Your search keyword '"Wingfield, Michael J."' showing total 294 results

1. Gene transfer between fungal species triggers repeated coffee wilt disease outbreaks.

Author

Wingfield, Brenda D. and Wingfield, Michael J.

Subjects

*HORIZONTAL gene transfer, *GENETIC transformation, *COFFEE manufacturing, *DISEASE outbreaks, *TRANSPOSONS

Abstract

Two outbreaks of coffee wilt disease have devastated African coffee production. A PLOS Biology study suggests that horizontal gene transfer via large Starship transposons between 2 fungal species played a key role in the repeated emergence of the disease. Two outbreaks of coffee wilt disease have devastated African coffee production. A PLOS Biology study suggests that horizontal gene transfer via Starships between two fungal strains played a key role in the repeated emergence of the disease. [ABSTRACT FROM AUTHOR]

Published

2024

2. First Report of Fusarium Wilt and Pink Rot of Phoenix canariensis in South Africa.

Author

Balocchi, Felipe, Wingfield, Michael J., and Paap, Trudy

Subjects

*FUSARIOSIS, *WILT diseases, *URBAN plants, *NUCLEOTIDE sequence, *CITIES & towns

Abstract

Canary Island date palm, Phoenix canariensis, is a popular ornamental species commonly planted in urban areas worldwide, including South Africa. In November 2023, symptoms typical of Fusarium wilt were detected on ornamental palms at the Waterfront in Cape Town, Western Cape Province, South Africa. Samples were collected from three wilting palms with one‐sided frond death and pink sporulation on the bark. Isolations to culture media yielded two fungal species, which were confirmed based on DNA sequence data as Fusarium oxysporum f.sp. canariensis (Foc) and Nalanthamala vermoesenii. Fusarium wilt, caused by Foc, is among the most serious diseases of these palms. There is no effective treatment for this vascular wilt disease and infected palms inevitably die. Pink rot, caused by N. vermoesenii, is commonly found as a secondary infection associated with Fusarium wilt in P. canariensis. This is the first detection of the Fusarium wilt and pink rot pathogens in South Africa. [ABSTRACT FROM AUTHOR]

Published

2024

3. High-resolution melting curve analysis: A detection assay for Ceratocystis eucalypticola and C. manginecans in infected Eucalyptus.

Author

Lynn, Kira M.T., Wingfield, Michael J., Hammerbacher, Almuth, and Barnes, Irene

Subjects

*FUNGAL DNA, *FUNGAL cultures, *WOOD, *MATERIAL culture, *SPECIES, *EUCALYPTUS

Abstract

Eucalyptus spp. in plantations are negatively affected by canker and wilt diseases caused by several species of Ceratocystis , particularly those in the Latin American Clade (LAC). Ceratocystis eucalypticola and Ceratocystis manginecans are of particular concern where disease epidemics are reported globally, with recent outbreaks emerging in South African and Indonesian Eucalyptus plantations. Consequently, a rapid screening protocol is required for these pathogens. In this study, a high-resolution melting curve analysis (HRMA) was developed to detect C. eucalypticola and C. manginecans that bypasses time-consuming isolation and post-PCR procedures. Primers targeting a 172 bp region of the cerato-platanin (CP) gene were designed. Using these primers, the accuracy of HRMA to detect and distinguish between these two LAC species was assessed using pure fungal DNA, and DNA extracted directly from Eucalyptus samples naturally infected with C. eucalypticola. The assay accurately detected the presence of C. eucalypticola and C. manginecans and quantifies their DNA, both from cultures, and directly from wood samples. HRMA further differentiated these two species from all other tested LAC individuals. This assay was also able to detect the presence of all the tested LAC species and distinguish seven of these, including C. fimbriata, to species level. Ceratocystis polyconidia was the only non-LAC off-target species detected. Based on these results, the developed assay can be used to rapidly identify C. eucalypticola and C. manginecans directly from infected plant material or fungal cultures, with the potential to also screen for several other LAC species. • Rapid diagnostic assay to detect and differentiate C. eucalypticola and C. manginecans in the form of a qPCR-HRMA assay. • The assay can identify C. eucalypticola and C. manginecans from fungal cultures or directly from infected plant material. • The assay shows the potential to be used for other species in the LAC. [ABSTRACT FROM AUTHOR]

Published

2024

4. Diversity of Calonectria species from leaves and soils in diseased southern China Eucalyptus plantation.

Author

Liu, QianLi, Wingfield, Michael J., Duong, Tuan A., Wingfield, Brenda D., and Chen, ShuaiFei

Subjects

*ELONGATION factors (Biochemistry), *FUNGI classification, *RNA polymerases, *SPECIES distribution, *PLANT diseases, *EUCALYPTUS

Abstract

Calonectria leaf blight (CLB) is one of the best-known diseases of Eucalyptus spp., particularly in Asia and South America. Recently, typical symptoms of leaf and shoot blight caused by Calonectria spp. Were observed in a Eucalyptus plantation in the YunNan Province of southwestern China. Isolations were made from diseased leaves and top soil collected below the diseased trees to determine the causal agent of the disease and to consider the distribution characteristics of the Calonectria species. This resulted in 417 isolates, of which 228 were from leaves and 189 were from soil. Based on comparisons of DNA sequences for the act (actin), cmdA (calmodulin), his3 (histone H3), rpb2 (the second largest subunit of RNA polymerase), tef1 (translation elongation factor 1-alpha) and tub2 (β-tubulin) gene regions, as well as morphological characteristics, 11 Calonectria species were identified. These included Calonectria aciculata (0.7 %), Ca. colhounii (1.2 %), Ca. eucalypti (10.6 %) and Ca. honghensis (43.2 %) in the Ca. colhounii species complex, and Ca. aconidialis (15.3 %), Ca. asiatica (9.8 %), Ca. hongkongensis (1.0 %), Ca. ilicicola (6.0 %), Ca. kyotensis (0.5 %), and Ca. yunnanensis (11.3 %) in the Ca. kyotensis species complex. In addition, a novel species, accounting for 0.5 % of the isolates, was discovered and is described here as Ca. dianii sp. nov. in the Ca colhounii species complex. Most (99.1 %) of the isolates collected from the leaves resided in the Ca. colhounii species complex and a majority (95.8 %) of those from the soils were in Ca. kyotensis species complex. These results suggest that Calonectria spp. in the Ca. colhounii species complex infecting leaves might be adapted to that niche and that those in the Ca. kyotensis species complex are better adapted to a soil habitat. Calonectria leaf blight (CLB) is one of the best-known diseases of Eucalyptus spp., particularly in Asia and South America. A large number of Calonectria isolates were obtained from diseased leaves and soil samples collected from below the infected Eucalyptus trees in one plantation in China. A rich Calonectria diversity in the sampled Eucalyptus plantation were revealed. There were clear differences in species diversity and distribution relating to either the leaf or soil environments where they were found. It is becoming increasingly apparent that some species are predominantly soil inhabitants and different to those that cause plant diseases. [ABSTRACT FROM AUTHOR]

Published

2024

5. First report of phyllode rust on Acacia crassicarpa outside its native range.

Author

Wingfield, Michael J., Marincowitz, Seonju, Barnes, Irene, Tarigan, Marthin, Solís, Myriam, Durán, Alvaro, and Pham, Nam Q.

Subjects

*ACACIA, *DNA sequencing, *RUST diseases

Abstract

Acacia crassicarpa is a tropical tree species native to Australia, West Papua and Papua New Guinea, which has been widely used to establish plantations in the lowland humid tropics of Sumatra and Kalimantan. These trees, able to grow on sites having relatively poor nutrition, have been relatively free of serious disease problems. A rust disease infecting the phyllodes of A. crassicarpa has recently been encountered in plantations in various areas of Indonesia and Malaysia where they are not native. In this study, the rust was collected and identified as Endoraecium violae‐faustiae using DNA sequence analysis based on the internal transcribed spacer (ITS) region of the rDNA. This is the first record of the rust outside its native range. Damage at present appears to be relatively mild but the pathogen could become important in the future. [ABSTRACT FROM AUTHOR]

Published

2023

6. Quambalaria eucalypti found on Eucalyptus in Indonesia.

Author

Tarigan, Marthin, Wingfield, Michael J., Marpaung, Yosep M. A. N., Durán, Alvaro, and Pham, Nam Q.

