危害松树的小蠹虫与其伴生菌的相互关系

危害健康松属植物的小蠹虫经常与一些特殊的真菌相联系。在小蠹虫危害松属植物的过程中,这些真菌被小蠹虫的一些特殊结构或者体表携带到松属植物上。小蠹虫与其伴生菌的联系表明小蠹虫和其伴生菌之间是一种互惠互利的关系。伴生菌随小蠹虫扩散而被带到新的寄主树木。而伴生菌或作为小蠹虫的食物来源,但更重要的是,有些伴生菌能够通过其菌丝渗透寄主组织,释放毒素,致死寄主树木,以帮助小蠹虫降低寄主抗性。许多研究致力于探索小蠹虫/伴生菌联合体与寄主树木之间关系的特征和确定小蠹虫与其伴生菌相互关系在生态学上的意义。然而,不同小蠹虫和其伴生菌所组成的共生体系,不同小蠹虫的种群数量,和不同环境条件下同种小蠹虫与其伴生菌相互作用方式的差异使我们在研究小蠹虫和其伴生菌这个共生体系时,对它们各自在成功聚集寄主树木过程中所发挥的重要作用的概括变得非常困难。     

危害松树的小蠹虫与其伴生茵的相互关系

危害健康松属植物的小蠹虫经常与一些特殊的真菌相联系.在小蠹虫危害松属植物的过程中,这些真菌被小蠹虫的一些特殊结构或者体表携带到松属植物上.小蠹虫与其伴生菌的联系表明小蠹虫和其伴生菌之间是一种互惠互利的关系.伴生菌随小蠹虫扩散而被带到新的寄主树木.而伴生菌或作为小蠹虫的食物来源,但更重要的是,有些伴生菌能够通过其菌丝渗透寄主组织,释放毒素,致死寄主树木,以帮助小蠹虫降低寄主抗性.许多研究致力于探索小蠹虫/伴生菌联合体与寄主树木之间关系的特征和确定小蠹虫与其伴生菌相互关系在生态学上的意义.然而,不同小蠹虫和其伴生菌所组成的共生体系,不同小蠹虫的种群数量,和不同环境条件下同种小蠹虫与其伴生菌相互作用方式的差异使我们在研究小蠹虫和其伴生菌这个共生体系时,对它们各自在成功聚集寄主树木过程中所发挥的重要作用的概括变得非常困难.     

基于通用引物的多重PCR对小圆胸小蠹的分子鉴定

本研究利用通用引物的多重PCR方法开展小圆胸小蠹Euwallacea fornicatus的分子鉴定,以期探究多重PCR在昆虫分子鉴定中的可行性,并为开展小圆胸小蠹的有效、准确鉴定及综合防治等提供重要依据。使用多重PCR方法扩增了小圆胸小蠹的COI、16S和28S的3个分子片段,并将获得的目的序列在GenBank中进行BLAST比对;利用MEGA 7计算方胸小蠹属不同种间的遗传距离,并基于邻接法和最大似然法分别构建单基因系统发育树。结果表明：多重PCR可以用于小圆胸小蠹分子序列的获取;基于COI和16S的遗传距离分析表明了小圆胸小蠹的种内遗传距离均小于2%;基于单个基因构建的系统发育树均显示本研究扩增的小圆胸小蠹COI和16S序列与GenBank中获取的小圆胸小蠹COI和16S序列聚为一支。多重PCR可以应用于小圆胸小蠹的分子鉴定,该方法不仅可以提高物种鉴定的准确率,还可以减少PCR过程中的时间和DNA消耗。     

