Your search keyword '"De Beer, Z."' showing total 14 results

1. Epitypification of Ophiostoma galeiforme and Phylogeny of Species in the O. galeiforme Complex

Author

Zhou, XuDong, de Beer, Z. Wilhelm, Harrington, Thomas C., McNew, Doug, Kirisits, Thomas, and Wingfield, Michael J.

Published

2004

2. Phylogeny and taxonomy of species in the Grosmannia serpens complex

Author

Duong, Tuan A., de Beer, Z. Wilhelm, Wingfield, Brenda D., and Wingfield, Michael J.

Published

2012

3. Ophiostoma gemellus and Sporothrix variecibatus from Mites Infesting Protea Infructescences in South Africa

Author

Roets, Francois, de Beer, Z. Wilhelm, Wingfield, Michael J., Crous, Pedro W., and Dreyer, Léanne L.

Published

2008

4. Fungal associates of an invasive pine-infesting bark beetle, Dendroctonus valens, including seven new Ophiostomatalean fungi.

Author

Marincowitz, S., Duong, T. A., Taerum, S. J., de Beer, Z. W., and Wingfield, M. J.

Subjects

BARK beetles, FUNGI, NAVICULA, TURPENTINE, BEETLES, SPECIES

Abstract

The red turpentine beetle (RTB; Dendroctonus valens) is a bark beetle that is native to Central and North America. This insect is well-known to live in association with a large number of Ophiostomatalean fungi. The beetle is considered a minor pest in its native range, but has killed millions of indigenous pine trees in China after its appearance in that country in the late 1990s. In order to increase the base of knowledge regarding the RTB and its symbionts, surveys of the beetle's fungal associates were initially undertaken in China, and in a subsequent study in its native range in North America. A total of 30 Ophiostomatalean species that included several undescribed taxa, were identified in these surveys. In the present study, seven of the undescribed taxa collected during the surveys were further characterised based on their morphological characteristics and multi-gene phylogenies. We proceeded to describe five of these as novel Leptographium spp. and two as new species of Ophiostoma. Four of the Leptographium spp. resided in the G. galeiformis-species complex, while one formed part of the L. olivaceumspecies complex. One Ophiostoma sp. was a member of the O. ips-species complex, while the only new species from China was closely related to O. floccosum. Two of the previously undescribed taxa from North America were shown to be congeneric with L. terebrantis, implying that this species was most often isolated in association with the RTB in North America. The undescribed taxon from North America was identified as O. ips, and like L. terebrantis, this species was also not recognized during the initial North American survey. Resolving the identities of these taxa provides essential baseline information to better understand the movement of fungal pathogens with this beetle. This then enhances our ability to accurately assess and predict the risks of invasions by these and related fungi. [ABSTRACT FROM AUTHOR]

Published

2020

5. Ophiostomatoid fungi associated with mites phoretic on bark beetles in Qinghai, China.

Author

Runlei Chang, Duong, Tuan A., Taerum, Stephen J., Wingfield, Michael J., XuDong Zhou, and de Beer, Z. Wilhelm

Subjects

BARK beetles, MITES, FUNGI, NUCLEOTIDE sequence, ARTHROPODA, BEETLES

Abstract

Bark beetle galleries are complex ecosystems where many microbes and other arthropods co-exist with the beetles. Fungi isolated from these galleries are often referred to as 'beetle associates', but the nature of these associations are poorly understood. The possibility that many of these fungi might in fact be mite associates is often overlooked. Several recent studies explored the diversity of fungi from conifer-infesting bark beetles and their galleries in China, but only one study considered phoretic mites and their fungi from conifer-infesting bark beetles in Yunnan, southwestern China. We studied the mites and fungi from galleries of four spruce-infesting bark beetle species in the high altitude forests of Qinghai province, western China. Mites were identified based on morphological characteristics, and fungi based on DNA sequences of four gene regions. In total, 173 mite individuals were collected belonging to 18 species in 11 genera. A total of 135 fungal isolates were obtained from the mites, representing 14 taxa from the Ophiostomatales. The most frequently isolated fungus was Ophiostoma nitidum, which represented 23.5% of the total isolates. More fungal species were found from fewer mites and bark beetle species than from the study in Yunnan. Although we could not elucidate the exact nature of interactions between mites and their fungi, our results re-enforce that these organisms should not be ignored in pest risk assessments of bark beetles, that often focus only on the beetles and their fungi. Three new species are described: Grosmannia zekuensis, O. manchongi, and O. kunlunense spp. nov., and our data revealed that O. typographi, recently described from China, is a synonym of O. ainoae. [ABSTRACT FROM AUTHOR]

Published

2020

6. Taxonomy and phylogeny of the Leptographium olivaceum complex (Ophiostomatales, Ascomycota), including descriptions of six new species from China and Europe.

