<Emphasis Type="Italic">Ophiostoma tsotsi</Emphasis> sp. nov., A Wound-infesting Fungus of Hardwood Trees in Africa

Polymorphic sequence-characterised marker assays from a recent diversity study on the Ascomycete fungus Ophiostoma quercus reported that some isolates from Africa were genetically distinct from O. quercus. In the present study, these African isolates were compared with authentic O. quercus isolates by evaluating morphological characters, growth in culture, mating compatibility and DNA sequence data. The isolates from Africa were morphologically similar to O. quercus, presenting Pesotum and Sporothrix synanamorphs in culture. Phylogenetic analyses of the ribosomal internal transcribed spacer regions 1 and 2, β-tubulin and translation elongation factor 1-α gene regions confirmed that the African group represents a distinct species within the hardwood lineage of the O. piceae complex, closely related to O. ulmi and O. himal-ulmi. Mating studies between O. quercus and the African isolates showed that isolates mated predominantly with those of their own group, although there were rare cases of fertile crosses between the groups. Isolates residing in the African lineage are described here as a new species, O. tsotsi sp. nov.     

Ophiostoma arduennense sp. nov. (Ophiostomatales, Ascomycota) from Fagus sylvatica in southern Belgium

Ophiostoma arduennense sp. nov. is described from several cultures isolated from Fagus sylvatica in southern Belgium. The species is mainly characterized by globose perithecia with small button-like bases ornamented with brown hyphal hairs of variable length and, long cylindrical necks ending in ostiolate hyphae. It is homothallic with small reniform ascospores and no apparent anamorph. It is closely associated with the ambrosia beetles Xyloterus domesticus and X. signatus. Its phylogenetic relationships within Ophiostoma are discussed and the species is compared with other Ophiostoma species associated with European beech or other broad-leaved trees in Europe, especially species of the O. quercus–O. piceae complex. The species is responsible for a dark brown staining of the sapwood and its role in the decline of beech in Southern Belgium is also discussed.     

Rapid Detection of Ophiostoma piceae and O. quercus in Stained Wood by PCR

A rapid, sensitive, and simple method was developed to detect the sapstain fungi Ophiostoma piceae and O. quercus in stained wood. By using microwave heating for DNA extraction and PCR with internal transcribed spacer-derived-specific primers, detection was feasible within 4 h, even with DNA obtained from a single synnema. This method can easily be extended for the detection of other wood-inhabiting fungi.     

Discovery of <Emphasis Type="Italic">Ophiostoma tsotsi</Emphasis> on <Emphasis Type="Italic">Eucalyptus</Emphasis> wood chips in China

Ophiostoma species such as O. quercus are the most frequent causal agents of sapstain of freshly felled hardwood timber and pulpwood. Many species are regarded as economically important agents of wood degradation. The aim of this study was to identify a collection of Ophiostoma isolates, resembling O. quercus, found on stained Eucalyptus pulpwood chips in China. DNA sequences of the internal transcribed spacer regions, including the 5.8S region, of the ribosomal DNA, and parts of the β-tubulin and elongation factor-1α genes, revealed that the isolates were not O. quercus. Surprisingly, they represented O. tsotsi, a wound-infesting fungus recently described from hardwoods in Africa. In addition, sequence data from an isolate from agarwood in Vietnam, identified in a previous study as belonging to an unknown Pesotum species, were also shown to represent O. tsotsi. A high level of genetic variability was observed among isolates of both O. quercus and O. tsotsi. This was unexpected and suggests that both species have been present in Asia for a significant amount of time.     

Ophiostomatoid fungi associated with the northern spruce engraver, <Emphasis Type="Italic">Ips perturbatus</Emphasis>, in western Canada

A number of ophiostomatoid fungi were isolated from the spruce-infesting bark beetle, Ips perturbatus and its galleries collected from felled spruce trees and logs in northern BC and the Yukon Territory. Isolates were identified to species using morphological characteristics, nuclear ribosomal DNA and partial β-tubulin gene sequences. Thirteen morphological and phylogenetic species were identified among the isolates. Leptographium fruticetum, Leptographium abietinum, Ophiostoma bicolor, Ophiostoma manitobense, O. piceaperdum, and eight undescribed species of the genus Ophiostoma and the anamorph genera Leptographium, Hyalorhinocladiella, Ambrosiella and Graphium. A number of these species, i.e. L. fruticetum, Hyalorhinocladiella sp. 2, O. bicolor and O. manitobense, were isolated repeatedly from I. perturbatus, while others, i.e. Graphium sp. 1 and O. piceaperdum, seemed to be␣sporadic associates. Among all the isolates, L. fruticetum had the highest relative dominance in this survey. A high frequency of occurrence of this species with the beetle may indicate a specific relationship between the two partners.     