落叶松八齿小蠹与长喙壳真菌间的种特异性伴生关系

小蠹虫与长喙壳类真菌(Ophiostomatoid fungi)在自然界中形成稳定的伴生关系,是森林生态系统内一种普遍的生态学现象。已有研究表明欧亚大陆的齿小蠹属(Ips)昆虫与多种长喙壳类真菌形成广泛的伴生关系,其中部分真菌是重要的针叶树病原菌。随着借助于DNA信息特征的系统发育分析,揭示出形态特征和亲缘关系十分接近的3种齿小蠹属昆虫,云杉八齿小蠹(I.typographus),欧洲落叶松八齿小蠹(I.cembrae)和亚洲落叶松八齿小蠹(I.subelongatus)确定为不同种之后,相应地与之稳定伴生的长喙壳类真菌Ceratocystis polonica也由过去一个种揭示为3个种的复合体,各自与3种小蠹虫稳定伴生,形成密切的种特异性伴生关系。小蠹虫与真菌的种特异性伴生被认为是处于同一森林生态系统内的生物协同进化的结果。通过对我国东北地区落叶松八齿小蠹虫体、坑道标本上伴生真菌菌株的采集、分离和生理学、形态学特征观察,以及基于ITS、β-tubulin、MAT-2 HMG box多位点DNA序列的系统发育分析,首次确定了长喙壳真菌Ceratocystis fujiensis在我国东北地区异域分布的3种落叶松林内普遍存在,与落叶松八齿小蠹形成稳定的伴生关系。作为亚洲落叶松八齿小蠹伴生的主要真菌,也是伴生菌区系中的先锋种和致病力最强的病原菌,C.fujiensis在我国落叶松人工林的广泛分布值得高度重视,将为制定防治病虫复合危害的有效策略和措施提供科学基础。研究结果进一步支持了齿小蠹属昆虫与长喙壳真菌间的种特异性伴生假说。同时,多基因序列特征表明落叶松八齿小蠹与C.fujiensis在亚洲范围内的不同地理种群存在着显著的遗传多样性,预示特异性伴生在不同种群间发生的可能,可以为种特异性伴生假说和小蠹虫-真菌间共生关系的研究提供良好的模式材料。     

云南横坑切梢小蠹生物学研究

横坑切梢小蠹Tomicus minor (Hartig)是云南松Pinus yunnanensis Franchet的主要次期性害虫之一。1980年以来,该虫与纵坑切梢小蠹T. piniperda（L.）一起在中国西南部大量发生,导致数十万公顷云南松林受害。本文报道了横坑切梢小蠹在云南地区的生活史、生长、发育、繁殖等生物学特征。横坑切梢小蠹年生活史为一代,前后两代在冬春季有部分重叠。成虫羽化于4月下旬开始陆续,5 月下旬结束。成虫羽化后即飞到树冠上蛀食枝梢,直到11月发育成熟,开始繁殖。在此期间,每头成虫可以蛀食4～6个枝梢。横坑切梢小蠹在云南没有越冬习性。繁殖期从11月至次年3月。成虫主要在已经受到纵坑切梢小蠹危害的树木的中、下部产卵。繁殖期较纵坑切梢小蠹约迟1周。由于横坑切梢小蠹从枝梢到树干对云南松持续危害,对树木的危害性较在其它地区更为严重。横坑切梢小蠹利用受到纵坑切梢小蠹蛀害的树木繁殖产卵,加强了蠹虫对云南松树的危害,加速了受害树木的死亡进程。横坑切梢小蠹的上述生物生态学特征是该虫对云南松造成严重危害的重要原因。从横坑切梢小蠹虫体和虫坑中检测到伴生真菌云南半帚孢Leptographium yunnanensis。横坑切梢小蠹对该菌的带菌率在蛀梢期为11.5%;在蛀干中期约为10%～26%。     

瓜类保护地土壤镰孢菌种群及UP-PCR多样性分析

对采自辽宁省部分地区瓜类保护地的36份土壤样品进行镰孢菌（Fusarium）分离培养,共获得112株镰孢菌,采用传统形态学分类和现代分子生物学方法,确定属于11个种.对其中25株镰孢菌及3株对照镰孢菌进行了通用引物PCR（UP-PCR）多样性分析.结果表明：6条引物扩增出73条带,其中多态性条带66条,占总条带数的90.4%.对供试菌株进行UP-PCR聚类图谱分析,当相似系数为0.736时,可将其划分为8个类群,其中14株尖孢镰孢菌聚为一类.UP-PCR分析体现了镰孢菌菌株间的亲缘关系及差异性,可以作为镰孢菌分类的辅助方法.     

香蕉上的镰孢菌种类及其系统发育关系(英文)

