黄粉虫防御性分泌物抑菌活性的研究

目的:研究黄粉虫防御性分泌物的化学成分及其抑菌活性。方法:用二氯甲烷萃取分泌物并经GC/MS分析,后用牛津杯法和平板连续稀释法分别就该分泌物对大肠杆菌、金黄色葡萄球菌、白色假丝酵母、黑曲霉、桔青霉的抑菌作用及2-甲基对苯醌和对甲酚标准品对上述供试菌的最低抑菌浓度进行测定和比较。结果:分泌物含2-甲基对苯醌、对甲酚和正二十三烷等7种成分,抑菌强度:桔青霉>大肠杆菌和金黄色葡萄球菌>白色假丝酵母>黑曲霉。结论:该分泌物对这5种供试菌的抑制效果优于2-甲基对苯醌和对甲酚标准品。     

韭菜迟眼蕈蚊雌成虫对其不同虫态气味的行为反应

【目的】明确韭菜迟眼蕈蚊Bradysiaodoriphaga Yang et Zhang雌成虫对不同虫态的行为趋性及起作用的活性物质,为开发高效引诱剂诱杀成虫的绿色防控技术提供基础。【方法】采用Y型嗅觉仪测定未交配或已交配韭菜迟眼蕈蚊雌成虫对2龄幼虫、4龄幼虫、蛹和卵块挥发物的趋性,应用固相微萃取和气-质联用仪对有引诱活性虫态挥发物进行定性和定量分析,然后进一步采用Y型嗅觉仪测定不同化学成分及比例对雌虫的引诱活性。【结果】结果表明,未交配或者已交配韭菜迟眼蕈蚊雌成虫明显嗜好4龄幼虫,而对2龄幼虫、蛹和卵块无明显趋性。韭菜迟眼蕈蚊4龄幼虫体表挥发物主要成分是二丙基二硫醚和2,2-二甲基-1,3-噻烷等二硫化物,前者含量是后者的10倍。50 mg二丙基二硫醚单体对韭菜迟眼蕈蚊交配雌成虫具有明显吸引作用,50 mg和5 mg 2,2-二甲基-1,3-噻烷单体对韭菜迟眼蕈蚊交配雌成虫具有一定吸引作用;二丙基二硫醚与2,2-二甲基-1,3-噻烷以1︰1(50 mg︰50 mg)和10︰1(50 mg︰5 mg)混合物对韭菜迟眼蕈蚊交配雌成虫具有明显吸引作用;而将二丙基二硫醚和2,2-二甲基-1,3-噻烷以10︰1(50 mg︰5 mg)混合后与50 mg二丙基二硫醚单体比较,前者对韭菜迟眼蕈蚊交配雌成虫的吸引作用更明显。【结论】韭菜迟眼蕈蚊雌成虫明显嗜好4龄幼虫,其体表挥发物二丙基二硫醚等二硫化物对韭菜迟眼蕈蚊雌成虫具有吸引作用,2,2-二甲基-1,3-噻烷对二丙基二硫醚单体吸引韭菜迟眼蕈蚊交配雌成虫具有增效作用。     

水椰八角铁甲不同日龄和性别成虫表皮碳氢化合物的种类及动态

水椰八角铁甲Octodonta nipae(Maulik)是一种严重为害棕榈科植物的外来入侵害虫。为了明确日龄和性别等个体因素对水椰八角铁甲成虫表皮碳氢化合物的影响,本研究采用化学萃取法和气相色谱-质谱联用技术,分析了不同日龄的水椰八角铁甲雌、雄成虫表皮碳氢化合物的组成和含量。结果表明,水椰八角铁甲成虫的表皮碳氢化合物由21种C_(18)-C_(30)的碳氢化合物构成,包括11种正构烷烃、2种单甲基烷烃、1种多甲基烷烃、3种正构烯烃、1种单甲基烯烃和3种环烷烃。不同日龄和性别成虫的表皮碳氢化合物的组成种类相同,但是一些组分的含量有明显变化,例如1 d、5 d、10 d和15 d雌、雄成虫之间正二十四烷、正二十六烷、2-甲基十九烷和1-二十烯的含量存在显著差异。水椰八角铁甲成虫表皮碳氢化合物具有性二型,如性成熟雄虫的表皮的正二十烷、正二十一烷、正二十四烷、正二十六烷、2-甲基十九烷、10-甲基二十烷、1-二十烯和1-二十二烯的含量显著高于性成熟雌虫。本文的研究结果可为检验检疫过程中水椰八角铁甲近缘种,以及日龄、性别和性成熟的快速鉴定提供支持。     