Author

Mingliang Yin, Wingfield, Michael J., Xudong Zhou, Linnakoski, Riikka, and de Beer, Z. Wilhelm

Subjects

BARK beetles, PHYLOGENY, SPECIES, TAXONOMY, EPITOPES, ASCOMYCETES, FUNGAL communities

Abstract

The Leptographium olivacea complex encompasses species in the broadly defined genus Leptographium (Ophiostomatales, Ascomycota) that are generally characterized by synnematous conidiophores. Most species of the complex are associates of conifer-infesting bark beetles in Europe and North America. The aims of this study were to reconsider the delineation of known species, and to confirm the identity of several additional isolates resembling L. olivacea that have emerged from recent surveys in China, Finland, Poland, Russia, and Spain. Phylogenetic analyses of sequence data for five loci (ACT, TUB, CAL, ITS2-LSU, and TEF-1α) distinguished 14 species within the complex. These included eight known species (L. cucullatum, L. davidsonii, L. erubescens, L. francke-grosmanniae, L. olivaceum, L. olivaceapini, L. sagmatosporum, and L. vescum) and six new species (herein described as L. breviuscapum, L. conplurium, L. pseudoalbum, L. rhizoidum, L. sylvestris, and L. xiningense). New combinations are provided for L. cucullatum, L. davidsonii, L. erubescens, L. olivaceum, L. olivaceapini, L. sagmatosporum and L. vescum. New Typifications: Lectotypes are designated for L. olivaceum, L. erubescens and L. sagmatosporum. Epitypes were designated for L. olivaceapini and L. sagmatosporum. In addition to phylogenetic separation, the synnematous asexual states and ascomata with almost cylindrical necks and prominent ostiolar hyphae, distinguish the L. olivaceum complex from others in Leptographium. [ABSTRACT FROM AUTHOR]

Published

2019

7. Ophiostomatoid fungi associated with the spruce bark beetle Ips typographus, including 11 new species from China.

Author

Chang, R., Duong, T. A., Taerum, S. J., Wingfield, M. J., Zhou, X., Yin, M., and de Beer, Z. W.

Subjects

IPS typographus, BARK beetles, SPECIES, SYMBIODINIUM, RIBOSOMAL DNA, POPULATION

Abstract

Ips typographus (Coleoptera, Scolytinae) is a spruce-infesting bark beetle that occurs throughout Europe and Asia. The beetle can cause considerable damage, especially when colonized trees are stressed and beetle populations increase. Although some studies have shown that populations of I. typographus in Europe, China and Japan are genetically distinct, these populations are biologically similar, including a strong association with ophiostomatoid fungi. To date, only two Leptographium spp. have been reported from the beetle in China, while 40 species have been reported from Europe and 13 from Japan. The aims of this study were to identify the ophiostomatoid fungal associates of I. typographus in north-eastern China, and to determine whether the fungal assemblages reflect the different geographical populations of the beetle. Field surveys in Jilin and Heilongjiang provinces yielded a total of 1 046 fungal isolates from 145 beetles and 178 galleries. Isolates were grouped based on morphology and representatives of each group were identified using DNA sequences of the ribosomal LSU, ITS, β-tubulin, calmodulin and elongation factor 1-α gene regions. A total of 23 species of ophiostomatoid fungi were identified, including 12 previously described species and 11 novel species, all of which are described here. The dominant species were Ophiostoma bicolor, Leptographium taigense and Grosmannia piceiperda D, representing 40.5 %, 27.8 % and 17.8 % of the isolates, respectively. Comparisons of species from China, Europe and Japan are complicated by the fact that some of the European and all the Japanese species were identified based only on morphology. However, assuming that those identifications are correct, five species were shared between Europe, Japan and China, two species were shared between China and Japan, five between Europe and China, and two between Europe and Japan. Consequently, Ips typographus populations in these different geographic areas have different fungal assemblages, suggesting that the majority of these beetle-associations are promiscuous. The results also suggested that the symbionts of the bark beetle do not reflect the population structures of the beetle. The use of fungal symbiont assemblages to infer population structures and invasion history of its vectors should thus be interpreted with circumspection. [ABSTRACT FROM AUTHOR]

Published

2019

8. Mating type markers reveal high levels of heterothallism in Leptographium sensu lato.

Author

Duong, Tuan A., de Beer, Z. Wilhelm, Wingfield, Brenda D., and Wingfield, Michael J.

