植物提取物和药剂对瓜蚜控制作用的室内和田间效果评价

测试机油乳剂、0 .3%印楝素乳油和苍耳XanthiumsibiricumPetr .etWidd .提取物、白蝴蝶SyngoniumpodophyllumSchott提取物对瓜蚜AphisgossypiiGlover的控制效果。室内实验结果 ,几种药剂和植物提取物对一龄若蚜存活影响的大小次序是 :0 .3%印楝素乳油 (2 0 0 0× ) >机油乳剂 (4 0 0× ) >白蝴蝶提取物 (0 .0 4gDW·ml- 1) >苍耳提取物 (0 .0 4 gDW·ml- 1) ;机油乳剂与植物提取物的不同组合中 ,以机油乳剂单独使用对有翅成蚜忌避效果较好 ;田间试验结果 ,以四种药剂和植物提取物混配 ,对有翅成蚜的驱避作用和种群增长的控制效果最为理想 ,种群增长量只有对照的 2 5 .9%。     

植物提取物和药剂对蔬菜蚜虫种群的联合控制作用

研究白蝴蝶(Syngonium podophyllum)乙醇提取物、苍耳(Xanthium sibiricum)乙醇提取物、机油乳剂和0.3%印楝素乳油对桃蚜(Myzus persicae)和萝卜蚜(Lipaphis erysimi)的控制效果.室内四因子(1/2实施)二次正交回归旋转组合设计测试对有翅蚜的忌避作用,结果表明,对有翅桃蚜的主要忌避作用物为苍耳乙醇提取物,当苍耳提取物与白蝴蝶乙醇提取物混用,以及机油乳剂和印楝素混用时,对桃蚜有翅蚜的忌避效果提高;而对萝卜蚜有翅蚜的忌避作用主要受苍耳提取物和白蝴蝶提取物的影响.这些干扰作用均是非线性的.田间试验结果,单独使用白蝴蝶提取物对有翅成蚜有较强的驱避作用;对萝卜蚜自然种群的干扰控制作用以4种植物提取物和药剂混配效果最好,达95.7%;对桃蚜自然种群干扰控制效果最好的则是白蝴蝶提取物,控制效果达87%;同时,白蝴蝶提取物与印楝素乳油混配以及苍耳提取物与印楝素乳油混配,对两种蚜虫的控制效果均达80%以上.     

植物提取物和药剂对蔬菜蚜虫实验和自然种群的联合控制作用

研究白蝴蝶（Syngonium podophyllum ）乙醇提取物、苍耳（Xanthium sibiricum ）乙醇提取物、机油乳剂和0.3%印楝素乳油对桃蚜（Myzus persicae）和萝卜蚜（Lipaphis erysimi）的控制效果.室内四因子（1/2实施）二次正交回归旋转组合设计测试对有翅蚜的忌避作用,结果表明,对有翅桃蚜的主要忌避作用物为苍耳乙醇提取物,当苍耳提取物与白蝴蝶乙醇提取物混用,以及机油乳剂和印楝素混用时,对桃蚜有翅蚜的忌避效果提高;而对萝卜蚜有翅蚜的忌避作用主要受苍耳提取物和白蝴蝶提取物的影响.这些干扰作用均是非线性的.田间试验结果,单独使用白蝴蝶提取物对有翅成蚜有较强的驱避作用;对萝卜蚜自然种群的干扰控制作用以4种植物提取物和药剂混配效果最好,达95.7%;对桃蚜自然种群干扰控制效果最好的则是白蝴蝶提取物,控制效果达87%;同时,白蝴蝶提取物与印楝素乳油混配以及苍耳提取物与印楝素乳油混配,对两种蚜虫的控制效果均达80%以上.     