棉铃虫不同发育阶段微粒体P450酶系组成和活性的比较

比较了棉铃虫Helicoverpa armigera 6龄幼虫、蛹、成虫微粒体P450单加氧酶系组成及其活性。P450含量在6龄幼虫中肠>（脂肪体=蛹）>成虫,NADPH-细胞色素还原酶在幼虫中肠>幼虫脂肪体>蛹>成虫;6龄幼虫脂肪体微粒体与蛹脂肪体微粒体P450含量相近,但NADPH-细胞色素还原酶活性前者是后者的4.2倍;成虫微粒体的细胞色素P450和NADPH细胞色素P450还原酶含量很低,几乎未检测出。用对-硝基苯甲醚和艾氏剂为底物测定P450酶系活性表明,与6龄幼虫相比,蛹和成虫具有极低的单加氧酶活性,其O-脱甲基酶活性未检出,艾氏剂环氧化酶活性比幼虫低2～3个数量级。     

椰心叶甲的耐寒力测定

测定椰心叶甲Brontispalongissima(Gestro)的过冷却点和结冰点。各虫态中过冷却点值以卵和蛹最低,分别为-9.8℃和-9.0℃,成虫较高,雌、雄成虫分别为-5.9℃和-5.5℃;幼虫的过冷却点最高,平均为-4.5℃。结冰点由高到低依次为2龄幼虫、5龄幼虫、4龄幼虫、1龄幼虫、3龄幼虫、雄成虫、雌成虫、蛹和卵,分别为-0.3,-0.8,-1.1,-1.3,-1.3,-2.4,-2.7,-5.4和-5.5℃。综合分析认为,蛹、卵的耐寒能力最强。根据广东地区常年平均气温分析了在自然条件下该虫各虫态越冬情况,但由于生物学特性的限制,越冬虫态主要是成虫、蛹。     

荔枝蝽成虫对其臭腺分泌物组分的触角电生理和行为反应

培养皿生物测定结果表明,荔枝蝽Tessaratoma papillosa(Drury)臭腺分泌物的乙醚提取物对成虫有显著的驱避作用.气质联用仪(GC-MS)分析结果表明,荔枝蝽雌雄成虫臭腺乙醚提取物中具有5种挥发性物质,即(E)-2-辛烯醛、十一烷、十二烷、十三烷及一个未知组分.荔枝蝽对(E)-2-辛烯醛、十一烷、十二烷与十三烷这4种组分的触角电生理(EAG)反应结果表明,这些化合物均能引起荔枝蝽成虫的EAG反应,其中(E)-2-辛烯醛引起雌雄成虫触角的反应最强,分别为0.50 mV与0.4 mV;"Y"型嗅觉仪生测结果表明,(E)-2-辛烯醛对荔枝蝽成虫能产生极显著的驱避作用(P <0.01).可见,荔枝蝽成虫臭腺分泌物对荔枝蝽具有显著的生物活性,可望通过进一步研究应用于荔枝蝽的防控体系.     

