昆虫病原线虫防治烟草小地老虎技术优化研究

小地老虎Agrotis ipsilon是烟草Nicotiana tabacum移栽期主要的切根害虫,严重危害烟草生产。为研判烟草生产中符合双减（减肥、减药）要求的生物和生态防控技术,集成适合推广的虫害综合治理模式,本研究在云南玉溪华宁县以昆虫病原线虫（EPN）Steinernema carpocapsae All粉剂和化学药剂敌杀死（溴氰菊酯）处理,配合2种幼虫食诱方法（传统引诱剂、人工引诱剂）以及2种增效助剂（激健1、2）组合,调查移栽后烟草幼苗受小地老虎危害死亡率,评价生物药剂、食诱剂和助剂对烟草幼苗的保护效果。结果表明,无论是否存在食诱剂,移栽4 d各施药处理均能显著降低烟草幼苗死亡率,随时间的推移,所有处理的烟草幼苗死亡率均显著上升;无食诱剂情况下,EPN+激健1和敌杀死于移栽7 d仍具显著保苗效果;传统的糖醋酒液食诱法本身具备一定保苗效果,配合施药,初期效果最好,4 d时,烟草幼苗危害率最低达0.83%±0.008%（传统食诱剂+昆虫病原线虫）;人工食诱剂持效性最好,移栽10 d时配合EPN、EPN+激健2和敌杀死仍具明显保苗效果。施用化学药剂时,食诱剂本身对保苗效果无显著贡献;使用EPN时,传统食诱法较空白具有显著保苗效果,但与人工食诱法间差异不显著。移栽4 d时,EPN+激健1较单独施放EPN具显著保苗效果,之后调查中添加助剂小区与EPN小区无显著差异。综上所述,EPN粉剂配合人工食诱剂和激健助剂,可长期较好地抑制小地老虎对烟草幼苗危害,为集成烟草全程绿色生态治理模式提供了有效参考。     

昆虫病原线虫对黄地老虎致病力的研究

为了探索应用昆虫病原线虫防治黄地老虎Agrotis segetum的可行性,室内生测比较了9个昆虫病原线虫品系对黄地老虎4龄幼虫的致病力。生测结果表明,9个不同昆虫病原线虫品系对黄地老虎4龄幼虫的致病力差别很大,其中格氏线虫Steinernema glaseri ib(Sgib)是对黄地老虎幼虫致病力最强的昆虫病原线虫品系,侵染24、36和72 h黄地老虎幼虫的校正死亡率均高于其他线虫品系。此外,还测定了不同温度、土壤湿度以及线虫剂量对格氏线虫Sgib致病力的影响,结果表明,在21℃-27℃、20%土壤湿度以及侵染期线虫与黄地老虎幼虫数量比不少于10∶1的条件下,格氏线虫Sgib对黄地老虎幼虫的致病效果最好。田间小区实验表明,格氏线虫Sgib对黄地老虎幼虫的防效达到96.67%。     

昆虫病原线虫防治地下害虫的研究进展

地下害虫给农业生产造成重大损失。新型生物杀虫剂昆虫病原线虫防治地下害虫效果明显。本文综述了应用昆虫病原线虫防治金龟子、小地老虎、迟眼蕈蚊和黄曲条跳甲的幼虫等地下害虫的研究进展,为地下害虫的有效防治提供思路。     

我国关于昆虫病原线虫分类的研究进展

我国关于昆虫病原线虫分类的研究进展图立红（首都师范大学生物学系１０００３７）昆虫病原线虫是目前国内外发展较快的一类生物杀虫剂,随着昆虫病原线虫学科的发展,对其资源的调查、开发和利用越来越受到重视。昆虫病原线虫,寄主范围广,寄生杀虫效果好,致死速度快,...     

