思茅咖啡天牛种群构成与危害的时空特性研究

通过室内饲养和野外调查,本文对思茅市咖啡天牛种群的构成,发生时期危害的时空特性及幼虫蛀孔部位的选择性进行了研究。结果表明,危害思茅地区咖啡的天牛种群由旋皮天牛和灭字虎天牛构成 ,在不同时间两个种群的构成比例不同。施皮天牛是优势种心化高峰期为４月１８－３０日,灭字虎天牛成虫主要在１０－１２月出现;在咖啡树中天牛幼虫的频数分布具有明显特征,１头虫的分布频数最高;     

BIOLOGICAL CONTROL OF COFFEE STEM BORERS, XYLOTRECHUS QUARDRLPES AND ACALOLEPlA CERVZNUS, BY BEAWEHA BASSIANA PREPARATION

Abstract  The use of Beauveria bassiana proparations for control of coffee stem borers, Xylotrechus quardripes Chevr. and Acalolepta cervinus (Hope), as tested in the laboratory and field conditions. The results show that each instar of coffee stem borers could be infected and killed successfully when being inoculated or contacted with B. bassiana . The control efficacy under indoor cultivation conditions exceeded 90% within 15 days. Jamming drilled hole with fungal mud resulted in the accumulative mortality and corrected mortality of > 90% within 20 days. In the field, three methods, jamming drilled holes with bamboo sticker, bamboo sticker with fungal mud, and fungal mud only, were employed, and each led to the control effect of > 90% within 20 days. However, spraying suspensions and dusting powder of B. bassiana ww insignificant. The yield of fresh coffee fruits in biological control area waa 125.7 kg/0.067 ha greater than that of control area when being harvested in February. Compared the cost of microbial control with that of chemical control, B. bassiana proved to be a profitable, effective, and safe biocontrol agent against coffee stem-borer.     

Behavioural and electrophysiological responses of Pantomorus cervinus (Boheman) (Coleoptera: Curculionidae) to host plant volatiles

Abstract  Fuller's rose weevil (FRW; Pantomorus cervinus ) (Coleoptera: Curculionidae), a polyphagous pest of citrus and other horticultural plants, was studied in laboratory assays designed to identify potential semiochemicals from host plants that might be exploited for weevil pest management. Using still-air bioassays, weevils were found to be most attracted to fresh whole lemon leaves compared with cut and/or dried lemon leaves. White clover, an understorey plant in kiwifruit orchards, was also found to be attractive to weevils in the dual-choice tests. Coupled gas chromatography-electrophysiological recording of weevil antennal responses to commercial extracts of lemon leaves indicated that weevils detected at least eight monoterpene components of the oil, i.e. linalool, terpinen-4-ol, nerol, neral, geraniol, geranial, neryl acetate and geranyl acetate. Significant antennal dose–responses were evident to lemon leaf oil, lemon constituent odours and two major green leaf volatiles detected from clover ( Z )-3-hexenol and ( Z )-3-hexenyl acetate. Still-air dual-choice tests on individual chemicals showed significant repellency from seven of the lemon leaf compounds at 500 µg/100 µL (all except geranyl acetate). Weevils were attracted to a synthetic blend consisting of the green leaf volatiles over a range of concentrations (1, 10 and 100 mg/100 µL), as well as to clover leaves. These plant kairomone components may be potentially useful as repellents or attractants for FRW control and management programme.     

Potential vector switching in the evolution of Bursaphelenchus xylophilus group nematodes (Nematoda: Aphelenchoididae)

To show the importance of vector switching of nematodes in the evolution of the Bursaphelenchus xylophilus group, we tested a hypothesis that “Bursaphelenchus doui (or its ancestor) was transferred by Acalolepta fraudatrix, Acalolepta sejuncta, and/or Monochamus subfasciatus (or their ancestral species) from broad‐leaved trees to conifers, switched vectors from these cerambycid beetles to Monochamus beetles in conifers, and then evolved into the common ancestor of Bursaphelenchus mucronatus and B. xylophilus.” We used a simple nematode‐loading method to beetles and produced 20 binary combinations of five B. xylophilus group species and four cerambycid beetle species in the tribe Lamiini. The affinity of the nematodes for the beetles was examined based on phoretic stage formation of the nematodes. Phoretic stages of B. doui appeared in all beetle species examined, namely Acalolepta luxuriosa, Psacothea hilaris, A. fraudatrix, and Monochamus alternatus, although the affinity of the nematode for M. alternatus was weak. This finding indicates that B. doui could switch vectors to conifer‐using Monochamus beetles after transfer by A. fraudatrix from broad‐leaved trees to conifers. We conclude that vector switching of nematodes could have potentially happened during the evolutionary history of the B. xylophilus group.     

白僵菌Beauveria bassiana防治咖啡天牛

在昆明动物研究所和云南省思茅市大开河咖啡场进行了咖啡天牛的白僵菌防治试验。室内和田间试验结果表明,只要接触到白僵菌的各龄咖啡天牛,均可被感染致死;室内培养条件下的虫体一般在第15天左右致死率可达90％以上,室内木段堵孔到第20天累计死亡率达90％以上,室外插竹签,菌签插孔和菌泥堵孔法在第20天防治效也可达90％以上,手撒菌粉和喷菌液法虽有一定防治作用,但效果不显著,产量测定结果显示,生物防治区咖啡鲜果每0．067公顷（1／15ha.)比对照区高125．7kg;与几种常用杀虫剂防治费用比较认为,白僵菌是一种经济、安全的生物杀虫剂。     

Vertical and horizontal movements of Fuller's rose weevil (Coleoptera: Curculionidae) in Australian citrus groves

Fuller's rose weevil (FRW; Asynonychus cervinus (Boheman)) is a pest of quarantine concern in many Asian markets for Australian citrus. We investigated vertical (tree climbing) and horizontal movements (inter‐tree movements) of FRW adults in a citrus orchard during 2009–2011 with mark‐recapture experiments. Trunk traps were used to intercept tree‐climbing adults. The results showed that the majority of the adults released on the foliage stayed in the canopy, however considerable numbers did drop and some dropped multiple times. The rate of drops appeared to be fixed, independent of how many times the weevils had dropped before. Inter‐tree movements of adults in the canopy occurred mainly within rows, probably because of touching foliage between within‐row neighboring trees. Movement directions on the ground were more random, when reliance on touching foliage was not necessary. According to fitted dispersal equations, the average dispersal distance was 38 m for weevils released on foliage and 127 m for those released on the ground. Trunk banding with chemicals is an important control tactic for FRW, and based on our results, chemicals should be applied at a high enough rate (or in a wide enough band) to ensure the weevils are killed by a single crossing. For maximum reductions of FRW populations in citrus, control actions should be applied not only to infested blocks but also to neighboring blocks in the orchard.