Subjects

*EUCALYPTUS, *DNA sequencing, *DISEASE outbreaks

Abstract

The Eucalyptus plantation industry in Indonesia has expanded rapidly during the last few decades. During routine nursery disease surveys, symptoms of a leaf and shoot blight disease were detected on Eucalyptus mother plants. Isolates were obtained from symptomatic tissues and identified using DNA sequence analyses. Phylogenetic analyses showed that the isolates were those of Quambalaria eucalypti. Pathogenicity tests were conducted with isolates of Q. eucalypti on clones of E. pellita and E. grandis × E. pellita hybrids. These resulted in symptoms similar to those observed on naturally infected plants. Eucalyptus genotypes tested showed variation in their susceptibility, highlighting the potential to select and breed for resistance and thus to manage future outbreaks of the disease. This is the first report of the pathogen in Indonesia as well as in Southeast Asia. [ABSTRACT FROM AUTHOR]

Published

2023

7. Structure and number of mating pheromone genes is closely linked to sexual reproductive strategy in Huntiella.

Author

Wilson, Andi M., Wingfield, Michael J., and Wingfield, Brenda D.

Subjects

*COMPARATIVE genomics, *PHEROMONE traps, *PHEROMONES, *PHYTOPATHOGENIC microorganisms, *GENES, *PEPTIDES, *SAPROPHYTES

Abstract

Background: Huntiella resides in the Ceratocystidaceae, a family of fungi that accommodates important plant pathogens and insect-associated saprotrophs. Species in the genus have either heterothallic or unisexual (a form of homothallism) mating systems, providing an opportunity to investigate the genetic mechanisms that enable transitions between reproductive strategies in related species. Two newly sequenced Huntiella genomes are introduced in this study and comparative genomics and transcriptomics tools are used to investigate the differences between heterothallism and unisexuality across the genus. Results: Heterothallic species harbored up to seven copies of the a-factor pheromone, each of which possessed numerous mature peptide repeats. In comparison, unisexual Huntiella species had only two or three copies of this gene, each with fewer repeats. Similarly, while the heterothallic species expressed up to 12 copies of the mature α-factor pheromone, unisexual species had up to six copies. These significant differences imply that unisexual Huntiella species do not rely on a mating partner recognition system in the same way that heterothallic fungi do. Conclusion: While it is suspected that mating type-independent pheromone expression is the mechanism allowing for unisexual reproduction in Huntiella species, our results suggest that the transition to unisexuality may also have been associated with changes in the genes governing the pheromone pathway. While these results are specifically related to Huntiella, they provide clues leading to a better understanding of sexual reproduction and the fluidity of mating strategies in fungi more broadly. [ABSTRACT FROM AUTHOR]

Published

2023

8. High diversity and clonality are hallmarks of Fusarium circinatum in South Africa.

Author

Fru, Felix F., Wingfield, Michael J., Roux, Jolanda, and Steenkamp, Emma T.

Subjects

*POPULATION genetics, *MICROSATELLITE repeats, *GENETIC variation, *PLANTATIONS, *AGGRESSIVE driving, *LINKAGE disequilibrium, *CANKER (Plant disease)

Abstract

Pitch canker on plantation‐grown Pinus species, caused by the fungal pathogen Fusarium circinatum, first appeared in the western and southern Cape regions of South Africa. However, outbreaks have subsequently been reported from the major plantation growing regions of KwaZulu‐Natal and Limpopo in the eastern, summer rainfall regions of the country. It is more than 10 years since the last detailed population genetics studies on F. circinatum in the region were conducted. To shed light on the population biology of F. circinatum in this region of South Africa, we used microsatellite markers and mating‐type assays to study a collection of 296 isolates from different nurseries and plantation sites. Our results showed that populations in the region are highly diverse, but strongly interconnected, with various genotypes shared across nursery and plantation collection sites. In contrast to nursery populations, those associated with pitch canker outbreaks were characterized by the presence of relatively small numbers of dominant genotypes that were generally widespread across the region. Opposite mating‐type individuals occurred in most of the isolate collections, but multilocus linkage disequilibrium analyses pointed towards clonality being the main reproductive mode of F. circinatum in the region. Most of the pathogen's genetic variation could probably have resulted from multiple different introductions into the country and more specifically, into the summer rainfall region. Because the spread and establishment of invasive pathogens are typically driven by aggressive clones, the results of this study provide important considerations for current and future Pinus disease management strategies. [ABSTRACT FROM AUTHOR]

Published

2023

9. Cypress canker: An important disease discovered for the first time on a native South African tree.

Author

Wingfield, Michael J., Marincowitz, Seonju, Pham, Nam Q., Roets, Francois, Paap, Trudy, Wingfield, Brenda D., and Aylward, Janneke

Subjects

*CYPRESS, *INTRODUCED species, *BIOLOGICAL classification, *TREES, *CUPRESSACEAE

Abstract

Cypress canker is a branch and stem canker disease of Cupressaceae trees, particularly those in the genera Cupressus and Hesperocyparis. These trees have been planted in many parts of the world as ornamentals and the Seiridium species that cause the disease, consequently, also have an almost global distribution. The taxonomy of Seiridium species causing cypress canker has recently been revised and numerous species are now believed to cause the disease. This study describes, for the first time, cypress canker on the native South African Cupressaceae tree, Widdringtonia nodiflora. The aim was to identify the causal agent and confirm its pathogenicity. Phylogenetic analyses of sequence data for four regions identified the fungus as Seiridium neocupressi, a species previously known only from Australia, New Zealand and Italy. Field inoculations of W. nodiflora branches resulted in distinct cankers within 6 weeks and the fungus could be reisolated from the treated trees. Cypress canker has been known in South Africa for many decades, where it causes a serious disease on nonnative species of Cupressus, but it has never been found on native Cupressaceae. The newly discovered disease caused by a probable alien pathogen is of particular concern because only three species of Widdringtonia occur in South Africa and are important components of the native flora. The two other species, W. wallichii and W. schwartzii, occur in small endemic and threatened populations. The origin of S. neocupressi in South Africa and the relative susceptibility of the three Widdringtonia species, consequently, requires urgent attention. [ABSTRACT FROM AUTHOR]

Published

2022

10. Diversity and Distribution of Calonectria Species from Plantation and Forest Soils in Fujian Province, China.

Author

Liu, Qianli, Wingfield, Michael J., Duong, Tuan A., Wingfield, Brenda D., and Chen, Shuaifei

Subjects

*FOREST soils, *TREE farms, *SPECIES distribution, *EUCALYPTUS, *CHINA fir, *WOOD-pulp, *RNA polymerases

Abstract

To meet the growing demand for wood and pulp products, Eucalyptus plantations have expanded rapidly during the past two decades, becoming an integral part of the southern China landscape. Leaf blight caused by various Calonectria spp., is a serious threat to these plantations. In order to explore the diversity and distribution of Calonectria spp. in Fujian Province soils, samples were collected in Eucalyptus plantations and adjacent plantings of Cunninghamia lanceolata, Phyllostachys heterocycle and Pinus massoniana as well as in natural forests. Three hundred and fifty-three Calonectria isolates were recovered from soil samples and they were identified based on a comparison of multilocus DNA sequence data for the act (actin), cmdA (calmodulin), his3 (histone H3), rpb2 (the second largest subunit of RNA polymerase), tef1 (translation elongation factor 1-alpha) and tub2 (β-tubulin) gene regions, as well as morphological characteristics. Six known taxa including Calonectria aconidialis, Ca. hongkongensis, Ca. ilicicola, Ca. kyotensis, Ca. pacifica, Ca. pseudoreteaudii and one novel species described here as Ca. minensis sp. nov. were identified. Of these, Ca. aconidialis and Ca. kyotensis were the most prevalent species, and found in eight and seven sites, and four and five forest types, respectively. Calonectria spp. were most abundant in soils from Eucalyptus stands, followed by P. heterocycle and natural forests. Relatively few species were found in the soils associated with Cunninghamia lanceolata and Pinus massoniana. The abundance of known Calonectria spp. suggests that these fungi have been relatively well sampled in Fujian. The results are also consistent with the fact that most Calonectria diseases are found on Angiosperm as opposed to Gymnosperm plants. [ABSTRACT FROM AUTHOR]

Published

2022

11. Calonectria in the age of genes and genomes: Towards understanding an important but relatively unknown group of pathogens.