镰孢菌属真菌是香蕉上的重要病原菌,主要引起香蕉枯萎病以及香蕉冠腐病,在我国已明确引起香蕉枯萎病的病原为尖孢镰孢古巴专化型 Fusarium oxysporum f. sp. cubense(FOC)1号和4号生理小种,但是引起香蕉冠腐病的镰孢菌种类还未明确。为了解香蕉上镰孢菌在种间及种内水平上的多样性,2008–2011 年间作者从华南地区不同的水果市场及香蕉果园采集香蕉样品90份,分离得到143株镰孢菌。通过形态学观察及基于 EF-1α基因的系统进化分析鉴定出10种镰孢菌,即F. oxysporum、F. solani、F. camptoceras、F. pallidoroseum、F. stiloides、F. chlamydosporum、F.verticillioides、F. proliferatum、F. concentricum、F. sacchari,以及藤仓赤霉复合种(Gibberella fujikuroi species complex,GFC)中 3 个未定名的类群。轮纹镰孢 F. concentricum 及甘蔗镰孢 F.sacchari 是香蕉果实中最常见种,前菌为我国首次报道,后菌是首次报道与香蕉有关。对从香蕉上分离的藤仓赤霉复合种(GFC)及尖孢镰孢复合种(FOSC)的EF-1α序列进行了系统发育分析,其GFC中的27个菌株组成的单系群可分为7个不同的亚群,分别为 F.verticillioides、F. proliferatum、F. concentricum、F. sacchari 以及3个没有描述过的菌系 Fusarium sp. 1、Fusarium sp.2和 Fusarium sp.3;FOSC中的50个菌株形成2大分枝共12个谱系,分离自我国华南地区的21株尖孢镰孢形成7个谱系,其中 13株已知的香蕉枯萎病病原菌分布在3个谱系中,我国大陆的香蕉枯萎病病原菌菌株与来源于台湾地区及东南亚的菌株亲缘关系较近,FOC1号生理小种的遗传分化大于4号生理小种,FOC 1号生理小种与分离自香蕉果实上的尖孢镰孢菌的亲缘关系比与FOC 4号生理小种的亲缘关系更近。研究结果表明,我国香蕉上存在着丰富的镰孢菌种类,而且种内遗传多样性丰富。     

基于mtDNA CO I基因的十种长小蠹分子系统进化研究 (鞘翅目:长小蠹科)

全世界记录的长小蠹(鞘翅目:长小蠹科)有1 500余种,其分类地位一直存在争议.本研究通过分子基因信息探讨长小蠹科昆虫的分子系统进化关系,测定了中对长小蠹Euplatypus parallelus(Fabricius)、希氏长小蠹E. hintzi Schaufuss、散对长小蠹E. solutus Schedl、杯长小蠹Dinoplatypus cupulatus Chapuis、小杯长小蠹D.cupulatulus Schedl、芦苇黄截尾长小蠹D.calamus Blandford、五棘长小蠹Diapus quinquespinatus Chapuis、锥长小蠹Treptoplatypus solidus Walk、栎长小蠹Platypus quercivorus Murayama和东亚长小蠹P.lewosi Blandford等长小蠹科5属10种mtDNA CO I基因部分序列(549 bp);采用MEGA3.1分析了序列组成及遗传距离,应用PAUP4.0分别构建了长小蠹NJ,MP和ML等3种分子系统树,同时结合长小蠹的形态分类,探讨10种长小蠹及其所在属的系统进化.结果表明:长小蠹科昆虫在碱基使用频率上有很大的偏向性;长小蠹科与外群小蠹科松瘤小蠹Orthotomicus erosus Wollaston之间的遗传距离(0.288～0.338)远大于科内种间距离(0～0.226);Diapus属分化最早,Euplatypus属独成一支,Treptohlatypus,Dinoplatypus和Platypus 3属分化为一支.长小蠹科分子系统进化研究结果与Wood(1993)新修订的分类系统基本一致,说明长小蠹科的分类系统更趋于合理.     

纵坑切梢小蠹对云南松蛀害研究

在昆明地区,纵坑切梢小蠹Tomicus piniperda L.表现出枝梢聚集、树干蛀害等重要的行为学特征,形成三种基本蛀害模式。横坑切梢小蠹、蓝色伴生真菌参与了纵坑切梢小蠹危害过程,并在其中发挥积极作用。上述因素的综合影响,加强了纵坑切梢小蠹对云南松Pinus yunnanensis寄主树木的危害能力。     

纵坑切梢小蠹对云南松蛀害研究

在昆明地区,纵坑切梢小蠹Tomicus piniperda L.表现出枝梢聚集、树干蛀害等重要的行为学特征,形成三种基本蛀害模式。横坑切梢小蠹、蓝色伴生真菌参与了纵坑切梢小蠹危害过程,并在其中发挥积极作用。上述因素的综合影响,加强了纵坑切梢小蠹对云南松Pinus yunnanensis寄主树木的危害能力。     

Biology of two members of the Euwallacea fornicatus species complex (Coleoptera: Curculionidae: Scolytinae), recently invasive in the U.S.A., reared on an ambrosia beetle artificial diet

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The ambrosia symbiosis is specific in some species and promiscuous in others: evidence from community pyrosequencing

