诱捕效果的设计方案。【结果】结果表明,在梨园利用糖醋酒液防治梨小食心虫时,选择红糖∶食用醋∶白酒∶清水=3∶1∶3∶80的糖醋酒液配方,窗口形状为长方形的诱瓶,辅以性信息素诱芯,挂瓶高度为1.5 m,间距为4 m时诱捕效果最佳。【结论】合理利用糖醋酒液防治梨小食心虫是一种简便有效的方法。     

蛋白酶抑制剂对梨小食心虫幼虫中肠蛋白酶活性的影响

【目的】梨小食心虫Grapholitha molesta(Busck)是一种危害极其严重的果树害虫。中肠蛋白酶在昆虫生长发育过程中起着重要作用。本研究测定梨小食心虫幼虫中肠内蛋白酶活性的最适p H、蛋白酶抑制剂和激活剂对蛋白酶活性的作用,为利用蛋白酶抑制剂防治该害虫提供新思路。【方法】提取梨小食心虫3龄幼虫中肠液,利用酶专性底物测定各蛋白酶在3种不同缓冲溶液中的最适p H(dd H2O为对照)、蛋白酶抑制剂和激活剂对中肠蛋白酶活性的影响,同时测定饲喂蛋白酶抑制剂(PMSF,TLCK,TPCL和STI)后梨小食心虫中肠蛋白酶活性的变化。【结果】梨小食心虫幼虫中肠总蛋白酶在Tris-HCl,KH2PO4/Na OH和Glycine/Na OH 3种缓冲液中最适p H分别为10.5,11.0和11.0,强碱性胰蛋白酶的最适p H分别为10.5,11.0和11.0,弱碱性胰蛋白酶的最适p H分别为8.5,9.0和9.0,胰凝乳蛋白酶的最适p H分别为8.5,9.0和9.5。5种蛋白酶抑制剂(DTT,PMSF,TLCK,TPCL和STI)中,除TLCK对凝乳蛋白酶激活外,其他蛋白酶抑制剂对4种蛋白酶均表现为抑制,且浓度越大抑制效应越明显。抑制剂DTT对总蛋白酶和弱碱性胰蛋白酶的抑制效果高于其他抑制剂。4种蛋白酶激活剂(Mg Cl2,Ca Cl2,EDTA和EGTA)中,Mg Cl2抑制总蛋白酶和胰凝乳蛋白酶活性,而激活胰蛋白酶活性;Ca Cl2激活总蛋白酶和弱碱性胰蛋白酶活性,而抑制强碱性胰蛋白酶和胰凝乳蛋白酶,EDTA对4种蛋白酶均表现为抑制,EGTA除对强碱性胰蛋白酶表现为激活外,对另外3种蛋白酶表现抑制。用蛋白酶抑制剂PMSF,TLCK,TPCL和STI饲喂梨小食心虫幼虫,各抑制剂均可抑制4种蛋白酶活性,且在不同取样时间抑制水平不同。其中STI(50μg/m L)对4种蛋白酶的抑制效果高于其他抑制剂,且浓度越大抑制效应越明显。10,20和50μg/m L STI 3种浓度处理组,在取食后4 h时,4种蛋白酶活性升高,且上升程度与STI浓度有关;酶活性在20μg/m L STI处理后48 h,50μg/m L STI处理后60 h时最低,抑制剂STI表现出持效性。【结论】蛋白酶抑制剂对梨小食心虫幼虫中肠蛋白消化酶的活性具有一定的抑制作用,其中大豆胰蛋白酶抑制剂STI在害虫防治中具有极其重要的应用价值。     

The effects of different blend ratios and temperature on the active space of the Oriental fruit moth sex pheromone