沙蒿尖翅吉丁生物学特性的研究

沙蒿尖翅吉丁Sphenoptera sp.是黑沙蒿上主要的钻蛀性害虫,引起沙蒿长势下降甚至死亡。对其形态特征及生物学特征的观察和研究结果表明:该虫在宁夏1年发生1代,以各龄幼虫在被害沙蒿根部越冬。老熟幼虫于4月中下旬开始化蛹,成虫始见于5月上旬,羽化期有两个高峰,分别是5、6月下旬。成虫羽化后并不马上离开蛹室,2～3d后咬出羽化孔,钻出蛹室。成虫需取食沙蒿叶片补充营养,2～7d后开始交尾,集中在13:00-16:30,雌雄成虫均可多次交尾。幼虫常多头聚集危害同一株沙蒿。大多数老熟幼虫在距坑道端部5mm处的根部化蛹,少数在直径为5～8mm的较粗的枝条内化蛹。沙蒿尖翅吉丁幼虫期有2种寄生性天敌,蛹期和成虫期各有1种寄生性天敌。     

西花蓟马表皮碳氢化合物成份分析

西花蓟马Frankliniella occidentalis(Pergande)是一种重要的世界性害虫。为了明确西花蓟马表皮碳氢化合物的主要成分,本文采用改进的进样技术,利用气相色谱-质谱联用仪(GC-MS)对西花蓟马成虫和若虫表皮碳氢化合物进行分析。经NIST数据库检索,并与标准图谱比较,应用色谱峰面积归一法测定各种成分及其相对含量,实验结果表明,西花蓟马成虫和若虫表皮中的主要成分为C25～C29的直链和支链饱和烷烃;成虫表皮中含有9种碳氢化合物,若虫表皮中有8种碳氢化合物;9-甲基二十五烷是其成虫特有的,其它8种碳氢化合物是成虫与若虫共有的,但其含量略有差异。     

弯齿琵甲生物学特性的研究

弯齿琵甲BlapsfemoralisFischer Waldheim在宁夏银川2年发生1代。以成虫和不同龄期的幼虫越冬,3月下旬至1 0月上旬产卵,卵期1 2～1 5d ;幼虫一般为1 1龄,幼虫期3 2 0～490d ;越冬幼虫于次年6月下旬至9月上旬化蛹,蛹前期1 2～1 8d,蛹期1 8～2 5d;羽化成虫经2 0 0～2 60d性成熟开始交配产卵。食性杂,不喜光,活动有明显的节律性。成虫具有利用防御腺进行自卫的特性,防御腺分泌物可为医学提供天然的药物。幼虫各项营养成分较高,是一种很有开发价值的资源昆虫。     

白星花金龟聚集信息素的分离鉴定及引诱效果

[目的]明确白星花金龟Protaetia brevitarsis Lewis聚集信息素的有效成分,为白星花金龟的绿色防控提供支持.[方法]通过动态顶空法收集白星花金龟雌虫、雄虫和雌雄虫混合挥发物,用气相色谱-质谱(Gas chromatography-mass spectrometry,GC-MS)联用技术对收集的挥发物进行分析鉴定,并利用触角电位(Electroantennogram,EAG)仪和Y型嗅觉仪测定白星花金龟对8种化合物的触角电位和行为选择反应.[结果]白星花金龟雌虫、雄虫和雌雄虫混合挥发物中皆鉴定出8类15种化合物,包括6种烷烃类、2种酚类、2种芳香烃类、1种烯类、1种吡啶类、1种胺类、1种醇类和1种酮类.EAG试验结果表明,白星花金龟对8种化合物都有EAG反应,且不同挥发物间、同种挥发物不同浓度间的EAG反应存在差异.白星花金龟对蒎烷胺、3,4-二甲基-6-乙基苯酚、2,3-二甲基苯乙酮和2,6,10,14-四甲基十七烷4种挥发物的EAG反应相对值在1μg/μtL时达到最大,对萘、苯并噻唑、百里酚和正十四烷4种挥发物的EAG反应相对值在10 μtg/μtL时达到最大.行为选择反应表明,白星花金龟雌成虫、雄成虫对2,3-二甲基苯乙酮有明显趋向性,选择反应率大于70％,对2,6,10,14-四甲基十七烷、萘、苯并噻唑、百里酚和正十四烷5种物质均表现出显著或极显著的驱避效果,对3,4-二甲基-6-乙基苯酚和蒎烷胺表现出了性别上的差异,雄虫对3,4-二甲基-6-乙基苯酚表现出显著的趋向性,对蒎烷胺表现出显著的驱避性,而雌虫对这2种挥发物却无明显反应.[结论]2,3-二甲基苯乙酮对白星花金龟雌成虫、雄成虫有明显的引诱效果,2,6,10,14-四甲基十七烷、萘、苯并噻唑、正十四烷和百里酚有较强的驱避作用,推测2,3-二甲基苯乙酮是白星花金龟聚集信息素的有效组分.     