Author

Li, JieQiong, Wingfield, Michael J., Barnes, Irene, and Chen, ShuaiFei

Subjects

*PLANT germplasm, *PHYTOPATHOGENIC microorganisms, *CROPS, *SOIL pollution, *ORNAMENTAL trees

Abstract

The genus Calonectria includes many aggressive plant pathogens causing diseases on various agricultural crops as well as forestry and ornamental tree species. Some species have been accidentally introduced into new environments via international trade of putatively asymptomatic plant germplasm or contaminated soil, resulting in significant economic losses. This review provides an overview of the taxonomy, population biology, and pathology of Calonectria species, specifically emerging from contemporary studies that have relied on DNA‐based technologies. The growing importance of genomics in future research is highlighted. A life cycle is proposed for Calonectria species, aimed at improving our ability to manage diseases caused by these pathogens. [ABSTRACT FROM AUTHOR]

Published

2022

12. Increased abundance of secreted hydrolytic enzymes and secondary metabolite gene clusters define the genomes of latent plant pathogens in the Botryosphaeriaceae.

Author

Nagel, Jan H., Wingfield, Michael J., and Slippers, Bernard

Subjects

*HYDROLASES, *PHYTOPATHOGENIC microorganisms, *PLANT genomes, *GENE clusters, *BOTRYOSPHAERIACEAE, *LIPASES, *PLANT metabolites, *TOLL-like receptors

Abstract

Background: The Botryosphaeriaceae are important plant pathogens, but also have the ability to establish asymptomatic infections that persist for extended periods in a latent state. In this study, we used comparative genome analyses to shed light on the genetic basis of the interactions of these fungi with their plant hosts. For this purpose, we characterised secreted hydrolytic enzymes, secondary metabolite biosynthetic gene clusters and general trends in genomic architecture using all available Botryosphaeriaceae genomes, and selected Dothideomycetes genomes. Results: The Botryosphaeriaceae genomes were rich in carbohydrate-active enzymes (CAZymes), proteases, lipases and secondary metabolic biosynthetic gene clusters (BGCs) compared to other Dothideomycete genomes. The genomes of Botryosphaeria, Macrophomina, Lasiodiplodia and Neofusicoccum, in particular, had gene expansions of the major constituents of the secretome, notably CAZymes involved in plant cell wall degradation. The Botryosphaeriaceae genomes were shown to have moderate to high GC contents and most had low levels of repetitive DNA. The genomes were not compartmentalized based on gene and repeat densities, but genes of secreted enzymes were slightly more abundant in gene-sparse regions. Conclusion: The abundance of secreted hydrolytic enzymes and secondary metabolite BGCs in the genomes of Botryosphaeria, Macrophomina, Lasiodiplodia, and Neofusicoccum were similar to those in necrotrophic plant pathogens and some endophytes of woody plants. The results provide a foundation for comparative genomic analyses and hypotheses to explore the mechanisms underlying Botryosphaeriaceae host-plant interactions. [ABSTRACT FROM AUTHOR]

Published

2021

13. Novel Fusarium mutualists of two Euwallacea species infesting Acacia crassicarpa in Indonesia.

Author

Lynn, Kira M. T., Wingfield, Michael J., Durán, Alvaro, Oliveira, Leonardo S. S., de Beer, Z. Wilhelm, and Barnes, Irene

Subjects

*FUSARIUM, *CYTOCHROME oxidase, *FUSARIUM solani, *ACACIA, *SPECIES

Abstract

Several species in the Euwallacea fornicatus complex have emerged as important pests of woody plants globally, particularly in habitats where they are invasive aliens. These beetles live in obligate symbioses with fungi in the genus Fusarium. In this study, we identified Euwallacea spp. and their fungal mutualists that have emerged as pests of planted Acacia crassicarpa in Riau, Indonesia. Morphological identification and phylogenetic analyses of the mitochondrial cytochrome oxidase c subunit I (COI) gene confirmed that E. similis and E. perbrevis are the most abundant beetles infesting these trees. Multilocus phylogenetic analyses of their fungal mutualists revealed their nonspecific association with six Fusarium species. These included F. rekanum and five novel Fusarium mutualists within the Fusarium solani species complex (FSSC), four of which reside in the Ambrosia Fusarium Clade (AFC). These new species are described here as F. akasia, F. awan, F. mekan, F. variasi, and F. warna. [ABSTRACT FROM AUTHOR]

Published

2021

14. Foliar fungi of the enigmatic desert plant Welwitschia mirabilis show little adaptation to their unique host plant.

Author

Kemler, Martin, Wingfield, Michael J., Cowan, Don A., and Slippers, Bernard

Subjects

*FUNGAL communities, *DESERT plants, *HOST plants, *FUNGI, *PLANT habitats, *ALTERNARIA, *ENDOPHYTIC fungi

Abstract

Foliar fungi, especially endophytic fungi, constitute an important part of the microbiome of plants. Yet little is known about the composition of these communities. In this study, we isolated fungi from leaf tissues of the desert plant Welwitschia mirabilis to determine the culturable diversity of the foliar fungal community. The isolated fungal taxa, which grouped into 17 distinct lineages, were identified by sequencing elongation factor 1 alpha, beta-tubulin 1, beta-tubulin 2 and the internal transcribed spacer region. The culturable community was mainly composed of cosmopolitan fungal genera despite the unique taxonomic position of the plant and its geographic isolation. To test for endemism in two of the common fungal genera, Alternaria and Aureobasidium, we built haplotype networks using a global data set. Even this broad data set showed little evidence for specialisation within this unique host or its geographical location. The data suggest that the culturable members of communities of leaf-associated fungi in habitats with little plant coverage, such as the Namib Desert, are mainly established by long-distance aerially distributed fungal inocula and few of these taxa co-evolve with the host within the habitat. [ABSTRACT FROM AUTHOR]

Published

2021

15. Phytophthora Species Associated with Roots of Native and Non-native Trees in Natural and Managed Forests.

Author

Bose, Tanay, Wingfield, Michael J., Roux, Jolanda, Vivas, Maria, and Burgess, Treena I.

Subjects

*EUCALYPTUS, *SOILBORNE plant diseases, *SPECIES, *PLANT diversity, *PHYTOPHTHORA, *SPECIES diversity

Abstract

Roots act as a biological filter that exclusively allows only a portion of the soil-associated microbial diversity to infect the plant. This microbial diversity includes organisms both beneficial and detrimental to plants. Phytophthora species are among the most important groups of detrimental microbes that cause various soil-borne plant diseases. We used a metabarcoding approach with Phytophthora-specific primers to compare the diversity and richness of Phytophthora species associated with roots of native and non-native trees, using different types of soil inocula collected from native and managed forests. Specifically, we analysed (1) roots of two non-native tree species (Eucalyptus grandis and Acacia mearnsii) and native trees, (2) roots of two non-native tree species from an in vivo plant baiting trial, (3) roots collected from the field versus those from the baiting trial, and (4) roots and soil samples collected from the field. The origin of the soil and the interaction between root and soil significantly influenced Phytophthora species richness. Moreover, species richness and community composition were significantly different between the field root samples and field soil samples with a higher number of Phytophthora species in the soil than in the roots. The results also revealed a substantial and previously undetected diversity of Phytophthora species from South Africa. [ABSTRACT FROM AUTHOR]

Published

2021

16. Lessons from a major pest invasion: The polyphagous shot hole borer in South Africa.

Author

Paap, Trudy, Wingfield, Michael J., de Beer, Z. Wilhelm, and Roets, Francois

Subjects

*BIOLOGICAL invasions, *PESTS, *PLANT invasions, *EMERGING infectious diseases, *INTRODUCED species, *URBAN forestry, *FORESTS & forestry, *TREE felling

Abstract

The article offers information on arrival and establishment of invasive forest pests can cause devastating environmental damage and great economic impact. Topics include South Africa is no different from other countries and is experiencing an increasing rate of introductions of damaging forest pests, and the invasions are largely unintentional and are a by-product of globalisation and increasing global trade.