植物提取物和常用药剂对蚜茧蜂的存活、羽化和寄生的影响

天然源药剂由于具有与环境良好的相容性而日益受到重视。研究测试苍耳XanthiumsibiricumPetr.etWidd.和白蝴蝶SyngoniumpodophyllumSchott的提取物以及几种药剂在田间常用浓度下对蚜茧蜂的影响。结果表明,几种药剂对蚜茧蜂成虫有明显杀伤力,毒性的大小次序是绿福(4.5%高效顺反氯氰菊酯乳油)(稀释3000倍)>0.3%印楝素乳油(稀释2000倍)>0.6%阿维菌素(稀释2000倍),2h内可致半数以上的试虫死亡,2.5%鱼藤酮精(稀释800倍)次之,99.9%机油乳剂(稀释400倍)和两种植物提取物(0.04gDW·ml-1)对成蜂的存活无显著影响;处理僵蚜的结果表明,印楝素乳油和机油乳剂影响较明显,僵蚜羽化率分别比对照降低14.67%和18.67%,而两种植物提取物和其余药剂无显著影响;鱼藤精和印楝素乳油处理后,蚜茧蜂寄生蚜虫的效能明显降低,而机油乳剂和两种植物提取物对蚜茧蜂的寄生作用无明显影响。可以看出,目前使用的一些天然源药剂虽然对害虫有较好的控制作用,但在害虫天敌的某些生长期,其仍存在不利影响,因此应根据田间害虫和天敌的发生情况和不同发育期,有选择性地合理用药;同时,筛选对害虫特异性强,对害虫天敌不利影响小的作用物质,是当前乃至将来筛选和应用天然源物质的目标。     

多种植物提取物对桃蚜和萝卜蚜的拒食活性研究

采用改进的蜜露色斑法 ,测试 34种植物乙醇提取物 (0 0 1g干重·mL-1,0 0 1gDW·mL-1)和几种天然源药剂对桃蚜Myzuspersicae(Sulzer)和萝卜蚜Lipaphiserysimi(Kaltenbach)取食的影响。结果表明 ,白蝴蝶Syngonium podophyllumSchott.、苍耳XanthiumsibiricumPrtr.etWidd、白花非洲山毛豆Tephrosiavo gelliHook .的提取物对两种蚜虫的活性均较高 ,2 4h对桃蚜的拒食率分别达 0 6 82、0 6 2 9和 0 80 6 ,对萝卜蚜的拒食率分别为 0 4 0 5、0 370和 0 383,与对照之间差异极显著 ;油茶Camelliaoleifera和花椒Zanthoxylumschinifolium的提取物拒食作用亦较强 ,2 4h对桃蚜的拒食率分别为 0 5 5 2和 0 5 14 ,对萝卜蚜的拒食率分别为 0 5 70和 0 5 18。三种药剂 (0 3%印楝素乳油、鱼藤酮精、机油乳剂 )在所测试的浓度对两种蚜虫的拒食率均达 0 719以上 ,拒食效果显著。     

亚致死剂量杀虫剂对异色瓢虫繁殖力的影响

为协调害虫的化学防治与生物防治,测定了吡虫啉、鱼藤酮、氰戊菊酯、阿维菌素、抗蚜威和印楝素6种杀虫剂亚致死剂量对异色瓢虫成虫繁殖力的影响．结果表明,各处理异色瓢虫每雌每日产卵量为40～55粒,吡虫啉接触法和饲喂法预处理及鱼藤酮和印楝素饲喂预处理后,均显著低于对照．所有处理间每雌累积产卵量差异不显著．6种药剂2种方式处理异色瓢虫后,其所产卵的孵化率均低于对照,从卵发育至蛹期的累积存活率均显著降低．吡虫啉两种方式处理和氰戊菊酯接触处理,从卵至蛹期的总发育历期显著延长,鱼藤酮两种方式处理和氰戊菊酯、阿维菌素、抗蚜威、印楝素饲喂法处理的总发育历期明显比对照缩短,而鱼藤酮和阿维菌素接触处理的与对照差异不显著．药剂直接浸渍处理异色瓢虫卵后,各处理卵的孵化率均较对照降低．氰戊菊酯处理的l龄幼虫存活率也明显较对照低,2龄至蛹期的存活率也有所下降．鱼藤酮和氰戊菊酯处理的总发育历期显著延长．这些研究结果显示,低剂量的杀虫剂对异色瓢虫繁殖力的影响很复杂,药剂的类型、作用方式、毒性高低以及给药途径等均影响到试验结果．     