Use of Dufour's gland secretion in nest defence and brood nutrition by hover wasps (Hymenoptera, Stenogastrinae)

Social wasps of the subfamily Stenogastrinae produce an abdominal secretion that is used in two distinct biological contexts. First, the secretion plays an important role in larval nutrition where it serves as a substrate in which food is placed by the adults for eventual consumption by the larvae. Second, in several species, females apply the same secretion to the substrate on which their nests are constructed, where it constitutes a sticky barrier that defends the immature brood from predation by ants. This paper describes for the first time ant guard construction behaviour of three species of stenogastrine wasps belonging to the genera Eustenogaster and Liostenogaster. The identification of compounds making up these secretions was also performed by gas chromatography-mass spectrometry. Ant guards and brood secretions were similar, with saturated and unsaturated long chain hydrocarbons and alcohols as major components. We further confirm that the glandular source of abdominal secretion is the Dufour's gland. This gland contains the same hydrocarbons, and in the same proportions as ant guards and brood secretion. We discuss the fundamental importance of Dufour's gland secretion in the social life of these wasps by comparing species with and without ant guards within the subfamily.     

Influence of larvae of Gastrophysa viridula on the distribution of conspecific adults in the field

1. Previous laboratory bioassays indicate that exocrine glandular secretions of larvae of Gastrophysa viridula repel conspecific adults and deter them from feeding and oviposition. The present study was conducted to investigate the influence of larvae of G. viridula on conspecific adults in the field.
2. Within the G. viridula population studied, two generations were observed in a year. Occurrence of the different developmental stages overlapped temporally.
3. Some individual plants of Rumex obtusifolius , the host of the G. viridula population studied, grew so close to each other that they were considered as a plant group. When investigating the spatial distribution of larvae and adults within such plant groups, larvae were rarely found on plant groups on which adults were feeding.
4. A field experiment revealed that adults avoided plants of R. obtusifolius infested by conspecific larvae of the second and third instar. Adults still avoided these damaged plants when larvae had left them for pupation.
5. Gastrophysa viridula avoided oviposition on leaves and plants infested by conspecific larvae. Larvae of the second instar significantly deterred oviposition when present at a high density (33.3 larvae/dm²), whereas larvae of the first instar did not deter oviposition of conspecifics at either density tested. The oviposition deterring effect was also observed when just exocrine glandular secretion of larvae of the second instar was applied to the leaves in amounts equivalent to a density of 33.3 larvae/dm².
6. Availability of food ( R. obtusifolius ) largely exceeded its exploitation in each group of plants examined. This may be due to either the spatial separation of adults and larvae or the low population density observed on these plant groups.     

The salivary gland secretions of a neotropical bumblebee

Summary The larval salivary gland secretions ofBombus atratus were studied with cytochemical and cytophysical methods. In the young feeding larvae a proteic filamentous secretion depicting striations perpendicular to the long axis of its fibrillary threads and exhibiting a wellordered macromolecular array was found. It appears not to differ from the silk secretion described for the fully grown larvae of an europeanBombus species. However, in the fully grown larvae ofB. atratus changes which have not yet been reported for other bees occur involving the salivary gland secretion. Two secretion types are then distinguishable. One is composed of carboxylated and sulfated acid glycosaminoglycans and glycoprotein(s) (mucous secretion), and the other has the same composition as that of the filamentous secretion of the young larvae, although differing morphologically and in terms of macromolecular alignment (flocculent secretion). The filamentous secretion is assumed to be involved inB. atratus with the spinning of the silken partitions which at a relatively early stage separate the larvae reared within a common cell from one another. The mucous and flocculent secretions will participate in the cocoons which will cover the pupating larvae. The filamentous and flocculent secretions appear to contain an -helical fibroin, glycoprotein(s) and lipoprotein(s), but not collagen-type proteins.     