Published

2020

17. Tree health in South Africa: Retrospect and prospect.

Author

Wingfield, Michael J., Hurley, Brett, Wingfield, Brenda, and Slippers, Bernard

Subjects

*FORESTS & forestry, *TREE farms, *EUCALYPTUS, *RANGE management, *INTRODUCED species, *FOREST insects

Abstract

South Africa is a country with very limited natural forest cover. Consequently, the timber and fibre needs of the country cannot be provided for from indigenous forest. It is largely for this reason that South Africa initially developed a highly productive plantation forest industry, which today makes a substantial contribution to the local economy. These plantations are based on non-native species of Eucalyptus, Pinus and Australian Acacia. In the early years of establishment, South African plantations were relatively free of pest and pathogen problems. But, over time, an increasing number of insects, fungi and bacteria have emerged as serious threats to the sustainability of the forestry industry. Numerous native pests and pathogens, especially insects, have adapted to these introduced tree species to cause damage or disease. The problem is compounded by the accidental introduction of non-native pests and pathogens, and this has been at a rapidly increasing rate over the past three decades. Some of these introduced pests and pathogens also threaten the fitness and even the survival of many indigenous South African tree species. Fortunately, South Africa has developed an impressive knowledge base and range of integrated management options to deal with these problems. This development was first driven by government programmes, and in more recent years by public-private partnerships between industry, universities and government. It is clear from the pattern of emergence of pests and pathogens in recent years that South Africa will deal with an increasing number of these problems and a continuously changing tree health environment. This requires robust investment in both quarantine and mitigation mechanisms to protect the country's biodiversity as well as to ensure the sustainability of its wood and fibre industries. Significance: • This review about tree health in South Africa was in part inspired by the 2020 International Year of Plant Health. Plant health, and particularly tree health, is an important topic in regard to the sustainability of our forestry industry and conservation of our native forests. South Africa has been a leader in the field and this review highlights some of the achievements that researchers in the country, both past and present, have attained. [ABSTRACT FROM AUTHOR]

Published

2020

18. Harmonising the fields of invasion science and forest pathology.

Author

Paap, Trudy, Wingfield, Michael J., Burgess, Treena I., Hulbert, Joseph M., and Santini, Alberto

Subjects

*BIOLOGICAL invasions, *FORESTS & forestry, *MICROBIAL ecology, *SCIENTIFIC literature, *GLOBAL environmental change, *INTRODUCED species, *NANOTECHNOLOGY

Abstract

Invasive alien species are widely recognised as significant drivers of global environmental change, with far reaching ecological and socio-economic impacts. The trend of continuous increases in first records, with no apparent sign of saturation, is consistent across all taxonomic groups. However, taxonomic biases exist in the extent to which invasion processes have been studied. Invasive forest pathogens have caused, and they continue to result in dramatic damage to natural forests and woody ecosystems, yet their impacts are substantially underrepresented in the invasion science literature. Conversely, most studies of forest pathogens have been undertaken in the absence of a connection to the frameworks developed and used to study biological invasions. We believe this is, in part, a consequence of the mechanistic approach of the discipline of forest pathology; one that has been inherited from the broader discipline of plant pathology. Rather than investigating the origins of, and the processes driving the arrival of invasive microorganisms, the focus of pathologists is generally to investigate specific interactions between hosts and pathogens, with an emphasis on controlling the resulting disease problems. In contrast, central to the field of invasion science, which finds its roots in ecology, is the development and testing of general concepts and frameworks. The lack of knowledge of microbial biodiversity and ecology, speciation and geographic origin present challenges in understanding invasive forest pathogens under existing frameworks, and there is a need to address this shortfall. Advances in molecular technologies such as gene and genome sequencing and metagenomics studies have increased the "visibility" of microorganisms. We consider whether these technologies are being adequately applied to address the gaps between forest pathology and invasion science. We also interrogate the extent to which the two fields stand to gain by becoming more closely linked. [ABSTRACT FROM AUTHOR]

Published

2020

19. 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

20. Lecanosticta acicola: A growing threat to expanding global pine forests and plantations.

Author

van der Nest, Ariska, Wingfield, Michael J., Janoušek, Josef, and Barnes, Irene

Subjects

*TREE farms, *STUNTED growth, *PINE needles, *PINE, *TREE growth, *PINEWOOD nematode, *PLANTATIONS

Abstract

Summary: Lecanosticta acicola causes brown spot needle blight (BSNB) of Pinus species. The pathogen occurs mostly in the Northern Hemisphere but has also been reported in Central America and Colombia. BSNB can lead to stunted growth and tree mortality, and has resulted in severe damage to pine plantations in the past. There have been increasingly frequent new reports of this pathogen in Europe and in North America during the course of the past 10 years. This is despite the fact that quarantine practices and eradication protocols are in place to prevent its spread. Taxonomy: Kingdom Fungi; Phylum Ascomycota; Subphylum Pezizomycotina; Class Dothideomycetes; Subclass Dothideomycetidae; Order Capniodales; Family Mycosphaerellaceae; Genus Lecanosticta. Host range and distribution: Lecanosticta spp. occur on various Pinus species and are found in North America, Central America, South America (Colombia), Europe as well as Asia. Disease symptoms: Small yellow irregular spots appear on the infected pine needles that become brown over time. They can be surrounded by a yellow halo. These characteristic brown spots develop to form narrow brown bands that result in needle death from the tips down to the point of infection. Needles are prematurely shed, leaving bare branches with tufts of new needles at the branch tips. Infection is usually most severe in the lower parts of the trees and progresses upwards into the canopies. Useful websites: The EPPO global database providing information on L. acicola (https://gd.eppo.int/taxon/SCIRAC) Reference genome of L. acicola available on GenBank (https://www.ncbi.nlm.nih.gov/genome/?term=Lecanosticta+acicola) JGI Gold Genome database information sheet of L. acicola sequenced genome (https://gold.jgi.doe.gov/organism?xml:id=Go0047147) [ABSTRACT FROM AUTHOR]

Published

2019

21. 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

22. Musings on mentorship.

Author

Wingfield, Michael J. and Wingfield, Brenda D.

Abstract

The article presents the discussion on mentorship always being a key component of postgraduate student education. Topics include careers of both students and academics benefitting from universities establishing formal, non-bureaucratic structures promoting positive mentorship; and guiding mainly postgraduate students in the broad fields of microbiology and genetics.

Published

2023

23. Inheritance of phenotypic traits in the progeny of a Ceratocystis interspecific cross.

Author

Fourie, Arista, Wingfield, Michael J., Wingfield, Brenda D., van der Nest, Magriet A., Loots, M. Theodor, and Barnes, Irene

Subjects

*CERATOCYSTIS, *WILT diseases, *PHENOTYPES, *CONIDIA, *FUNGAL genetics

Abstract

Ceratocystis fimbriata is a fungal plant pathogen that causes black rot on Ipomoea batatas . Based on inoculation studies on numerous tree species, the pathogen is known to be host specific. The closely related species, Ceratocystis manginecans , causes severe wilt on a broad range of tree hosts, including Mangifera indica , Acacia mangium and other leguminous tree species. The genetic factors underlying the pathogenicity and host specificity of Ceratocystis species have rarely been investigated. In this study, an F 1 population of 70 recombinant progeny from a cross between C. fimbriata and C. manginecans was generated and the inheritance of various phenotypic traits was investigated. Results showed that colony colour, growth rate, asexual spore production and aggressiveness to I. batatas and A. mangium are all quantitative traits with high levels of heritability. However, conidia production and aggressiveness appeared to be regulated by a small number of genes. No correlation could be found between aggressiveness and other phenotypic traits, suggesting that these are inherited independently. This is the first study to consider genetic inheritance of pathogenicity and host specificity in Ceratocystis species and the results will contribute, in future, to the identification of quantitative trait loci and candidate genes associated with the traits investigated. [ABSTRACT FROM AUTHOR]

Published

2018

24. Evolution of the mating types and mating strategies in prominent genera in the Botryosphaeriaceae.

Author

Nagel, Jan H., Wingfield, Michael J., and Slippers, Bernard

Subjects

*BOTRYOSPHAERIACEAE, *FUNGAL evolution, *FUNGI classification, *FUNGAL reproduction, *FUNGAL genomes

Abstract

Little is known regarding mating strategies in the Botryosphaeriaceae . To understand sexual reproduction in this fungal family, the mating type genes of Botryosphaeria dothidea and Macrophomina phaseolina , as well as several species of Diplodia , Lasiodiplodia and Neofusicoccum were characterized from whole genome assemblies. Comparisons between the mating type loci of these fungi showed that the mating type genes are highly variable, but in most cases the organization of these genes is conserved. Of the species considered, nine were homothallic and seven were heterothallic. Mating type gene fragments were discovered flanking the mating type regions, which indicates both ongoing and ancestral recombination occurring within the mating type region. Ancestral reconstruction analysis further indicated that heterothallism is the ancestral state in the Botryosphaeriaceae and this is supported by the presence of mating type gene fragments in homothallic species. The results also show that at least five transitions from heterothallism to homothallism have taken place in the Botryosphaeriaceae . The study provides a foundation for comparison of mating type evolution between Botryosphaeriaceae and other fungi and also provides valuable markers for population biology studies in this family. [ABSTRACT FROM AUTHOR]

Published

2018

25. Commercialisation of entomopathogenic nematodes: should import regulations be revised?

Author

Abate, Birhan A., Wingfield, Michael J., Slippers, Bernard, and Hurley, Brett P.