Subjects

*HETEROTHALLISM in fungi, *LEPTOGRAPHIUM, *ANIMAL sexual behavior, *BARK beetles, *TREE diseases & pests, *FRUITING bodies (Fungi), *BIOMARKERS, *ARTHROPODA

Abstract

Species of Leptographium sensu lato are sap-stain fungi vectored by bark beetles and some species cause or are associated with tree diseases. Sexual states have been reported for more than 30 species in this group and these have been treated in the sexual genus Grosmannia . No sexual state is known for at least 59 additional species and these reside in the genus Leptographium . The discovery of sexual states for species of Leptographium relies mainly on the presence of fruiting bodies on host tissue at the time of isolation and/or intensive laboratory mating studies, which commonly have low levels of success. We developed mating-type markers to study sexual compatibility of species in Leptographium sensu lato. Using these markers, it was possible to identify mating types for 42 species and to determine thallism in many species for the first time. Surprisingly, the results showed that heterothallic and putatively heterothallic species are abundant (39 out of 42 species) in Leptographium sensu lato , and only three species were confirmed to be homothallic. The mating type markers developed in this study will be useful for future studies concerning mating type and sexual compatibility of species in this genus. [ABSTRACT FROM AUTHOR]

Published

2016

9. Multigene phylogenies of Ophiostomataceae associated with Monterey pine bark beetles in Spain reveal three new fungal species.

Author

Romón, Pedro, de Beer, Z. Wilhelm, XuDong Zhou, Tuan A. Duong, Wingfield, Brenda D., and Wingfield, Michael J.

Subjects

*OPHIOSTOMA, *BARK beetles, *BLUE stain, *PLANT morphology, *PLANT disease research

Abstract

Ophiostoma species, some of which cause sapstain in timber and/or are mild pathogens, are common fungal associates of bark beetles (Coleoptera: Scolytinae). Three new Ophiostomataceae from Spain are recognized in the present study based on comparisons of sequence data for three gene regions as well as morphological characteristics. The new taxa are described as Ophiostoma nebulare sp. nov., Ophiostoma euskadiense sp. nov. and Graphilbum crescericum sp. nov. [ABSTRACT FROM AUTHOR]

Published

2014

10. Associations of Conifer-Infesting Bark Beetles and Fungi in Fennoscandia.

Author

Linnakoski, Riikka, de Beer, Z. Wilhelm, Niemelä, Pekka, and Wingfield, Michael J.

Subjects

*BARK beetles, *FUNGI, *CLIMATE change, *BEETLES

Abstract

Bark beetles (Coleoptera, Scolytinae) have a widespread association with fungi, especially with ophiostomatoid fungi (Ascomycota) that cause blue staining of wood, and in some cases, serious tree diseases. In Fennoscandia, most studies of these fungi have focused on economically important bark beetle species and this is likely to have led to a biased view of the fungal biodiversity in the region. Recently, the associations between fungi and bark beetles in Fennoscandia have been shown to be more diverse than previously thought. Furthermore, they form complex and dynamic associations that are only now beginning to emerge. This review examines the current knowledge of the rather poorly known interactions between bark beetles, fungi and their conifer host trees in Fennoscandia. The diversity of ophiostomatoid species is discussed and the possible factors that influence the assemblages of fungal associates are considered for all species that are known to occur in the region. For many ophiostomatoid species found in Fennoscandia, little or nothing is known regarding their pathogenicity, particularly if they were to be transferred to new environments. We, therefore, draw attention to the possible threats of timber trade and climate change-induced invasions of new habitats by bark beetles and the fungi that can be moved along with them. [ABSTRACT FROM AUTHOR]

Published

2012

11. Fungi, including Ophiostoma karelicum sp. nov., associated with Scolytus ratzeburgi infesting birch in Finland and Russia

Author

Linnakoski, Riikka, de Beer, Z. Wilhelm, Rousi, Matti, Niemelä, Pekka, Pappinen, Ari, and Wingfield, Michael J.

Subjects

*OPHIOSTOMA, *SCOLYTUS, *BARK beetles, *BIRCH, *INSECT-fungus relationships, *PLANT molecular systematics

Abstract

Abstract: Several elm-infesting bark beetles belonging to the genus Scolytus (Coleoptera: Scolytinae) are vectors of Ophiostoma spp., most notably the Dutch elm disease fungi. A related bark beetle species, Scolytus ratzeburgi, is known to infest birch in various parts of Europe, but it is unknown whether fungi are associated with this beetle. The aim of this study was to identify several fungal species isolated from S. ratzeburgi. Beetles and their galleries were collected from Betula pendula at three different sites in the boreal forests of the Karelia region, on both the Finnish and Russian sides of the border. Three ophiostomatoid fungi were isolated from the beetles and their galleries. One Penicillium and one Bionectria species were isolated only from the Finnish material and, based on DNA sequences, were identified as P. brevicompactum and a species close to the anamorph of B. zelandianovae. Two Ophiostoma species present in low numbers included O. quercus and a species closely related to O. catonianum. Only one Ophiostoma species was isolated consistently from all the galleries and beetles considered in the study. Comparison of DNA sequences and morphological characterization showed that this fungus represents an undescribed taxon, described here as O. karelicum sp. nov. [Copyright &y& Elsevier]

Published

2008

12. Epitypification of Ophiostoma galeiforme and phylogeny of species in the O. galeiforme complex.

Author

XuDong Zhou, de Beer, Z. Wilhelm, Harrington, Thomas C., McNew, Doug, Kirisits, Thomas, and Wingfield, Michael J.