Abstract The wing-fanning activation response of male Oriental fruit moths (OFM), Grapholita molesta (Busck), in the field to the three-component pheromone containing the female-produced ratio of components (Z8-12:OAc + 6% E8-12:OAc + 3% Z8-12:OH) was compared with the response to blends containing 2,10 and 20% E with 3% OH, and the 6% E blend containing 30 and 100% OH. Comparisons were made over three temperature ranges: 15–17, 20–21 and 26–28^oC. Both the maximum response distance and male response specificity were significantly altered by changes in odour quality as well as temperature. For blends containing different Z/E ratios the maximum response distance increased significantly with temperature. Response specificity was most pronounced at the 20–21^oC range, with males displaying a lower threshold for the natural 6% E ratio, evidenced by the fact that fewer males responded and at closer distances to the source with off-ratios. At 26–28^oC response specificity for the Z/E ratios was much reduced, primarily due to more males activating to off-ratios. With blends containing different proportions of Z8-12:OH in the 6% E blend, increasing temperature increased the maximum response distance for all treatments, but in addition increasing the proportion of OH alone from 3% to 30% significantly increased the maximum response distance over the three temperature ranges tested. This increase occurred without affecting the proportion of responders or the distribution of response distances around the mean value. However, with 100% OH added to the blend, whereas male response was high at 20–21^oC, the distribution of response distances was significantly more variable than with 3% or 30%, and male response was eliminated or very low at 15–17^oC and 26–28^oC. Our results support previous studies showing that peak response levels in this species are dependent on male perception of the natural blend of components, and that males have a high degree of specificity for the qualitative properties of the pheromone. However, the present results also extend those of previous flight tunnel tests in which response specificity was most pronounced in the upwind flight phase of the sequence, by showing that male OFM also display a     

Structured populations of the oriental fruit moth in an agricultural ecosystem

Intercontinental trade has led to multiple introductions of invasive pest species at a global scale. Molecular analyses of the structure of populations support the understanding of ecological strategies and evolutionary patterns that promote successful biological invasions. The oriental fruit moth, Grapholita (=Cydia) molesta, is a cosmopolitan and economically destructive pest of stone and pome fruits, expanding its distribution range concomitantly with global climate warming. We used ten newly developed polymorphic microsatellite markers to examine the genetic structure of G. molesta populations in an agricultural ecosystem in the Emilia‐Romagna region of northern Italy. Larvae collected in eight sampling sites were assigned to a mosaic of five populations with significant intra‐regional structure. Inferred measures of gene flow within populations implicated both active dispersal, and passive dispersal associated with accidental anthropogenic displacements. Small effective population sizes, coupled with high inbreeding levels, highlighted the effect of orchard management practices on the observed patterns of genetic variation within the sampling sites. Isolation by distance did not appear to play a major role at the spatial scale considered. Our results provide new insights into the population genetics and dynamics of an invasive pest species at a regional scale.     

Local and regional climate variables driving spring phenology of tortricid pests: a 36 year study

1. Insect phenology is driven by local climate variables, most notably temperature. Increased warming has been linked to advancements in critical phenophases such as the spring flight of reproductive adults in the mid‐Atlantic region of the U.S.A. 2. Local climate is governed by the fluctuations of large‐scale climate oscillations. In the northern hemisphere, both the North Atlantic Oscillation (NAO) and the Arctic Oscillation (AO) control the local autumn and winter severity. Low NAO and AO indices are associated with colder autumns and winters, which can delay spring phenology. 3. In this study, 36 years of data from experimental fruit orchards in Biglerville, Pennsylvania, were used to run partial least‐squares regressions in order to determine the climate variables related to the spring phenology of five tortricid pest species. 4. The phenology of the tortricid pests did not advance, even though there was evidence of warming at the research site. 5. Spring temperatures were found to be the most significant climate variables in determining the timing of the spring flights. However, autumn–winter temperatures were also important. 6. For the NAO and the AO, it was found that these oscillations affected the tortricid moths by influencing autumn–winter conditions. The oscillations of the NAO and AO can obscure long‐term changes in phenology. 7. These findings suggest that the inclusion of large‐scale climate oscillations can provide important insights into how climate conditions can influence insect phenology, and presents an opportunity for improving the ability to forecast spring emergence.