Two Ophiostoma species associated with bark beetles in wave-regenerated Abies veitchii forests in Japan

Two species of Ophiostoma were isolated from four bark beetles (i.e., Cryphalus montatus, C. piceae, Dryocoetes hectographus, and Polygraphus proximus) infesting Abies veitchii and from their galleries in the wave-regenerated forests in the central part of the main island (Honshu) of Japan. One of them is described here as a new species, Ophiostoma subalpinum, and the other is identified as O. davidsonii, newly reported in Japan. Ophiostoma subalpinum is characterized by short ostiolar hyphae, oblong or allantoid ascospores enclosed in a thin, hyaline sheath, and a Pesotum anamorph. Received: June 4, 2001 / Accepted: December 25, 2001     

Three new species of Ophiostomatales from <Emphasis Type="Italic">Nothofagus</Emphasis> in Patagonia

The Ophiostomatales (Ascomycota) include mainly insect and mite-associated fungi, the majority of which are found on trees. Very little is known regarding the occurrence or diversity of these fungi in South America. The aim of this study was to consider their occurrence on native Nothofagus trees in the Patagonian Andes of Argentina. Isolates were collected in national parks and provincial reserves in Patagonia between 2009 and 2011. These were grouped based on morphology, and 22 representative isolates were included in phylogenetic analyses based on sequence data of multiple loci (LSU, ITS, beta-tubulin and translation elongation factor-1 alpha genes). The isolates could be assigned to ten different taxa, and included eight species of Ophiostoma s. l., one species of Leptographium, and one species in the Sporothrix lignivora complex. Three of the species are described as new, including Ophiostoma patagonicum, Leptographium gestamen, and Sporothrix cabralii. Ophiostoma quercus and O. noveae-zelandiae are reported for the first time from Argentina, and we show that the latter species is distinct from O. pluriannulatum, in contrast to a previous suggestion that they represent the same taxon.     

Ophiostoma quercus: An unusually diverse and globally widespread tree-infecting fungus

Ophiostoma quercus (Ascomycota, Ophiostomatales) is a globally widespread, insect-vectored fungus that colonizes a wide diversity of hardwood and conifer hosts. Although the fungus is considered to be non-pathogenic, it is closely related to the fungi that cause Dutch elm disease. We examined the global diversity of O. quercus based on a ribosomal RNA marker and three unlinked gene regions. The fungus exhibited substantial morphological diversity. In addition, O. quercus had high genetic diversity in every continent from which it was collected, although the fungus was most diverse in Eurasia. There was no evidence of geographical clustering of haplotypes based on phylogenetic and network analyses. In addition, the phylogenetic trees generated based on the different markers were non-congruent. These results suggest that O. quercus has been repeatedly moved around the globe, because of trade in wood products, and that the fungal species most likely outcrosses regularly. The high genetic diversity of the fungus, as well as its ability to utilize a wide variety of arthropod vectors and colonize a tremendous diversity of tree host species makes O. quercus truly unique among ophiostomatoid fungi.     