Subjects

OPHIOSTOMA, BARK beetles, AMBROSIA beetles, SCOTS pine, RECOMBINANT DNA, JAPANESE larch

Abstract

Ophiostoma galeiforme was described first in 1951 from Larix kaempferi in Scotland, where it was found to be associated with the bark beetles Hylurgops palliatus, Dryocoetes autographus, and the ambrosia beetle Trypodendron lineatum. The taxonomy of this fungus has been uncertain because of a lack of sexual structures on the type specimen and contamination of a preserved ex-type culture. The aim of this study was to clarify application of the species name, O. galieforme, by designating an epitype and to consider phylogenetic relationships of the species. Nineteen isolates resembling O. galeiforme from different parts of the world were used, including collections from Pinus sylvestris infested with Tomicus piniperda in Scotland and the contaminated ex-type culture. Morphological characteristics of isolates from Sweden, South Africa, Scotland, Chile and Austria corresponded well with those originally described for O. galeiforme, and an isolate from Scot land is designated as the epitype. A detailed description is provided. Results of interfertility tests showed that O. galeiforme is heterothallic. Analysis of ITS rDNA sequences showed that the isolates representing O. galeiforme were distinct from three morphologically similar isolates from the USA and Mexico, which probably represent an undescribed taxon. [ABSTRACT FROM AUTHOR]

Published

2004

13. Phylogenetic re-evaluation of the Grosmannia penicillata complex (Ascomycota, Ophiostomatales), with the description of five new species from China and USA.

Author

Yin, Mingliang, Wingfield, Michael J., Zhou, Xudong, and de Beer, Z. Wilhelm

Subjects

*BARK beetles, *WOOD-decaying fungi, *SPECIES, *STAINS & staining (Microscopy), *CALMODULIN, *ASCOMYCETES, *FUNGAL communities

Abstract

The Grosmannia penicillata complex (Ophiostomatales, Ascomycota) is one of the major species complexes in Leptographium sensu lato. Most of these are wood staining fungi associated with conifer-infesting bark beetles, and the complex encompasses the type species of the genus Grosmannia. Yet the phylogenetic relationships of species within the complex is unresolved. The aim of this study was to re-evaluate the circumscriptions of all known species in the G. penicillata complex, as well as isolates resembling G. penicillata obtained from a recent survey in China. Phylogenetic analyses of four gene regions: Internal transcribed spacer 2 and large subunit (ITS2-LSU), beta-tubulin (TUB), calmodulin (CAL), and translation elongation factor 1 alpha (TEF-1α) resolved the relationships of 15 species, including four new species (Grosmannia xianmiense sp nov., Grosmannia purpurea sp. nov., Grosmannia crassifolia sp. nov. and Grosmannia maixiuense sp. nov.), from China. Some isolates from pine in the USA that had previously been identified as Grosmannia abietina , represented a distinct taxon that is described here as Grosmannia xeno-abietina sp. nov. • Phylogenetic analyses of four gene regions (ITS2-LSU, β-tubulin, calmodulin, translation elongation factor 1-α) were used. • Four new species from China and one new species from USA associated with conifer-infesting bark beetles were described. • One lectotype was designated, and seven new combinations were provided. [ABSTRACT FROM AUTHOR]

Published

2020

14. Destructive Tree Diseases Associated with Ambrosia and Bark Beetles: Black Swan Events in Tree Pathology?

Author

Ploetz, Randy C., Hulcr, Jiri, Wingfield, Michael J., and de Beer, Z. Wilhelm

Subjects

*AMBROSIA beetles, *BARK beetles, *TREE diseases & pests, *DUTCH elm disease, *PLANT-fungus relationships, *ENVIRONMENTALLY induced diseases

Abstract

The article discusses tree diseases that are associated with ambrosia and bark beetles and also reflects on the Black Swan Theory (BST) in tree pathology. It mentions that diseases related to ambrosia and bark beetle are caused by fungi presented in Ophiostomatales, Microascales, and Hypocreales and also discusses Dutch Elm Disease (DED) in trees. It mentions the factotrs of tree disesaes including flood, drought and ozone pressure.

Published

2013