Defensive larval secretions of leaf beetles attract a specialist predator Parasyrphus nigritarsis

1. Noxious larval secretions of leaf beetles, which repel generalist predators, do not deter specialist syrphid fly predators (genus Parasyrphus ). These flies cause considerable mortality to the beetles, but little is known about their foraging behaviour.
2. Larvae of Parasyrphus nigritarsis were attracted to the volatile larval secretions produced by two prey species Phratora vitellinae and Linaeidea aenea. Parasyrphus nigritarsis feeds on both beetles in nature. Phratora vitellinae feeds on willows and utilizes host plant compounds for secretion production, while the alder-feeding L. aenea produces an autogenous secretion.
3. Fly larvae were strongly attracted to pieces of filter paper treated with larval secretion of the beetles. They attempted to feed on them for up to 7 min, and were equally attracted to the secretions of Ph. vitellinae and L. aenea . Fly larvae were also attracted to pure salicyl aldehyde, the main component of the secretion of Ph. vitellinae .
4. Fly larvae searched extensively for prey on leaves that had been damaged by beetle larvae. They also followed trails made with solutions containing faecal matter of prey larvae. They showed no differential preference for Ph. vitellinae or L. aenea , but always rejected larvae of the non-prey leaf beetle Agelastica alni .
5. Beetle secretions thus play an important, but unexpected, role in the feeding behaviour of P. nigritarsis . This predator uses the beetle secretion to locate its prey. The implications of these results for three trophic level interactions are discussed.     

菜粉蝶幼虫、蛹和成虫的雌雄形态鉴别

利用体视显微镜观察、测量、记录菜粉蝶不同虫态雌雄个体间的形态特征差异。雌雄菜粉蝶幼虫、蛹和成虫均存在显著的雌雄二型特征,3龄之后雄性幼虫的第6腹节有一对肾型黑斑,雌性幼虫无此斑。雄蛹第9腹节有生殖孔和一条短纵裂缝,裂缝两侧有凹凸不平的半圆形瘤状突起;雌蛹腹部第8、9腹节分别有生殖孔和产卵孔,且两孔之间亦有一条纵裂缝。雌蝶前翅背面有一对上下排列的黑圆斑,其腹部末端外生殖器为圆筒型;雄蝶前翅背面一对黑斑相对较小,颜色较浅,尤其下斑为浅灰色,腹部末端具钳状外生殖器。本研究揭示了菜粉蝶幼虫、蛹及成虫不同虫态的雌雄二型差异,比较研究并提出了便于快速鉴别雌雄个体的典型特征和识别方法。     

Chemical defences in leaf beetles and their larvae: The ecological, evolutionary and taxonomic significance

The chemical defences of the Chrysomelinae are reviewed. Defensive glandular secretions have evolved independently in larvae and adults, and faster than the morphology of the glands. Both characters are used in a phylogenetic study of the Chrysomelini, disclosing suprageneric affinities. First, a close relationship between the Chrysomelina and Phratora is proposed. Secondly, Leptinotarsa and Gonioctena are probably more closely related to the Chrysolinina than to the Chrysomelina and Phratora. The qualitative and quantitative composition of larval and adult secretions sometimes differs between geographically isolated populations of the same species, which are therefore probably genetically distinct. The host plant shows an influence which explains discrepancies between the current classification and the chemical nature of the secretions. Some beetles sequester secondary plant metabolites or use them as precursors for their own defences. The original biosynthetic pathway has been lost in these species. Other factors which could affect the chemical diversity of the secretions are discussed: random events such as neutral mutations and genetic drift, conditioning or adaptation of predators to specific defensive mixtures, and the diversity of potential predators. The latter could help to explain the divergence in the chemical nature of the larval and adult secretions. The volatile irritants produced by the larvae are well suited to repel small arthropods, such as ants, whereas poisons associated with aposematic coloration in the adults could be directed against small vertebrates, such as birds.     

