Detrimental and neutral effects of wild barley–Neotyphodium fungal endophyte associations on insect survival

Neotyphodium (Clavicipitaceae: Balansieae) fungal endophyte infection does not always confer temperate grass resistance to insect herbivores, although reports indicate that over 40 species are adversely affected by its infection. Laboratory and glasshouse experiments were conducted to improve our knowledge of the anti‐insect properties of Neotyphodium‐infected (E+) non‐commercial grasses, and E+ wild barley (Hordeum) specifically. Neotyphodium infection of four plant inventory (PI) lines of wild barley conferred resistance to Mayetiola destructor (Say) (Diptera: Cecidomyiidae), whereas none of the E+ wild barley accessions reduced the survival of Rhopalosiphum padi (L.) (Homoptera: Aphididae). Metopolophium dirhodum (Walker) (Homoptera: Aphididae) densities were significantly lower on the E+ clones of Hordeum brevisubulatum ssp. violaceum (Boissier and Hohenacker) (PI 440420), compared with densities on endophyte‐free (E–) plants of this species in population growth experiments. Neotyphodium infection of three Hordeum bogdanii (Wilensky) PI lines did not confer resistance to M. dirhodum; however, one of these E+ lines (PI 314696) was resistant to this aphid in a second population growth experiment. Our results provide additional evidence that the outcome of a grass–endophyte–insect interaction is influenced by the host grass species or genotype, Neotyphodium species or genotype, and the insect species involved. They also reinforce this phenomenon for non‐commercial grass–endophyte–insect interactions and underscore the potential role of endophytes in mediating wild barley–insect interactions and their potential to act as defensive mutualists.     

信息素介导的西方蜜蜂与狄斯瓦螨互作研究进展

狄斯瓦螨是一种严重危害西方蜜蜂的体外寄生螨,是世界养蜂业的最大威胁.人们广泛采用化学方法防治狄斯瓦螨,但易引起狄斯瓦螨的抗药性、蜜蜂中毒和蜂产品药物残留等问题.为此,人们尝试了多种蜂螨绿色防控技术.其中利用蜜蜂信息素防治狄斯瓦螨是一个重要的研究方向.研究表明,狄斯瓦螨能利用蜜蜂信息素识别处于不同发育阶段的寄主,并对特定时期的寄主表现出高度的选择性.近年来,多种能作用于狄斯瓦螨的蜜蜂信息素相继被报道.这些信息素包括成蜂、蛹和幼虫信息素.有的信息素对狄斯瓦螨表现出驱避作用,有的则表现出引诱作用.本文对这些信息素的种类、主要组成成分、对狄斯瓦螨的作用等进行了综述,旨在为今后的研究与应用提供参考.     

红车轴草中(6aR,11aR)-三叶豆紫檀苷对马铃薯腐烂茎线虫的麻醉活性研究

从红车轴草(Trifolium pratense L.)根乙醇提取物中分离得到了黄酮苷类化合物(6aR,11aR)-三叶豆紫檀苷,并运用核磁共振波谱学技术鉴定了其化学结构。采用实验室活体生物试验方法,研究了(6aR,11aR)-三叶豆紫檀苷对马铃薯腐烂茎线虫的麻醉活性。结果表明,该化合物对马铃薯腐烂茎线虫二龄幼虫有一定的麻醉活性,麻醉作用的强度与其浓度及作用时间密切相关。     

The influence of clutch size on survival and reproductive potential of Hessian fly

The clutch size laid by Hessian flies (Mayetiola destructor Say) (Diptera: Cecidomyiidae) was manipulated over a range of 1 to 30 eggs on single wheat plants (Triticum aestivum, L.). Pupae developing from egg clutches were removed from plants, counted and reared through to adult eclosion. Wing lengths of adult males and females were recorded and used as an indicator of body size. Survival to pupal and adult stages, as well as mean wing length of resulting males and females, decreased as clutch size increased. Wing length of females from clutches showed a positive linear relationship with potential fecundity. The benefits of small clutches for a female Hessian fly's offspring are discussed in the context of the foraging behaviour of the ovipositing female. We predict that under high probabilities of survival and availability of host plants, females will lay smaller-sized clutches per plant. However when the probability of survival is low and host plants scare, the female will respond by laying larger-sized clutches.     