不同昆虫寄主对昆虫病原线虫共生菌的敏感性比较

用菜青虫、棉铃虫、甜菜夜蛾、玉米螟、粘虫、黄粉虫等 6种昆虫对 1 0株昆虫病原线虫共生菌进行了敏感性测定。结果表明 :供试菌株对 6种昆虫都有胃毒活性 ,不同菌株对同一种昆虫的毒力差别较大 ,同一菌株对不同昆虫差别也很大。 1 0株菌在 1 2 0h对菜青虫的校正死亡率和体重抑制率均最高 ,显然是最敏感的寄主。在 1 0株共生菌中 ,XenorhabdusnematophilaHB3 1 0 5 9菌株的胃毒活性最高。     

昆虫病原线虫感染寄主行为研究进展

昆虫病原线虫斯氏属Steinernema和异小杆属Heterorhabditids线虫是新型的生物杀虫剂。其感染期幼虫是惟一能够侵染寄主昆虫的虫态。这类线虫感染寄主的行为分为寻找寄主、识别寄主和侵染寄主。文章综述昆虫病原线虫感染寄主昆虫的行为以及在感染寄主过程中的影响因素。     

昆虫病原线虫共生细菌的分子生物学鉴定

对来自全国各地的23个未鉴定的共生菌菌株和本室保存的5个菌株的部分16S rDNA序列进行PCR扩增和测序,与GenBank中已知种的共生菌及4个其它肠杆菌的同源序列比较,利用DNAstar软件绘制系统树,初步确定了这28个共生菌的分类地位。其中品系0396Y与Xenorhabdus bovineii的相似值为100%,可能是该种的一个品系;品系0312-4与X.beddingii的相似值为100%,可能是该种的一个品系。     

昆虫病原线虫感染期幼虫恢复发育的研究进展

昆虫病原线虫的感染期幼虫（infective juvenile,IJ）是其一生中唯一具有侵染能力和可自由生活于寄主体外的虫态,一般滞育不取食,体外包裹着已经蜕去的第2龄幼虫的表皮,对外界不良环境的耐受能力强,又称为耐受态幼虫(dauer juvenile,DJ),类似于秀丽隐杆线虫Caenorhabditis elegans的耐受态幼虫。在食物信息的诱导下,感染期幼虫脱鞘,释放出共生细菌,恢复取食并继续发育,这个过程称为感染期幼虫的恢复（IJ recovery）。这个过程是发生在寄生性线虫入侵寄主时的发育过程,对于成功寄生是必要的,在线虫的产业化培养中发挥着重要作用,感染期线虫的恢复率及其发育的同步性直接影响了线虫的产量。本文概述了感染期线虫的恢复发育过程,并对诱导感染期线虫恢复发育的食物信号（food signals）、恢复的影响因素及其检测手段进行了综述,同时讨论了未来的研究方向。     

昆虫病原线虫的共生细菌

昆虫病原线虫与其共生细菌二者互惠共生 :共生细菌需要昆虫病原线虫作为载体以寄生寄主昆虫并做为自己的营养来源 ,而昆虫病原线则需要依靠共生细菌来杀死昆虫。综述了共生细菌的病原作用、抗菌作用与杀虫作用 ,评述了共生细菌的基因工程进展 ,讨论了昆虫共生细菌在昆虫病原线虫致病性的作用。     

Selection of fungi for the control of Musca domestica in aviaries

Musca domestica is a major problem in poultry production where management has relied mostly on pesticides, which eventually have led to the development of widespread resistance in insect populations and environmental contamination. In this study, we explored the use of entomopathogenic fungi for the control of houseflies in Brazil. A total of 10 isolates of different fungal pathogens were tested on the larval stages of M. domestica, which were originally derived from a commercial aviary. Among the test fungi, Metarhizium anisopliae (sensu stricto) CG46 and CG30 were the most virulent isolates, causing up to 60% mortality at day 10, but only CG46 was selected for a field trial as it attained higher sporulation on larval cadavers. A commercial product based on the M. anisopliae isolate ESALQ-1037 (Metarril®) was also field-tested using standard treatment procedures. After spraying both fungi in the aviary manure, there was a significant reduction (twofold lower) in adult density of M. domestica captured per trap compared to the control shed. Therefore, our results indicate that M. anisopliae is a promising biological control agent for M. domestica larvae, but new strategies for fungal application and appropriate formulation need to be developed to improve its effectiveness in poultry environments.     