Ontogenetic change in effectiveness of chemical defence against different predators in Oxycarenus true bugs

Many prey species change their antipredator defence during ontogeny, which may be connected to different potential predators over the life cycle of the prey. To test this hypothesis, we compared reactions of two predator taxa – spiders and birds – to larvae and adults of two invasive true bug species, Oxycarenus hyalinipennis and Oxycarenus lavaterae (Heteroptera: Oxycarenidae) with life-stage-specific chemical defence mechanisms. The reactions to larvae and adults of both true bug species strikingly differed between the two predator taxa. The spiders were deterred by the defences of adult bugs, but the larval defences were ineffective against them. By contrast, birds attacked the larvae considerably less often than the adult bugs. The results indicate a predator-specific ontogenetic change in defence effectiveness of both Oxycarenus species. The change in defence is likely linked to the life-stage-specific composition of secretions in both species: whereas secretions of larvae are dominated by unsaturated aldehydes, secretions of adults are rich in terpenoids, which probably serve dual function of defensive chemicals and pheromones. Our results highlight the variation in defence between different life stages and the importance of testing responses of different types of predators.     

Identification of volicitin-related compounds from the regurgitant of lepidopteran caterpillars

Volicitin-related compounds were found in the oral secretion of the three noctuid species, Helicoverpa armigera, Mythimna separata and Spodoptera litura, and one sphingid species, Agrius convolvuli. Volicitin [N-(17-hydroxylinolenoyl)-L-glutamine], N-(17-hydroxylinoleoyl)-glutamine, N-linolenoylglutamine and N-linoleoylglutamine were identified in the secretion from the noctuid larvae. In secretions from the sphingid larvae, N-linolenoylglutamine and N-linoleoylglutamine were the main components. Furthermore, there were significant differences in the amounts of the N-acylamino acid conjugates in the secretions from the three noctuid species. These results suggest that the proportion of volicitin-related compounds in the regurgitant was species-specific.     

Guns and butter: a no cost defense against predation for Chrysomela confluens

Summary Chrysomela confluens produces a salicylaldehyde-based defensive secretion which is very effective against generalist predators and apparently produced at no cost. If no cost defenses are common, then one of the basic assumptions in the plant-herbivore literature, i.e. tradeoffs among defense, reproduction, and growth, must be reconsidered. We examined the effectiveness of this defense by exposing defended larvae and larvae whose secretion had been removed to a generalist predator. Larvae which had their secretions intact were attacked by only 7% of the ants which encountered them, and none of these larvae suffered serious damage. In contrast, those which had been milked of their secretions immediately prior to exposure were attacked in 48% of such encounters, and two-thirds of the larvae were killed. Larvae which had been milked 24 or 72 h before exposure, then allowed to regenerate their defenses, were attacked at rates indistinguishable from larvae that had not been milked. Thus regenerated defenses are just as effective as original defenses. We also tested the hypothesis that the cost of defense production and maintainence would be reflected in reductions in developmental rates and final adult mass and increases in leaf consumption rate. We found that larvae which were milked daily of their secretions manifested no measurable cost of recharging reservoirs. Milked larvae grew and fed at the same rates as their control sibs, and became adults of equal or slightly larger size. The liberation of glucose from salicin, a precursor present in leaves of salicaceous hosts, during the production of salicylaldehyde apparently provides enough of an energetic benefit to offset the cost of maintaining an effective defense. Consistent with this hypothesis, we did not find that milked larvae compensated for increased nutritional or salicin demands by increasing their feeding rates. Although this patterns is familiar to chemical ecologists it is generally unappreciated in the plant-herbivore literature. It is likely that many arthropod herbivore defensive systems come at little or no cost, given the intimacy of association between herbivores and their food plants. Sequestration of host plant defensive chemicals which eliminates the cost of synthesis is common in arthropods. The de novo synthesis of chemical defenses may be less costly than expected if it is integrated into other parts of an insects metabolism. Calculations based on the bond energies or molecular constitution of the compounds will not yield a complete perception of cost. Tests over the life of the herbivore, coupled with an understanding of the herbivore's metabolism, are necessary.