三种瓢虫集团内捕食卵对初龄幼虫生长发育的影响

种内和种间捕食卵现象常见于对食蚜瓢虫的研究报道中。源自亚洲、入侵北美和欧洲的异色瓢虫(Harmonia axyridis)由于卵含有生物碱而被认为可能是威胁本土瓢虫生存的原因,但该推测只有在明确异色瓢虫在原产地是否对本土瓢虫具有类似负面影响后,才能确证。通过饲喂实验,旨在明确异色瓢虫在原产地是否对本土七星瓢虫(Coccinella septempunctata)和龟纹瓢虫(Propylea japonica)具有食卵负面作用,为揭示异色瓢虫入侵机理提供依据。实验中用蚜虫(对照)和3种瓢虫卵对瓢虫初孵1龄幼虫进行饲喂处理,观察幼虫生长发育指标。对瓢虫初龄幼虫存活表现的分析结果表明:(1)龟纹瓢虫初孵幼虫取食同种卵和七星瓢虫卵后存活至2龄的比率均高于取食异色瓢虫卵的近7倍;(2)七星瓢虫幼虫取食异色瓢虫卵未存活到2龄,但取食其他瓢虫卵和蚜虫后85%以上个体存活至2龄;(3)异色瓢虫初孵幼虫取食同种和其他2种瓢虫卵后有90%以上存活至2龄。龟纹瓢虫和七星瓢虫1龄幼虫取食异种卵比同种卵后的发育历期显著延长,但异色瓢虫并未表现出差异。龟纹瓢虫和异色瓢虫1龄幼虫取食同种和异种卵后的体增重相同,但七星瓢虫取食龟纹瓢虫卵后体增重比取食同种卵减小。研究结果说明,异色瓢虫卵对七星瓢虫和龟纹瓢虫初孵幼虫的生存具有负面影响,反之不然。所以,取食异色瓢虫卵本身并非是导致北美和欧洲本土瓢虫数量减少的原因。     

10种植物乙醇提取物对金银花蚜虫的生物活性研究

采用微量滴定法测定了10种植物乙醇提取物对金银花蚜虫的生物活性.结果表明,10种植物乙醇提取物对金银花蚜虫均有一定的驱避活性和毒杀作用.在10 mg/mL的浓度下,臭椿、曼陀罗和桂花的提取物对金银花蚜虫的驱避作用较强,其在12 h的驱避率分别为78.74％、77.54％、75.11％;夏枯草提取物的驱避效果最弱,12 h的驱避率为58.53％.随着处理时间的延长,各植物提取物的驱避效果均呈下降趋势;印楝提取物的毒杀活性最强,72 h后的校正死亡率达68.30％;曼陀罗和苦瓜的作用次之,72 h后的校正死亡率分别为66.41％和63.70％;夏枯草提取物的作用最低,72 h后的校正死亡率仅为26.47％.进一步的毒力分析表明,印楝提取物对金银花蚜虫的毒力较强,24h的Lc.值为11.0836 mg,/mL.     

马缨丹乳油及其混剂对黄曲条跳甲的拒食活性

测试了自制的12.5%马缨丹乳油对黄曲条跳甲成虫拒食活性、持效性及其与7.5%鱼藤酮乳油、1.5%除虫菊水乳剂、0.3%印楝乳油混配的联合活性。该乳油1000倍液处理菜心叶片后48h对黄曲条跳甲成虫具有40%的拒食率,随着浓度升高,拒食活性增强;200、400和600倍液处理120h后对黄曲条跳甲成虫的累计拒食率分别达到76%、68%和43%。12.5%马缨丹乳油与7.5%鱼藤酮乳油以5∶5比例混配使用时,增效作用最为明显,拒食中浓度AFC50为5.25μg.ml-1,共毒系数CTC为213;与1.5%除虫菊水乳剂以1∶9比例混配使用时的增效作用次之,共毒系数CTC为149;与0.3%印楝乳油以9∶1、7∶3、5∶5、3∶7和1∶9比例混配使用时,其共毒系数CTC均100,表现为相互拮抗作用。结果表明:12.5%马缨丹乳油对黄曲条跳甲成虫具有强烈的拒食活性,其200倍液和400倍液拒食持效性好,且该乳油可与7.5%鱼藤酮乳油混配使用。     