Discovery of fungus-mite mutualism in a unique niche

The floral heads (infructescences) of South African Protea L. represent a most unusual niche for fungi of the economically important genus Ophiostoma Syd. and P. Syd. emend. Z.W. de Beer et al. Current consensus holds that most members of Ophiostoma are vectored by tree-infesting bark beetles. However, it has recently been suggested that mites, phoretic on these bark beetles, may play a central role in the dispersal of Ophiostoma. No bark beetles are known from Protea. Therefore, identifying the vectors of Ophiostoma in Protea infructescences would independently evaluate the role of various arthropods in the dispersal of Ophiostoma. Infructescence-colonizing arthropods were tested for the presence of Ophiostoma DNA using polymerase chain reaction (PCR) and for reproductive propagules by isolation on agar plates. PCR tests revealed that few insects carried Ophiostoma DNA. In contrast, various mites (Proctolaelaps vandenbergi Ryke, two species of Tarsonemus Canestrini and Fonzago, and one Trichouropoda Berlese species) frequently carried Ophiostoma propagules. DNA sequence comparisons for 28S ribosomal DNA confirmed the presence of O. splendens G. J. Marais and M. J. Wingf., O. palmiculminatum Roets et al., and O. phasma Roets et al. on these mites. Two apparently undescribed species of Ophiostoma were also identified. Light and scanning electron microscopy revealed specialized structures in Trichouropoda and one Tarsonemus sp. that frequently contained Ophiostoma spores. The Trichouropoda sp. was able to complete its life cycle on a diet consisting solely of its identified phoretic Ophiostoma spp. This study provides compelling evidence that mites are the primary vectors of infructescence-associated Ophiostoma spp. in South Africa.     

Development of polymorphic microsatellite markers for the tree pathogen and sapstain agent,Ophiostoma ips

Twelve pairs of simple sequence repeat markers (SSR) were developed using a single ascospore isolate of Ophiostoma ips, isolated from the bark beetle, Orthotomicus erosus, infesting Pinus elliottii in South Africa. All markers were found to be polymorphic when tested on seven isolates of O. ips collected from Austria, Chile, Israel, Mexico, South Africa, Sweden, and the USA. These will now be useful in population and phylogenetic studies on O. ips.     

Redheadia quercus gen. et sp. nov., the teleomorph of Mycopappus quercus, the frosty mildew fungus in Quercus acutissima

The teleomorph of Mycopappus quercus causing frosty mildew in Quercus acutissima is described as a new genus and species, Redheadia quercus, in the Sclerotiniaceae. Apothecia sprout from sclerotia on the fallen infected leaves kept for 10 months at 5°C and subsequent incubation at 15°C under diffused room light. Typical zonate lesions and multicellular propagules of M. quercus are produced on Q. acutissima, by mycelial inoculation using an isolate from a single ascospore, confirming the teleomorph–anamorphic connection. No significant differences are observed between cultured colonies of isolates from the ascospore and those from the propagule. Sclerotia and microconidia of the fungus are produced on culture media.     

Localisation of fungal hyphae in wood using immunofluorescence labelling and confocal laser scanning microscopy

This study explored the feasibility of using immunofluorescence labelling in conjunction with confocal laser scanning microscopy (CLSM) for detection of common fungal colonisers of unseasoned radiata pine in New Zealand. Wood sections infected with Ophiostoma piceae were treated with monoclonal antibody IF3 (1), and then Oregon green 514 goat anti-mouse IgG, a fluorescent secondary antibody. Additional wood sections infected with other Ophiostoma spp., Sphaeropsis sapinea, Leptographium procerum, Trichoderma sp. and Phlebiopsis gigantea were treated similarly to determine whether the antibody was specific to O. piceae or was recognising other fungal species. Sections were examined using phase contrast and fluorescence light microscopy prior to CLSM. Immunolabelled fungal hyphae showed relatively weak fluorescence compared to the strong autofluorescence of wood cell walls and extractives. Labelled hyphae of O. piceae were detected in wood using CLSM but not with ordinary fluorescence microscopy. This is because CLSM has stronger illumination power and superior imaging ability compared with ordinary fluorescence microscopy. The monoclonal antibody did not cross-react with the other Ophiostoma species. However, non-specific antibody binding was observed with L. procerum and Trichoderma species. Furthermore, cell walls of L. procerum showed strong autofluorescence with optical properties similar to wood extractives when examined prior to incubation with the monoclonal and secondary antibody, therefore cross-reactivity tests were inconclusive for Leptographium and Trichoderma species. The current investigation demonstrated that CLSM provides possibilities for future investigations on in situ interactions of common radiata pine fungal colonisers, with one another and with wood.     

Does the invasive horse-chestnut leaf mining moth, <Emphasis Type="Italic">Cameraria ohridella</Emphasis>, affect the native beech leaf mining weevil, <Emphasis Type="Italic">Orchestes fagi</Emphasis>, through apparent competition?