Subjects

*INSECT nematodes, *ENTOMOPATHOGENIC fungi, *BIOLOGICAL pest control agents, *HETERORHABDITIDAE, *LITERATURE reviews

Abstract

Entomopathogenic nematodes (EPNs) in the families Steinernematidae and Heterorhabditidae are obligate insect pathogens. Their favourable characteristics as biocontrol agents have resulted in some species of EPNs being released globally and widely used for the control of diverse insect pests. In this review, we consider the occurrence of currently described EPN species, including those that have been released globally for commercial purposes. We also discuss the contribution of regulation policies to the global distribution of these species and issues that influence import regulations. Possible non-target effects, the use of commercial versus native EPNs and the possible interaction between these species are considered. Finally, we provide a view as to whether existing policies adequately deal with the risks associated with the global movement of EPNs and we suggest future directions that should be considered for the use of EPNs as biological control agents. [ABSTRACT FROM AUTHOR]

Published

2017

26. Pathogens on the Move: A 100-Year Global Experiment with Planted Eucalypts.

Author

BURGESS, TREENA I. and WINGFIELD, MICHAEL J.

Subjects

*PHYTOPATHOGENIC microorganisms, *EUCALYPTUS diseases & pests, *CRYPHONECTRIACEAE, *HARDWOODS, *BIODIVERSITY

Abstract

Co-evolved plant pathogens play an important role in shaping natural ecosystems. However, plants used in agriculture and forestry have been distributed globally, and their associated pathogens have moved with them. Eucalypts constitute the largest component of global hardwood plantations, and they are increasingly plagued by numerous pathogens, all of which are inconsequential in the native forests. Eucalypts provide a particularly interesting model to study tree diseases because plantations have been established in countries where these trees are exotic but also in Australia adjacent to native eucalypt forests. These situations present opportunities for pathogen movement between the two systems. We present seven different scenarios considering pathogen movement, important disease epidemics, and biosecurity risks, illustrated with examples of well-known eucalypt pathogens and research largely from our laboratories. The overview shows that vigilant biosecurity is required to protect the biodiversity of native forests and the sustainability of eucalypt plantations. [ABSTRACT FROM AUTHOR]

Published

2017

27. A possible centre of diversity in South East Asia for the tree pathogen, Ceratocystis manginecans.

Author

Fourie, Arista, Wingfield, Michael J., Wingfield, Brenda D., Thu, Pham Q., and Barnes, Irene

Subjects

*CANKER (Plant disease), *WILT diseases, *PATHOGENIC fungi, *CERATOCYSTIS, *MANGO diseases, *BIODIVERSITY

Abstract

The fungal pathogen, Ceratocystis manginecans , has caused serious canker and wilt disease on Mangifera indica (mango), on legume tree species in Oman and Pakistan and on Acacia spp. in Indonesia. A Ceratocystis species, with similar morphology to C. manginecans , has recently been reported in Vietnam, causing severe disease of Acacia trees. Previous population genetic studies on isolates from M. indica in Oman and Pakistan have shown that the pathogen represents a single clonal haplotype, indicative of an introduced pathogen. The aim of this study was to investigate the genetic diversity and population structure of 160 C. manginecans isolates, from four host-associated populations from Oman, Pakistan, Indonesia and Vietnam. This was done by applying a combination of 14 previously developed microsatellite markers and a new set, designed in this study from two different C. manginecans genomes. Sequence data confirmed that the isolates in Vietnam are the same species as those in Indonesia and were thus identified as C. manginecans . Unlike the populations in Oman and Pakistan, relatively high levels of genetic variation were found for the isolates from Indonesia and Vietnam. The Vietnam population was significantly differentiated from the other populations and isolates from this area had the highest level of genetic diversity thus far encountered for the pathogen. [ABSTRACT FROM AUTHOR]

Published

2016

28. Multigene phylogenies and morphological characterization of five new Ophiostoma spp. associated with spruce-infesting bark beetles in China.

Author

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

Subjects

*FUNGAL phylogeny, *FUNGAL morphology, *OPHIOSTOMA, *SPRUCE bark beetles, *PATHOGENIC fungi, *TIMBER

Abstract

Ophiostoma spp. (Ophiostomatales, Ascomycota) are well-known fungi associated with bark beetles (Coleoptera: Scolytinae). Some of these are serious tree pathogens, while the majority is blue-stain agents of timber. In recent years, various bark beetle species have been attacking spruce forests in Qinghai province, China, causing significant damage. A preliminary survey was done to explore the diversity of the ophiostomatoid fungal associates of these beetles. The aims of the present study were to identify and characterize new Ophiostoma spp. associated with spruce-infesting bark beetles in Qinghai Province, and to resolve phylogenetic relationships of Ophiostoma spp. related to the Chinese isolates, using multigene phylogenetic analyses. Results obtained from four gene regions (ribosomal internal transcribed spacer regions, β-tubulin, calmodulin, translation elongation factor-1α) revealed five new Ophiostoma spp. from Qinghai. These included O. nitidus sp. nov., O. micans sp. nov., and O. qinghaiense sp. nov. in a newly defined O. piceae complex. The other two new species, O. poligraphi sp. nov. and O. shangrilae sp. nov., grouped in the O. brunneo-ciliatum complex. Based on DNA sequence and morphological comparisons, we also show that O. arduennense and O. torulosum are synonyms of O. distortum , while O. setosum is a synonym of O. cupulatum . [ABSTRACT FROM AUTHOR]

Published

2016

29. A review of factors associated with decline and death of mangroves, with particular reference to fungal pathogens.

Author

Osorio, J. Alexander, Wingfield, Michael J., and Roux, Jolanda

Subjects

*MANGROVE plants, *TREE mortality, *FUNGAL diseases of plants, *INSECT pests

Abstract

Mangrove species grow in bays and estuaries in tropical and subtropical latitudes. Mangrove systems are categorized as highly productive, providing crucial environmental functions. Their stability and survival are, however, constantly threatened by anthropogenic activities and there has been an increase in reports of decline and death of these trees globally. Currently, little is known regarding diseases affecting mangroves, particularly those caused by micro-organisms such as fungi. In recent years several studies of the fungi associated with these trees have been conducted and a number of fungal diseases have been identified. However, few studies have been done in South Africa and little is known regarding the health status of mangroves in the country. This review aims to provide a background for further studies of pathogens affecting true mangroves in South Africa. Furthermore, it aims to contribute toward the development of management plans to ensure mangrove health in the country. [ABSTRACT FROM AUTHOR]

Published

2016

30. Independent origins and incipient speciation among host-associated populations of Thielaviopsis ethacetica in Cameroon.

Author

Mbenoun, Michael, Wingfield, Michael J., Letsoalo, Teboho, Bihon, Wubetu, Wingfield, Brenda D., and Roux, Jolanda

Subjects

*THIELAVIOPSIS, *FUNGAL DNA, *FUNGAL phylogeny, *MICROSATELLITE repeats

Abstract

Thielaviopsis ethacetica was recently reinstated as a distinct taxon using DNA phylogenies. It is widespread affecting several crop plants of global economic importance. In this study, microsatellite markers were developed and used in conjunction with sequence data to investigate the genetic diversity and structure of Th. ethacetica in Cameroon. A collection of 71 isolates from cacao, oil palm, and pineapple, supplemented with nine isolates from other countries were analysed. Four genetic groups were identified. Two of these were associated with oil palm in Cameroon and showed high genetic diversity, suggesting that they might represent an indigenous population of the pathogen. In contrast, the remaining two groups, associated with cacao and pineapple, had low genetic diversity and, most likely, represent introduced populations. There was no evidence of gene flow between these groups. Phylogenetic analyses based on sequences of the tef 1-α as well as the combined flanking regions of six microsatellite loci were consistent with population genetic analyses and suggested that Th. ethacetica is comprised of two divergent genetic lineages. [ABSTRACT FROM AUTHOR]

Published

2015

31. Molecular and morphological characterization of Dothiorella species associated with dieback of Ostrya carpinifolia in Slovenia and Italy.