植物乙醇提取物对蔬菜蚜虫和蚜茧蜂的影响

用药膜法测定8种常见植物的乙醇提取物对桃蚜(Myzus persicae)、瓜蚜(Aphis gossypii)和萝卜蚜(Lipaphis erysimi)的忌避和控制作用,以及时蚜虫重要天敌——菜蚜茧蜂(Aphidius gifuensis)和菜少脉蚜茧蜂(Diaeretiella rapae)存活的影响．结果表明,供试的8种植物乙醇提取物对3种蚜虫都有一定的忌避作用,其中效果最好的是白花非洲山毛豆(Tephrosia vogelli)和樟树(Cinnamomum camphora),对桃蚜、瓜蚜和萝卜蚜的忌避率分另达0、414、0．729、0．547和0、549、0．690、0．729;除黄素馨(Jasminum mesuyi)和草胡椒(Peperomia pellucida)外,其余6种植物乙醇提取物对桃蚜、瓜蚜、萝卜蚜都有较好的控制作用,其中山毛豆、樟树对蚜虫的控制效果最佳,鸡矢藤(Paederia scandena)和芒箕(Dicranopteris dichotoma)仅次于前2种植物,白兰花(Michelia alba)对瓜蚜和萝卜蚜也有较好的控制作用;鱼藤精稀释1000倍对萝卜蚜效果很好,对桃蚜控制作用较差．8种提取物中,山毛豆对蚜茧蜂有较强的毒性,4h死亡率达63．33％,仅次于鱼藤酮精稀释100倍(4h的死亡率达80％),而樟树、羊蹄甲(Bauhinia variegata)、黄素馨、白兰花和草胡椒的乙醇提取物与对照没有差异,对蚜茧蜂安全、无毒．     

EFFECTIVENESS OF BETA-CYPERMETHRIN ON GLUTAMIC- PYRUVIC TRANSAMINASE (GPT) AND GLUTAMIC-OXALOACETIC TRANSAMINASE (GOT) ACTIVITIES FROM CRUCIAN CARP (CARASSIUS AURATUS) SERUM

Synthetic pyrethroids are considered as possible sub-stitutesfor some organophosphate carbamates or organochlo-rine insecticides,and have been used extensivelyfor morethantwo decades[1].Pyrethroids are preferred over otherinsecticides because of their easy degradation into non-toxic or less toxic metabolites under natural conditions.Consequently,there has recently beena dramatic increaseinthe use of pyrethroid pesticides to control insect pests.However,synthetic pyrethroids were also reported …     

植物-昆虫间的化学通讯及其行为控制

在植物与昆虫间的化学通讯中植物气味物质起着决定性的作用,它调控着昆虫的多种行为,诸如引诱昆虫趋向寄主植物,刺激昆虫取食,引导昆虫选择产卵场所,进行传粉和防御昆虫等。有些植物则当受到食植性昆虫危害时会释出一些引诱害虫天敌的化学信号。这些化学信号是一些挥发性萜类混合物,天敌昆虫就以此来区分受害和未受害植株。尽管目前在害虫综合治理中,昆虫信息素的应用越来越显得比天然植物气味源更受重视,但是必须指出的是,昆虫信息化合物首次成功地使用于植物保护的却是天然植物气味源。在利用植物气味源作害虫测报和防治中,近年来一种简单价廉的粘胶诱捕器己成为多种害虫的标准测报工具。在害虫综合治理中利用植物气味源的技术显然是具有不可估量的潜力。文中提出了利用基因工程技术来改造植物,使植物能释放特定的驱避剂或其它控制昆虫行为的特殊气味物质的新概念。     