The entomopathogenic nematode Steinernema kraussei and Metarhizium anisopliae work synergistically in controlling overwintering larvae of the black vine weevil,Otiorhynchus sulcatus,in strawberry growbags

Previously, the combination of reduced rate of entomopathogenic nematodes (EPN) and fungus caused additive or synergistic mortality to third-instar black vine weevil (BVW), Otiorhynchus sulcatus. In this study, we examined this interaction in unheated glasshouses during winter and compared a combination of commercial formulation of a cold-tolerant EPN, S. kraussei (Nemasys L?) and fungus Metarhizium anisopliae strain V275 against overwintering third-instar BVW. The combination of M. anisopliae with S. kraussei at a rate of 1×10¹⁰ conidia+250,000 nematodes/growbag resulted in additive or synergistic effects, providing 100% control of overwintering larvae.     

House fly (Musca domestica) (Diptera: Muscidae) mortality after exposure to commercial fungal formulations in a sugar bait†

House flies are pests of medical and veterinary importance. They are known to be susceptible to fungal conidia presented in sugar baits. The purpose of this study was to evaluate the potential for commercial formulations of entomopathogenic fungi to be used as bait for fly control. Differences in sporulation by product were found. Current formulations may influence fly feeding on baits, but because formulations may protect conidia. Additional research into more attractive formulations is warranted.     

An improved cage system for the bioassay of Metarhizium anisopliae on Thrips tabaci (Thysanoptera: Thripidae)

The ability of thrips and other minute insects to escape from conventional assay cups led to development of a successful assay chamber. In the present study, we evaluated three bioassay systems for thrips; Tashiro cage, microtube assay and leaf sandwich assay and introduced an improved thrips entomopathogenic bioassay system (TEBS). Our objective was to investigate the effect of Metarhizium anisopliae on Thrips tabaci using an easy-to-use and inexpensive holding chamber that would produce bioassay results with acceptable levels of accuracy and precision. In our assays, we found that escape of second-instar larvae from TEBS was significantly less than those of other methods which we tested. Our results indicated that our assay system was more suitable than the other conventional assays for the bioassay of entomopathogenic fungi on T. tabaci.     

Post-proline Dipeptidyl Amino-peptidase from Flavobacterium

Nitrogenase catalyzes not only the reduction of N₂ to NH₃ but also the reduction of C₂H₂ to C₂H₄ and H⁺ ion to H₂ gas, etc. The detailed mechanism of the nitrogenase reaction is not clear. We have prepared monoclonal antibodies against Component I nitrogenase of A. vinelandii and examined the effects of antibodies on the nitrogenase reactions. A monoclonal antibody designated MA-1 inhibited C₂H₂ reduction activity strongly but did not inhibit H₂ evolution activity. MA-2, on the contrary, inhibited only H₂ evolution activity. MA-8 inhibited both C₂H₂ reduction and H₂ evolution activity to the same extent.     

航天诱变对昆虫病原真菌的生物学效应

8个昆虫病原真菌菌株经过航天搭载后,有5个菌株的孢子在航天搭载后全部死亡,菌株M2029和MR8的存活率仅约10-7,菌株M189的存活率可达到20%以上。分离得到航天诱变的单菌落菌株,检测表明航天诱变使昆虫病原真菌的形态、生长速度、产孢量、致病力等多项生物学特性发生了不同程度的变异,变异率高,变异趋向有正负双向性。测定结果表明航天诱变菌株HM189-68s、HM189-32c、HM189-127和HM189-17的生长特性和致病力优于原始菌株。航天诱变为选育生物防治优良菌株提供了新途径。