Apparent competition, through the action of shared natural enemies, is frequently suggested as a possible mechanism underlying the impact of invasive alien species on native species, but examples are rare, particularly in insects. A previous study showed that the beech leaf mining weevil, Orchestes fagi, was significantly less abundant close to horse-chestnut trees infested by the invasive horse-chestnut leaf mining moth, Cameraria ohridella, compared to control sites. Apparent competition through the sharing of natural enemies was proposed as a potential mechanism underlying this effect. To test the occurrence of apparent competition between the two leaf miner species, three observational studies and one experimental manipulation were carried out in Switzerland during 3 years. The total mortality, parasitism, predation and parasitoid diversity of larvae and pupae of O. fagi were compared between sites with and without horse-chestnut trees severely attacked by C. ohridella. Total mortality and predation rates of O. fagi were not significantly different between sites with and sites without C. ohridella. Despite a large overlap between the parasitoid complexes of the two leaf miners, parasitism of O. fagi was found to be positively influenced by the presence of horse-chestnuts infested by C. ohridella in only one of the four studies and only for 1 year. Similarly, parasitoid diversity was not higher near infested horse-chestnut trees compared to control sites. Thus, little evidence for apparent competition was found. Possible reasons, including possible insufficiencies in the experimental circumstances and design, are discussed.     

Pathogenicity to western larch (Larix occidentalis) of two fungi, Ophiostoma pseudotsugae and Leptographium abietinum, associated with the Douglas fir beetle (Coleoptera: Scolytidae)

1 Pole-sized, live western larch Larix occidentalis Nutt. were mass-inoculated with Ophiostoma pseudotsugae (Romb.) von Arx or Leptographium abietinum (Peck) Wingf., two blue-stain fungi associated with the Douglas fir beetle Dendroctonus pseudotsugae Hopkins, to assess their pathogenicity. 2 Inoculation with O. pseudotsugae resulted in significantly greater percentages of necrotic phloem compared with L. abietinum inoculations. 3 The percentage of occluded sapwood was significantly greater after L. abietinum inoculations compared with O. pseudotsugae inoculations. 4 Within the inoculation band, all trees had more than 60% functional sapwood 4 months after treatment. 5 The results suggest that western larch can successfully limit colonization by O. pseudotsugae and L. abietinum. 6 The inability of the fungi to thrive in live western larch may be a factor in the consistent failure of Douglas fir beetle broods in this host tree species.     

Phylogenetic relationships on 14 morphologically similar species of Pucciniastrum in Japan based on rDNA sequence data

We analyzed the phylogenetic relationships of 49 specimens comprising 14 morphologically similar species of Pucciniastrum distributed in Japan based on the sequence data of the large subunit rDNA (D1/D2), 5.8S rDNA, and internal transcribed spacer (ITS) regions. Neighbor-joining and parsimony analyses generated six major groups for both the D1/D2 and ITS regions. Pucciniastrum circaeae and P. epilobii formed a single group. P. hydrangeae-petiolaris, P. coryli, P. fagi, P. hikosanense, P. tiliae, and P. boehmeriae were each a distinct clade, and P. fagi formed a close relationship with P. hikosanense. However, these analyses did not support the monophyly of the following species: P. kusanoi, P. actinidiae, P. corni, P. styracinum, P. yoshinagai, and P. miyabeanum. Contribution no. 201, Laboratory of Plant Parasitic Mycology, Graduate School of Life and Environmental Sciences, University of Tsukuba, Japan     

Ophiostomatoid fungi associated withIps cembrae in Japan and their pathogenicity of Japanese larch

Six ophiostomatoid fungi, i.e.,Ceratocystiopsis minuta, Ceratocystis laricicola, Ophiostoma brunneo-ciliatum, O. laricis, O. piceae andOphiostoma sp., were isolated from the galleries ofIps cembrae on Japanese Iarch (Larix kaempferi) logs in central Honshu, Japan. Japanese larch trees approximately 30 yr old were inoculated with all six fungi.Ceratocystis laricicola produced the largest lesions on the inner bark around the inoculation point and the largest dry zone in the sapwood. Furthermore,C. laricicola was the only fungus associated withI. cembrae that had the ability to kill Japanese larch, death occurring in 30-yr-old trees within 3.5 mo after inoculation.     