Symbioses are increasingly seen as dynamic ecosystems with multiple associates and varying fidelity. Symbiont specificity remains elusive in one of the most ecologically successful and economically damaging eukaryotic symbioses: the ambrosia symbiosis of wood-boring beetles and fungi. We used multiplexed pyrosequencing of amplified internal transcribed spacer II (ITS2) ribosomal DNA (rDNA) libraries to document the communities of fungal associates and symbionts inside the mycangia (fungus transfer organ) of three ambrosia beetle species, Xyleborus affinis, Xyleborus ferrugineus and Xylosandrus crassiusculus. We processed 93 beetle samples from 5 locations across Florida, including reference communities. Fungal communities within mycangia included 14–20 fungus species, many more than reported by culture-based studies. We recovered previously known nutritional symbionts as members of the core community. We also detected several other fungal taxa that are equally frequent but whose function is unknown and many other transient species. The composition of fungal assemblages was significantly correlated with beetle species but not with locality. The type of mycangium appears to determine specificity: two Xyleborus with mandibular mycangia had multiple dominant associates with even abundances; Xylosandrus crassiusculus (mesonotal mycangium) communities were dominated by a single symbiont, Ambrosiella sp. Beetle mycangia also carried many fungi from the environment, including plant pathogens and endophytes. The ITS2 marker proved useful for ecological analyses, but the taxonomic resolution was limited to fungal genus or family, particularly in Ophiostomatales, which are under-represented in our amplicons as well as in public databases. This initial analysis of three beetle species suggests that each clade of ambrosia beetles and each mycangium type may support a functionally and taxonomically distinct symbiosis.     

Ambrosia beetle Premnobius cavipennis (Scolytinae: Ipini) carries highly divergent ascomycotan ambrosia fungus,Afroraffaelea ambrosiae gen. nov. et sp. nov. (Ophiostomatales)

Ambrosia beetles and fungi represent an interesting and economically important symbiosis, but the vast majority of ambrosia fungi remain unexplored, hindering research, management of pathogens, and mitigation of invasive species. Beetles in the subtribe Premnobiini are one example of an entire beetle lineage whose fungal symbionts have never been studied. Here, we identify one dominant fungal symbiont of Premnobius cavipennis by using fungus culturing, community sequencing, microtome sectioning and micro-CT scanning of mycangia. Phylogenetic analyses of combined 18S and 28S rDNA and β-tubulin sequences revealed a highly divergent fungal lineage within Ophiostomatales, Afroraffaelea ambrosiae gen. nov. et sp. nov. The newly described fungal lineage represents another origin of the symbiosis within the Kingdom Fungi, adding to our understanding of the geographic ancestry of ambrosia fungi. P. cavipennis possesses pharyngeal mycangia which appear restrictive in fungus selection. This ambrosia beetle-fungus association has remained stable even after invasions into non-native regions.     

Multiple evolutionary origins lead to diversity in the metabolic profiles of ambrosia fungi

Ambrosia fungi are an ecological assemblage cultivated by ambrosia beetles as required nutrient sources. This mutualism evolved in multiple beetle and fungus lineages. Whether convergence in ecology led to convergent metabolism in ambrosia fungi is unknown. We compared the assimilation of 190 carbon sources in five independent pairs of ambrosia fungi and closely related, non-ambrosial species. Ecological convergence versus phylogenetic divergence in carbon source use was tested using variation partitioning. We found no convergence in carbon utilization capacities. Instead, metabolic variation was mostly explained by phylogenetic relationships. In addition, carbon usage in ambrosia fungi was equally diverse as that in non-ambrosial species. Thus, carbon metabolism of each ambrosia fungus is determined by its inherited metabolism, not the transition towards symbiosis. In contrast to other fungus-farming systems of termites and attine ants, the fungal symbionts of ambrosia beetles are functionally diverse, reflecting their independent evolutionary origins.     

Suitability of California bay laurel and other species as hosts for the non‐native redbay ambrosia beetle and granulate ambrosia beetle

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Biochemical approach to the control ofXyleborus fornicatus (Coleoptera: Scolytidae)

Summary The addition of small quantity of potassium acetate to the fertilizer applied to tea bushes was an effective method of reducing infestation by the beetle pest,Xyleborus fornicatus. The mechanism of action of potassium acetate is discussed as being due to its conversion to saponins and/or sterol analogues which interfere with pupation of the beetle larvae.     