Author

PAVLIC-ZUPANC, DRAGINJA, WINGFIELD, MICHAEL J., JURC, DUŠAN, PIŠKUR, BARBARA, and SLIPPERS, BERNARD

Subjects

*BOTRYOSPHAERIACEAE, *MACROPHOMINA phaseolina, *DECIDUOUS plants, *MOLECULAR phylogeny, *PLANT morphology

Abstract

Isolates that resemble Dothiorella (Botryosphaeriaceae, Ascomycota) species were isolated from dead twigs, asymptomatic and necrotized bark of European hop hornbeam (Ostrya carpinifolia Scop.), Eurasian smoke tree (Cotinus coggygria Scop.) and common juniper (Juniperus communis L.) growing in western Slovenia and northern Italy. They were identified based on anamorph morphology and phylogenetic analyses of the ITS rDNA and EF-1α sequences, and previously designated as Dothiorella sp. A, B and C. This study has clarified the identity of these species by comparing them with other Dothiorella species known from culture based on gene sequence data, as well as morphological characters of the anamorphs. The phylogenetic results revealed three species, Dothiorella iberica, Dothiorella parva, and a Dothiorella sp. Isolates identified in the phylogenetic analyses as D. parva differed from the original description of this species and are thus described here based on the anamorph morphology. Isolates of D. parva were identified from O. carpinifolia in western Slovenia and northern Italy, and C. coggygria in western Slovenia, and coexist with Dothiorella sp. on O. carpinifolia in northern Italy. Dothiorella iberica was identified on J. communis in western Slovenia, thus expanding the geographic range of this species. This is the first record of D. parva from these hosts and countries. Our results indicate that these Dothiorella species occur widely across the Mediterranean region, and on a variety of hosts. [ABSTRACT FROM AUTHOR]

Published

2015

32. Needles in fungal haystacks: Discovery of a putative a-factor pheromone and a unique mating strategy in the Leotiomycetes.

Author

Wilson, Andi M., Coetzee, Martin P. A., Wingfield, Michael J., and Wingfield, Brenda D.

Subjects

*FUNGAL genetics, *PHEROMONE traps, *PHEROMONES, *MYCORRHIZAL fungi, *ANIMAL sexual behavior, *PHYTOPATHOGENIC microorganisms, *PINE needles

Abstract

The Leotiomycetes is a hugely diverse group of fungi, accommodating a wide variety of important plant and animal pathogens, ericoid mycorrhizal fungi, as well as producers of antibiotics. Despite their importance, the genetics of these fungi remain relatively understudied, particularly as they don't include model taxa. For example, sexual reproduction and the genetic mechanisms that underly this process are poorly understood in the Leotiomycetes. We exploited publicly available genomic and transcriptomic resources to identify genes of the mating-type locus and pheromone response pathway in an effort to characterize the mating strategies and behaviors of 124 Leotiomycete species. Our analyses identified a putative a-factor mating pheromone in these species. This significant finding represents the first identification of this gene in Pezizomycotina species outside of the Sordariomycetes. A unique mating strategy was also discovered in Lachnellula species that appear to have lost the need for the primary MAT1-1-1 protein. Ancestral state reconstruction enabled the identification of numerous transitions between homothallism and heterothallism in the Leotiomycetes and suggests a heterothallic ancestor for this group. This comprehensive catalog of mating-related genes from such a large group of fungi provides a rich resource from which in-depth, functional studies can be conducted in these economically and ecologically important species. [ABSTRACT FROM AUTHOR]

Published

2023

33. New Resinogalea species from Araucaria araucana resin in Chile and reclassification of the genus in the Cryptocaliciomycetidae.

Author

Balocchi, Felipe, Barnes, Irene, Wingfield, Michael J., Ahumada, Rodrigo, and Visagie, Cobus M.

Subjects

*MINICHROMOSOME maintenance proteins, *RNA polymerase II, *RNA polymerases, *SPECIES

Abstract

Araucaria araucana is an ancient conifer, native to the mountain ranges in Chile and Argentina. These trees host a large number of organisms, mainly insects, strongly or even exclusively associated with them. The recent emergence of a novel canker disease on A. araucana has emphasised the importance of fungi associated with these iconic trees and has resulted in the discovery of various new species. In this study, we considered the identity of an unknown calicioid fungus consistently found on resin on the branches of A. araucana. Preliminary phylogenetic analyses placed isolates in the recently described sub-class Cryptocaliciomycetidae, closest to Cryptocalicium blascoi. However, the morphology of the ascomata and its occurrence in a unique niche suggested that the closest relative could be Resinogalea humboldtensis (Bruceomycetaceae, incertae sedis), a fungus with similar sporing structures found on resin of Araucaria humboldtensis in New Caledonia. There are no living cultures or sequence data available for either R. humboldtensis or its supposed closest relative, Bruceomyces castoris, precluding sequence-based comparisons. Morphological comparisons of the sporing structures on A. araucana confirmed that the ascomatal morphology of our unknown calicioid fungus and R. humboldtensis are almost identical and resemble each other more so than B. castoris or Cr. blascoi. A phylogenetic analysis based on the small subunit (SSU), internal transcribed spacer (ITS) and large subunit (LSU) rDNA regions resolved our strains into two clades with Cr. blascoi as its closest relative. Further analyses applying the Genealogical Concordance Phylogenetic Species Recognition (GCPSR) based on ITS, mini chromosome maintenance protein complex (MCM7), RNA polymerase II second largest subunit (RPB2) and translation elongation factor 1-alpha (TEF) gene regions, confirmed that strains represent two new species. Based on our morphological observations and phylogenetic analyses, we introduce two new Resinogalea species, R. araucana and R. tapulicola, and reclassify the genus in the subclass Cryptocaliciomycetidae. [ABSTRACT FROM AUTHOR]

Published

2023

34. Population structure and diversity of an invasive pine needle pathogen reflects anthropogenic activity.

Author

Barnes, Irene, Wingfield, Michael J., Carbone, Ignazio, Kirisits, Thomas, and Wingfield, Brenda D.

Subjects

*PINE needle diseases & pests, *PATHOGENIC microorganisms, *POPULATION genetics, *RED band needle blight, *MYCOSPHAERELLA, *TYPE specimens (Natural history)

Abstract

Abstract: Dothistroma septosporum is a haploid fungal pathogen that causes a serious needle blight disease of pines, particularly as an invasive alien species on Pinus radiata in the Southern Hemisphere. During the course of the last two decades, the pathogen has also incited unexpected epidemics on native and non‐native pine hosts in the Northern Hemisphere. Although the biology and ecology of the pathogen has been well documented, there is a distinct lack of knowledge regarding its movement or genetic diversity in many of the countries where it is found. In this study we determined the global population diversity and structure of 458 isolates of D. septosporum from 14 countries on six continents using microsatellite markers. Populations of the pathogen in the Northern Hemisphere, where pines are native, displayed high genetic diversities and included both mating types. Most of the populations from Europe showed evidence for random mating, little population differentiation and gene flow between countries. Populations in North America (USA) and Asia (Bhutan) were genetically distinct but migration between these continents and Europe was evident. In the Southern Hemisphere, the population structure and diversity of D. septosporum reflected the anthropogenic history of the introduction and establishment of plantation forestry, particularly with Pinus radiata. Three introductory lineages in the Southern Hemisphere were observed. Countries in Africa, that have had the longest history of pine introductions, displayed the greatest diversity in the pathogen population, indicating multiple introductions. More recent introductions have occurred separately in South America and Australasia where the pathogen population is currently reproducing clonally due to the presence of only one mating type. [ABSTRACT FROM AUTHOR]

Published

2014

35. MAT gene idiomorphs suggest a heterothallic sexual cycle in a predominantly asexual and important pine pathogen.

Author

Bihon, Wubetu, Wingfield, Michael J., Slippers, Bernard, Duong, Tuan A., and Wingfield, Brenda D.