Anatomy of the stridulation apparatus of the beech leaf‐mining weevil and characterization of,and behavioral responses to,stridulation sounds

We investigated auditory signals and morphology of the stridulatory apparatus of the European beech leaf‐mining weevil, Orchestes fagi L. (Coleoptera: Curculionidae), an invasive herbivore now established in Nova Scotia, Canada, to determine their potential for enhancing survey tools to monitor the spread of the species in Canada. We recorded and described sounds produced by adult O. fagi, analyzed the morphology of the stridulatory mechanism for intersexual differences and asymmetry, and examined behavioral responses elicited in conspecifics by playback of stridulation recordings. Adult O. fagi produced sounds under three conditions: male in distress, female in distress, and male in the presence of female. Female distress chirps lasted significantly longer than male distress chirps and male chirps in the presence of females, but peak frequencies and mean number of chirps per s did not differ significantly among the three groups. Morphology of the stridulation structures in male and female O. fagi was compared using scanning electron microscopy. Orchestes fagi have an elytro‐tergal file‐ and scraper‐type sound production apparatus, through which sound is produced upon anterior motion of the abdomen. Female O. fagi have a ‘pars stridens’ that is longer and has more ridges than males. Width and number of ridges per length of pars stridens did not differ between the sexes. Evidence of asymmetry was found in male pars stridens, with the right side being longer than the left. Playback of recorded sounds to adult weevils suggests female O. fagi were repelled by sounds produced by distressed males.     

云杉腐烂病菌Cytospora piceae全基因组测序及比较基因组分析

【目的】壳囊孢属(Cytospora)真菌引起的林木腐烂病和枝枯病,是一类重要的、分布广泛的枝干病害,可引起重大经济损失和生态破坏。通过全基因组测序和比较基因组学分析,探究不同腐烂病菌的全基因组特征,分析其与寄主选择和致病性相关的基因或基因家族的差异性,将有助于进一步揭示腐烂病菌与寄主互作的分子机制,为腐烂病的有效防治提供基础资料。【方法】采用PacBio测序技术对云杉腐烂病菌Cytosporapiceae进行了全基因组测序和组装,并通过比较基因组学方法,从基因组水平探究引起腐烂病的4种腐烂病菌的基因组的差异,分析其共有的和特有的与致病相关的基因家族。【结果】C. piceae基因组大小为39.25 Mb,GC含量为51.79%。基于单拷贝直系同源基因构建的系统发育树显示,C. piceae与Cytospora chrysosperma的进化关系相近,Valsamali和Valsapyri则更相近。比较基因组学分析表明,4种腐烂病菌均具有重复诱导的点突变(RIP)活性,其中,C. piceae的RIP活性最强。与其他3种腐烂病菌相似,与木质素降解相关的AA3和AA7家族在C. piceae中显著扩张,但木质素降解关键酶AA5家族均缺失;C. piceae和C. chrysosperma基因组中果胶降解关键酶GH28和CE8家族基因的数量与V. mali和V. pyri相近。4种腐烂病菌都含有较多数量的MFS(major facilitator superfamily)超家族转运蛋白和较少的ABC(ATP-binding cassette transporter)超家族转运蛋白,但C. piceae含有更多DHA2、PDR和MDR类转运蛋白。4种腐烂病菌的分泌蛋白的GO分类分子功能主要集中在水解酶活性,其中V. mali含有最多数量的该类别基因;而生物学过程则集中在碳水化合物代谢过程、果胶分解过程和氧化还原过程。在次生代谢核心基因中,C.piceae的PKS基因明显少于V.mali和V.pyri;在C.piceae含有的4个特异性次生代谢基因中,3个为NRPS基因。【结论】4种腐烂病菌含有的碳水化合物活性酶的种类和数量相似,且都具有较强的果胶降解能力。不同腐烂病菌的膜转运蛋白中多药转运体的选择性扩增,以及次生代谢核心基因中NRPS类基因的特异性存在和缺失,表明它们作为重要的致病因子很可能在腐烂病菌寄主选择中发挥了重要的作用。