Dynamics of the fungal symbionts in the gallery system and the mycangia of the ambrosia beetle,Xylosandrus mutilatus (Blandford) (Coleoptera: Scolytidae) in relation to its life history

The dynamics of the fungal symbionts in the gallery system and the mycangia of the ambrosia beetle,Xylosandrus mutilatus, were studied in relation to its life history using both isolation experiments and scanning electron microscopy (SEM). In the galleries,Ambrosiella sp. was predominant during the larval stages but its relative dominance gradually decreased during the development of the larvae. In contrast, yeasts (mainlyCandida sp.) andPaecilomyces sp. dominated continuously in the galleries after eclosion.Ambrosiella sp. was consistently stored in the mycangia in all adult stages, except in the teneral and overwintering adults when the other fungi were dominant. No fungal spores occurred in the mycangia of the adult beetles reared under aseptic conditions from the pupal stage, while onlyAmbrosiella sp. was stored in those reared from the teneral-adult stage. These results suggest that: (i) Xmutilatus is associated with at least three fungal species, among whichAmbrosiella sp. is the most essential food resource for development of the broods; (ii) immediately after eclosion, new female adults may take at least four associated fungal species, with no or incomplete selection, into their mycangia from the walls of the cradles; and (iii) conditions may well be produced in the mycangia of both matured and dispersing beetles whereby only the spores ofAmbrosiella sp. can proliferate.     

α-Spinasterol,temperature and moisture content as determining factors in the infestation of Camellia sinensis by Xyleborus fornicatus

Analyses of segments of clones of tea bushes, growing in different climatic conditions, indicated that temperature, moisture content, the amount of available α-spinasterol, and saponin level determined the degree of infestation by the shot-hole borer beetle pest, Xyleborus fornicatus. The principal factors affecting α-spinasterol availability were the concentration of the sterol per se, and the levels of saponins, theanine, arginine, calcium and chebulagic acid. It is proposed that α-spinasterol is converted by X. fornicatus to moulting hormones required for pupation of the beetle larvae, and that this sterol is also necessary for spore formation by the ambrosia fungus, Monacrosporium ambrosium, which is associated with the female adult beetle; tea saponins are inhibitory to the development of both the ambrosia fungus and X. fornicatus. The distribution of amino acids, fiavanols and other polyphenols, saponins, α-spinasterol, α-spinasterol glycoside, β-amyrin epi-friedelinol, friedelin and oleanolic acid throughout the tea bush, at periods of 6–40 months after pruning, is described.     

The infestation and habitat of the ambrosia beetle Euwallacea interjectus (Coleoptera: Curculionidae: Scolytinae) in the riparian zone of Shanghai,China

1. Extensive boring damage into trunks of living poplar trees in the urban forest of Shanghai, eastern China, was investigated in 2017.
2. In order to determine the taxonomic identity of the pest, we used morphological identification and sequenced mitochondrial COI gene. Based on both morphology and molecular data, it was concluded that the pest boring into the poplars was the ambrosia beetle Euwallacea interjectus (Blandford).
3. Its occurrence and damage on poplar across Shanghai were also investigated. In the Pudong District, a total of 104.52 ha of urban forest were investigated thoroughly, and 16.22% of surveyed forests were found to be infested. This insect species is an important native pest capable of causing damage across the Shanghai area.
4. Observations in the field suggested that the damage may be related to distance to water sources. Our statistical analysis confirmed this hypothesis, as the close distance to water bodies correlated with higher levels of damage. We conclude that E. interjectus prefers host trees stressed by an occasional excessive abundance of water, and acts as a parasite on living trees without killing them.

     

Identification of the ambrosia fungus of <Emphasis Type="Italic">Xyleborus monographus</Emphasis> and <Emphasis Type="Italic">X. dryographus</Emphasis> (Coleoptera: Curculionidae,Scolytinae)

The scolytid ambrosia beetles Xyleborus monographus and X. dryographus were investigated to identify their nutritional ambrosia fungi. The examination of the oral mycetangia of the beetles, the specialized organs for fungal transport, revealed the dominant occurrence of Raffaelea montetyi, a fungus that was also predominant in the beetle tunnels in the immediate vicinity of the feeding larvae. R. montetyi was previously known only as the ambrosia fungus of the platypodid ambrosia beetle, Platypus cylindrus. These beetle species inhabit the same habitat, mainly trunks of oaks in the Western Palaeartic. The possibility of an exchange of the symbiotic fungus between the ambrosia beetles within their common breeding place is discussed. Consequently, the previous hypothesis of a species-specific association of a single ambrosia fungus with a single beetle species is questioned. A phylogenetic analysis based on DNA sequences classified R. montetyi within the Ophiostomatales of the ascomycetes. The investigation of conidiogenesis of R. montetyi by SEM supported this taxonomic placement and showed the development of the conidia by annellidic percurrent proliferation, identical to the conidiogenesis reported for many anamorph states of the Ophiostomatales.