Subjects

*HETEROTHALLISM in fungi, *FUNGAL genomes, *SEXUAL cycle, *PHYTOPATHOGENIC fungi, *BOTRYOSPHAERIACEAE, *PINE

Abstract

Highlights: [•] Diplodia pinea might be heterothallic with complete copies of MAT genes. [•] A novel MAT1-2-5 gene in the MAT1-2 idiomorph identified. [•] This finding suggest D. pinea has a cryptic, heterothallic sexual cycle. [•] 1st Description of MAT gene in Botryosphaeriales. [•] Frequencies of both idiomorphs did not differ from 1:1 ratio. [Copyright &y& Elsevier]

Published

2014

36. Diversimorbus metrosiderotis gen. et sp. nov. and three new species of Holocryphia (Cryphonectriaceae) associated with cankers on native Metrosideros angustifolia trees in South Africa.

Author

Chen, ShuaiFei, Wingfield, Michael J., and Roux, Jolanda

Subjects

*METROSIDEROS, *MYRTACEAE, *CANKER (Plant disease), *EUCALYPTUS, *PATHOGENIC microorganisms, *MYRTALES

Abstract

Abstract: The Cryphonectriaceae includes important tree pathogens, especially on the Myrtales. During a routine disease survey in the Western Cape Province of South Africa, a fungus resembling the Eucalyptus pathogen Holocryphia eucalypti was observed on native Metrosideros angustifolia (Myrtales). The aims of this study were to identify the fungus and to expand surveys for fungi in the Cryphonectriaceae on M. angustifolia. Fungi were identified based on DNA sequence comparisons and morphological features, and their pathogenicity was tested on M. angustifolia under field conditions. Based on morphology and multigene phylogenetic analyses of DNA sequence data from six gene regions, we describe a new genus including a single species and three new species of Holocryphia (Cryphonectriaceae) from M. angustifolia. These fungi are provided with the names Diversimorbus metrosiderotis gen. et sp. nov., Holocryphia capensis sp. nov., Holocryphia gleniana sp. nov., and Holocryphia mzansi sp. nov. We also revise H. eucalypti, the type of the genus, to include only isolates from Eucalyptus in South Africa. Research results indicated that H. mzansi may undergo host shifts between different tree genera in the Myrtaceae. Inoculation tests showed that isolates of all the newly described species can cause lesions on the branches of M. angustifolia, indicating that they are all pathogens of this tree. [Copyright &y& Elsevier]

Published

2013

37. Calonectria species associated with diseased leaves and soils in southern China Eucalyptus plantations.

Author

Li, Wenwen, Chen, Shuaifei, Wingfield, Michael J., and Duong, Tuan A.

Subjects

*EUCALYPTUS, *PLANTATIONS, *SPECIES, *TREE diseases & pests, *SOIL sampling

Abstract

Calonectria leaf blight (CLB) is one of the most important diseases of Eucalyptus trees grown in plantations. This disease poses a serious threat to the sustainability of Eucalyptus plantations in southern China. To better understand the causal agents of CLB, we collected samples of diseased leaves and soil from Eucalyptus plantations from nine regions in Guangdong Province where the disease has become a serious problem. A total of 606 Calonectria isolates were purified from the samples, with 399 and 207 originating from diseased leaves and soils, respectively. Phylogenetic analyses utilizing six gene regions resolved 303 isolates in the C. kyotensis species complex and an equal number of isolates in the C. reteaudii species complex. These two complexes were represented by ten known Calonectria species, including C. aconidialis (12.0%), C. curvispora (0.3%), C. hongkongensis (24.8%), C. ilicicola (0.9%), and C. kyotensis (12.0%) in the C. kyotensis species complex, and C. crousiana (1.0%), C. Guangdongensis (0.3%), C. pseudoreteaudii (40.7%), C. queenslandica (7.3%), and C. reteaudii (0.7%) in the C. reteaudii species complex. Pathogenicity tests showed that all species were capable of causing disease on two tested Eucalyptus genotypes, albeit at varying degrees of aggressiveness. Most isolates (98.3%) in the C. reteaudii species complex were from the diseased leaves, indicating that species in this complex are the main causal agents of CLB outbreak. In addition, a significant number of the C. kyotensis species complex isolates (66.7%) from the soil samples could also cause the disease on Eucalyptus leaves. [ABSTRACT FROM AUTHOR]

Published

2023

38. Diversity in Eucalyptus susceptibility to the gall-forming wasp Leptocybe invasa.

Author

Dittrich-Schröder, Gudrun, Wingfield, Michael J., Hurley, Brett P., and Slippers, Bernard

Subjects

*EUCALYPTUS, *WASPS, *EULOPHIDAE, *HYMENOPTERA, *FOREST insects, *PETIOLES

Abstract

Extensive variation to damage by the invasive gall-forming wasp Leptocybe invasa Fisher & LaSalle (Hymenoptera: Eulophidae) is known to exist amongst Eucalyptus genotypes., In the present study, 30 of the 50 tested genotypes were susceptible to gall formation and development of the wasp. Gall development on the petiole and leaves of plants was compared to calculate the percentage of infestation per plant and per genotype., A positive correlation between galls on petioles and leaves indicated an absence of specificity at this level, and also that either leaves or petioles could be used to obtain an accurate estimate of the level of infestation., Genotypes of E. nitens× E. grandis and E. grandis× E. camaldulensis were most susceptible, with a maximum damage index value for leaves and petioles of 0.52 and 0.39, respectively. Eucalyptus dunii, E. nitens, E. smithii, E. urophylla and E. saligna× E. urophylla showed little or no infestation., The results obtained in the present study suggest that the selection and planting of resistant/less susceptible genotypes will be an important aid in managing damage from L. invasa invasion. [ABSTRACT FROM AUTHOR]

Published

2012

39. One fungus, one name promotes progressive plant pathology.

Author

WINGFIELD, MICHAEL J., DE BEER, Z. WILHELM, SLIPPERS, BERNARD, WINGFIELD, BRENDA D., GROENEWALD, JOHANNES Z., LOMBARD, LORENZO, and CROUS, PEDRO W.

Subjects

*PLANT-fungus relationships, *DIAGNOSIS of plant diseases, *PLANT genomes, *NUCLEOTIDE sequence, *FOOD security, *PLANT health, *FUNGI classification

Abstract

SUMMARY The robust and reliable identification of fungi underpins virtually every element of plant pathology, from disease diagnosis to studies of biology, management/control, quarantine and, even more recently, comparative genomics. Most plant diseases are caused by fungi, typically pleomorphic organisms, for which the taxonomy and, in particular, a dual nomenclature system have frustrated and confused practitioners of plant pathology. The emergence of DNA sequencing has revealed cryptic taxa and revolutionized our understanding of relationships in the fungi. The impacts on plant pathology at every level are already immense and will continue to grow rapidly as new DNA sequencing technologies continue to emerge. DNA sequence comparisons, used to resolve a dual nomenclature problem for the first time only 19 years ago, have made it possible to approach a natural classification for the fungi and to abandon the confusing dual nomenclature system. The journey to a one fungus, one name taxonomic reality has been long and arduous, but its time has come. This will inevitably have a positive impact on plant pathology, plant pathologists and future students of this hugely important discipline on which the world depends for food security and plant health in general. This contemporary review highlights the problems of a dual nomenclature, especially its impact on plant pathogenic fungi, and charts the road to a one fungus, one name system that is rapidly drawing near. [ABSTRACT FROM AUTHOR]

Published

2012

40. DNA extraction techniques for DNA barcoding of minute gall-inhabiting wasps.

Author

DITTRICH-SCHRÖDER, GUDRUN, WINGFIELD, MICHAEL J., KLEIN, HILDEGARD, and SLIPPERS, BERNARD

Subjects

*HYMENOPTERA, *LARVAE, *AGAROSE, *EUCALYPTUS, *PARASITOIDS

Abstract

DNA extraction from minute hymenopterans and their larvae is difficult and challenging because of their small size indicating a low amount of starting material. Hence, 11 DNA extraction methods were compared to determine their efficacy in isolating DNA. Success of each method was scored on a 2% agarose gel after PCR of the cox 1 mitochondrial locus. A silica-membrane-based approach was the most successful, followed by a method using a combination of incubation buffers and a method using magnetic beads. The method using buffers was the most cost- and time effective. Using this method, larvae from Eucalyptus seed capsule galls could be assigned a role (parasitoid, gall former or inquiline) in the gall-inhabiting complex. [ABSTRACT FROM AUTHOR]

Published

2012

41. Do novel genotypes drive the success of an invasive bark beetle-fungus complex? Implications for potential reinvasion.