Glucosinolates in oilseed rape: secondary metabolites that influence interactions with herbivores and their natural enemies

Glucosinolates are sulphur‐containing secondary metabolites characteristic of Brassicaceous plants. Glucosinolate breakdown products, which include isothiocyanates, are released following tissue damage when hydrolytic enzymes act on them. The isothiocyanates have toxic effects on generalist herbivores when they attempt to feed on oilseed rape, Brassica napus, and also function as repellents. However, specialist herbivores such as Brevicoryne brassicae aphids, flea beetles, Psylliodes chrysocephala and the Lepidopteran pest, Pieris rapae, are adapted to the presence of glucosinolates and thrive on plants containing them. They may do this by avoiding tissue damage to prevent the formation of isothiocyanates or by metabolising or tolerating glucosinolates. For many specialist herbivores, the isothiocyanates function as attractants and glucosinolates can even be sequestered for defence against predatory insects. Thus, these herbivores have evolved resistance to host‐plant secondary metabolites and this type of evolutionary history may have given some insects an enhanced ability to adapt to xenobiotics. In an agricultural context, this may make pests better able to evolve resistance to artificially applied pesticides. The effect of increased glucosinolate content in making oilseed rape cultivars more susceptible to specialist pests was highlighted in a seminal article in the Annals of Applied Biology in 1995. This review of the literature considers developments in this area since then.     

Potentiality of actinobacteria to combat against biotic and abiotic stresses in tea [Camellia sinensis (L) O. Kuntze]

Tea (Camellia sinensis (L) O. Kuntze) is a long-duration monoculture crop prone to several biotic (fungal diseases and insect pest) and abiotic (nutrient deficiency, drought and salinity) stress that eventually result in extensive annual crop loss. The specific climatic conditions and the perennial nature of the tea crop favour growth limiting abiotic factors, numerous plant pathogenic fungi (PPF) and insect pests. The review focuses on the susceptibility of tea crops to PPF/pests, drought, salinity and nutrient constraints and the potential role of beneficial actinobacteria in promoting tea crop health. The review also focuses on some of the major PPF associated with tea, such as Exobasidium vexans, Pestalotiopsis theae, Colletotrichum acutatum, and pests (Helopeltis theivora). The phylum actinobacteria own a remarkable place in agriculture due to the biosynthesis of bioactive metabolites that assist plant growth by direct nutrient assimilation, phytohormone production, and by indirect aid in plant defence against PPF and pests. The chemical diversity and bioactive significance of actinobacterial metabolites (antibiotics, siderophore, volatile organic compounds, phytohormones) are valuable in the agro-economy. This review explores the recent history of investigations in the role of actinobacteria and its secondary metabolites as a biocontrol agent and proposes a commercial application in tea cultivation.     

Recent non‐native invertebrate plant pest establishments in Great Britain: origins,pathways, and trends

1 An appraisal of non‐native invertebrate plant pest establishments in Great Britain, between 1970 and 2004, was carried out to improve our understanding of current invasion processes by non‐native plant pests, and to assist national strategies in managing the risks they pose. 2 A total of 164 establishments, comprising 50 natural colonists and 114 human‐assisted introductions, were recorded across 13 major taxonomic groups. 3 The mean rate of establishment was 22.1 species per 5‐year period: 19.1 and 3.0 species outside and inside protected cultivation, respectively. Despite the continuing rapid growth in international trade and a general perception that rates of pest invasions are accelerating, no significant temporal trends in the rate of establishments in Great Britain were detected, either for natural colonists or human‐assisted introductions, or for pests of plants grown indoors or outside. 4 The plant trade, particularly in ornamental plants, accounted for nearly 90% of human‐assisted introductions; apiculture, biological control, timber imports, transport stowaways and intentional releases each contributed less than 5%. Only eight (4.9%) of the establishments could be considered as having no direct potential economic impact because all other species have been recorded as feeding on cultivated plants. A greater proportion of establishments by both natural colonists and human‐assisted introductions occurred on non‐native, woody plants. 5 The present study confirms previous work in other European countries that highlight the predominant role of the ornamental plant trade in introducing new plant pests to the European continent, mainly from Asia and North America.     