Suppressing spread of alfalfa mosaic virus in grazed legume pasture swards using insecticides and admixture with grass, and effects of insecticides on numbers of aphids and three other pasture pests

Field experiments were sown with alfalfa mosaic virus (AMV)‐infected or healthy seed of burr medic (Medicago polymorpha) and grazed by sheep. Seed‐infected plants acted as primary sources for virus spread by naturally occurring aphids. Admixture with annual ryegrass (Lolium rigidum), a non‐host of AMV, and different insecticides were used in attempts to suppress virus spread. Sowing swards to provide the ratios 1 : 4 and 1 : 13 of medic:ryegrass plants diminished AMV spread in medic plants by 23% and 45% respectively. Applications of organophosphorus (demeton‐s‐methyl), carbamate (pirimicarb) and newer generation synthetic pyrethroid (alpha‐cypermethrin) insecticides, all significantly decreased final AMV incidence. Alpha‐cypermethrin was the most effective, suppressing AMV incidence by 87% (two sprays), 79% (one late spray) and 65% (one early spray). Two sprays of demeton‐s‐methyl decreased incidence by only 36%, while two and 2 weekly applications of pirimicarb diminished it by 29–65% and 35–70% respectively. AMV infection of medic seed harvested decreased by up to 76% in sprayed plots. Insecticide treatment did not prevent winged aphids from landing but numbers of wingless Acyrthosiphon kondoi colonising swards were suppressed by up to 92% by spraying with pirimicarb and up to 96% by alpha‐cypermethrin. A. kondoi were much slower to recover with alpha‐cypermethrin than with pirimicarb, the former still significantly diminishing its numbers 35 days after spraying. Alpha‐cypermethrin was also very effective at suppressing Halotydeus destructor and Penthaleus major but not Sminthurus viridis. Greater effectiveness of insecticides in controlling spread of AMV in pasture than has been found previously with non‐persistently aphid‐transmitted viruses in annual crops seems due to the key role played by wingless aphids as virus vectors.     

狄斯瓦螨和蜜蜂残翅病毒对蜜蜂健康的协同影响

世界各地大范围的西方蜜蜂Apis mellifera蜂群损失现象已引起科学界和公众的持续关注。狄斯瓦螨Varroa destructor和蜜蜂残翅病毒(Deformed wing virus,DWV)是西方蜜蜂群中最主要的两大生物威胁。尽管二者侵害蜜蜂均已有较长历史,但直至近十年来的研究才发现两者间的协同效应对蜂群健康的影响远超过其单独作用时所造成的危害:(1)蜜蜂残翅病毒可在狄斯瓦螨体内大量复制,继而进一步传播;(2)狄斯瓦螨的刺吸行为使病毒粒子跨越寄主的生理屏障而直接进入蜜蜂血淋巴;(3)狄斯瓦螨的寄生促使蜜蜂残翅病毒的高毒力毒株在蜂群中优势扩增和盛行;(4)狄斯瓦螨影响蜜蜂个体发育与免疫系统等生理机能,以致降低了蜂群对病毒的抵抗力;(5)蜜蜂残翅病毒对宿主造成的免疫抑制有利于狄斯瓦螨的寄生与繁殖。狄斯瓦螨、蜜蜂残翅病毒和西方蜜蜂间的关系已经成为昆虫外寄生物、病原体与寄主相互作用研究的一个典型模型。本文对近十年该领域的相关研究进行综述,以期为蜂群损失的原因调查以及昆虫寄生虫、病原微生物与寄主间关系的研究提供参考和借鉴。