Bacillus-based bionematicides: development,modes of action and commercialisation

Agricultural crops are severely damaged by root-knot nematodes causing extensive financial losses globally. Historically, agrochemicals have been the preferred method to combat these pests; however, threats to humans and the environment posed by these agrochemicals led to the need for developing new biocontrol agents. Importantly, the latter should adhere to biosafety regulations while being highly effective. Root-knot nematodes live in soil and thus the use of rhizobacteria such as Bacillus for biocontrol development have shown potential. Although various Bacillus species have been tested in this capacity, little is known about their secondary metabolites and the mechanisms of action responsible for their nematicidal activity. If these secondary metabolites can be qualitatively and quantitatively characterised, metabolic features could be synthetically engineered and used to combat root-knot nematodes. Although there is great potential for bionematicides, the commercialisation and development of such products can be difficult. This review summarises the importance of Bacillus species as natural antagonists of root-knot nematodes through the production of secondary metabolites. It provides an overview of the significance of root-knot nematodes in agriculture and the advances of chemical nematicides in recent years. The potential of Bacillus species as biocontrol agents, the known mechanisms of action responsible for the nematicidal activity demonstrated by Bacillus species, non-target effects of biocontrol agents and the commercialisation of Bacillus-based bionematicides are discussed.     

芥子油苷在十字花科植物与昆虫相互关系中的作用

芥子油苷(glucosinolate, GS)是十字花科植物重要的次生代谢物,对调节十字花科植物与昆虫间的关系起着重要作用.由于GS及其代谢产物具有一定的毒性,因此它是十字花科植物抵御广食性植食昆虫攻击的有力手段.而寡食十字花科植物的昆虫由于具备多种GS应对机制,因此可通过GS这一十字花科植物特有的次生代谢物进行寄主选择.被植食性昆虫摄入的GS不仅可以影响天敌的生长发育,而且还对天敌有一定的驱避作用.而虫害后十字花科植物释放的GS代谢产物又可作为天敌的寄主选择信息.本文结合该领域的一些最新研究成果,从GS对植食性昆虫的毒性、寡食性害虫的寄主选择、植食性昆虫对GS的适应机制、虫害对GS-黒芥子酶系统的诱导,以及GS对天敌的影响等方面对GS如何影响植物与昆虫间的相互关系进行了综述,并就今后该领域的研究方向、研究方法提出建议.     

害虫天敌的植物支持系统

保护天敌,使天敌长期有效地控制害虫是保护性生物防治的核心内容。其中,植物在维持和促进天敌控制害虫中的重要性和作用越来越受到关注。本文概述了各种支持天敌发挥效能的植物类群,论述了蜜源植物、储蓄植物、栖境植物、诱集植物、指示植物、护卫植物等在支持天敌生存和繁殖方面的生物功能,评述了研究和应用这些植物时需注意的问题,提出了科学利用这些植物以维持和增强农业生态系统中天敌发挥控害作用的植物支持系统,并指出了由于对这些植物类别的界定和定义模糊所带来的不便,给出了相应的建议。     

Habitat structure and the evolution of diffusible siderophores in bacteria

Bacteria typically rely on secreted metabolites, potentially shareable at the community level, to scavenge resources from the environment. The evolution of diffusible, shareable metabolites is, however, difficult to explain because molecules can get lost, or be exploited by cheating mutants. A key question is whether natural selection can act on molecule structure to control loss and shareability. We tested this possibility by collating information on diffusivity properties of 189 secreted iron‐scavenging siderophores and the natural habitats occupied by the siderophore‐producing species. In line with evolutionary theory, we found that highly diffusible siderophores have preferentially evolved in species living in structured habitats, such as soil and hosts, because structuring can keep producers and their shareable goods together. Poorly diffusible siderophores, meanwhile, have preferentially evolved in species living in unstructured habitats, such as seawater, indicating that these metabolites are less shareable and more likely provide direct benefits to the producers.