Author

Min Lu, Wingfield, Michael J., Nancy Gillette, and Jiang-Hua Sun

Subjects

*FUNGAL genetics, *GENOTYPE-environment interaction, *BIOLOGICAL invasions, *LEPTOGRAPHIUM, *RED turpentine beetle, *ANALYSIS of variance, *CHEMICAL ecology

Abstract

Novel genotypes often arise during biological invasions, but their role in invasion success has rarely been elucidated. Here we examined the population genetics and behavior of the fungus, Leptographium procerum, vectored by a highly invasive bark beetle, Dendroctonus valens, to determine whether genetic changes in the fungus contributed to the invasive success of the beetle-fungal complex in China. The fungus was introduced by the beetle from the United States to China, where we identified several novel genotypes using microsatellite markers. These novel genotypes were more pathogenic to Chinese host seedlings than were other genotypes and they also induced the release of higher amounts of 3-carene, the primary host attractant for the beetle vector, from inoculated seedlings. This evidence suggests a possible mechanism, based on the evolution of a novel genotype during the two or three decades since its introduction, for the success of the beetle-fungal complex in its introduced region. [ABSTRACT FROM AUTHOR]

Published

2011

42. Insect pests and pathogens of Australian acacias grown as non-natives - an experiment in biogeography with far-reaching consequences.

Author

Wingfield, Michael J., Roux, Jolanda, and Wingfield, Brenda D.

Subjects

*INSECT pests, *ACACIA, *PHYTOPATHOGENIC microorganisms, *BIOGEOGRAPHY, *PLANTATIONS, *HOSTS (Biology), *BIOLOGICAL pest control

Abstract

Aims To highlight the increasing importance of pests and pathogens to Australian Acacia species, where they are planted as non-natives in commercial plantations and in their native environment. Location Africa, Asia, Australia, South America. Methods Existing literature and results of unpublished surveys on pests and pathogens of Australian acacias are reviewed. These are discussed within the context of a growing importance of invasive alien insects and pathogens including novel encounters and host jumps. Results Australian acacias planted as non-natives in various parts of the world are increasingly threatened by pests and pathogens. These include those that are accidentally being introduced into the new environments as well as 'new encounter' pests and pathogens that are undergoing host shifts to infect non-native acacias. Furthermore, insects and pathogens for biological control of invasive Australian acacias present substantial challenges for plantation forestry. Main conclusions Pests and pathogens will seriously challenge plantation forestry based on non-native Australian acacias. In the longer term, new encounter pests and pathogens will also threaten these trees in their native environments. [ABSTRACT FROM AUTHOR]

Published

2011

43. Mites are the most common vectors of the fungus Gondwanamyces proteae in Protea infructescences

Author

Roets, Francois, Wingfield, Michael J., Wingfield, Brenda D., and Dreyer, Leanne L.

Subjects

*INSECTS as carriers of plant disease, *MITES, *PROTEA, *ASCOSPORES, *FRUIT development, *INSECT-plant relationships, *TARSONEMUS, *BEETLES

Abstract

Abstract: Entomochoric spore dispersal is well-documented for most ophiostomatoid fungal genera, most of which are associated with bark or ambrosia beetles. Gondwanamyces spp. are unusual members of this group that were first discovered in the flower heads of the primitive angiosperm genus Protea, that is mostly restricted to the Cape Floristic region of Africa. In this study, we present the discovery of the vectors of Gondwanamyces proteae in Protea repens infructescences, which were identified using PCR, direct isolation, and light microscopy. Gondwanamyces proteae DNA and ascospores were identified on diverse lineages of arthropods including beetles (Euderes lineicolis and Genuchus hottentottus), bugs (Oxycarenus maculates), a psocopteran species and five mite (Acari) species. Based on isolation frequency, however, a mite species in the genus Trichouropoda appears to be the most common vector of G. proteae. Gondwanamyces spores were frequently observed within pit mycangia at the base of the legs of these mites. Manipulative experiments demonstrated the ability of mites to carry viable G. proteae spores whilst in transit on the beetle G. hottentottus and that these mites are able to transfer G. proteae spores to uncolonised substrates in vitro. Interestingly, this same mite species has also been implicated as vector of Ophiostoma spores on P. repens and belongs to the same genus of mites that vector Ophiostoma spp. associated with pine-infesting bark beetles in the Northern Hemisphere. [Copyright &y& Elsevier]

Published

2011

44. The Role of Phytopathogenicity in Bark Beetle-Fungus Symbioses: A Challenge to the Classic Paradigm.

Author

Six, Diana L. and Wingfield, Michael J.

Subjects

*PHYTOPATHOGENIC fungi, *BARK beetles, *HOSTS (Biology), *SYMBIOSIS, *BEETLES

Abstract

The idea that phytopathogenic fungi associated with tree-killing bark beetles are critical for overwhelming tree defenses and incurring host tree mortality, herein called the classic paradigm (CP), has driven research on bark beetle-fungus symbiosis for decades. It has also strongly influenced our views of bark beetle ecology. We discuss fundamental flaws in the CP, including the lack of consistency of virulent fungal associates with tree-killing bark beetles, the lack of correspondence between fungal growth in the host tree and the development of symptoms associated with a successful attack, and the ubiquity of similar associations of fungi with bark beetles that do not kill trees. We suggest that, rather than playing a supporting role for the host beetle (tree killing), phytopathogenicity performs an important role for the fungi. In particular, phytopathogenicity may mediate competitive interactions among fungi and support survival and efficient resource capture in living, defensive trees. [ABSTRACT FROM AUTHOR]

Published

2011

45. Complex interactions among host pines and fungi vectored by an invasive bark beetle.

Author

Min Lu, Wingfield, Michael J., Gillette, Nancy E., Mori, Sylvia R., and Jiang-Hua Sun

Subjects

*PLANT-fungus relationships, *INSECT-fungus relationships, *BARK beetles, *HOST-parasite relationships, *INTRODUCED species, *CHEMICAL ecology, *PLANT inoculation, *LEPTOGRAPHIUM, *RED turpentine beetle

Abstract

•Recent studies have investigated the relationships between pairs or groups of exotic species to illustrate invasive mechanisms, but most have focused on interactions at a single trophic level. •Here, we conducted pathogenicity tests, analyses of host volatiles and fungal growth tests to elucidate an intricate network of interactions between the host tree, the invasive red turpentine beetle and its fungal associates. •Seedlings inoculated with two strains of Leptographium procerum isolated from Dendroctonus valens in China had significantly longer lesions and higher mortality rates than seedlings inoculated with other fungal isolates. These two strains of L. procerum were significantly more tolerant of 3-carene than all other fungi isolated there, and the infection of Chinese pine ( Pinus tabuliformis) seedlings by these two strains enhanced the production and release of 3-carene, the main attractant for D. valens, by the seedlings. •Our results raise the possibility that interactions among the fungal associates of D. valens and their pine hosts in China may confer advantages to these strains of L. procerum and, by extension, to the beetles themselves. These interactions may therefore enhance invasion by the beetle–fungal complex. [ABSTRACT FROM AUTHOR]

Published

2010

46. Seven new species of the Botryosphaeriaceae from baobab and other native trees in Western Australia.

Author

Pavlic, Draginja, Wingfield, Michael J., Barber, Paul, Slippers, Bernard, St. J. Hardy, Giles E., and Burgess, Treena I.

Subjects

*SPECIES, *BOTRYOSPHAERIACEAE, *ADANSONIA digitata

Abstract

In this study seven new species of the Botryosphaeriaceae are described from baobab (Adansonia gibbosa) and surrounding endemic tree species growing in the Kimberley region of northwestern Australia. Members of the Botryosphaeriaceae were predominantly endophytes isolated from apparently healthy sapwood and bark of endemic trees; others were isolated from dying branches. Phylogenetic analyses of ITS and EF1-α sequence data revealed seven new species: Dothiorella longicollis, Fusicoccum ramosum, Lasiodiplodia margaritacea, Neoscytalidium novaehollandiae, Pseudofusicoccum adansoniae, P. ardesiacum and P. kimberleyense. [ABSTRACT FROM AUTHOR]

Published

2008

47. The Southern African Society for Plant Pathology: 1962-2020.

Author

Wingfield, Michael J. and Coutinho, Teresa A.

Subjects

*PLANT diseases, *BOTANY, *PHYTOPATHOGENIC microorganisms, *INDUSTRIAL microbiology, *SARS-CoV-2

Abstract

The article offers information on the Southern African Society for Plant Pathology (SASPP) which has drawn together and coordinated the activities of plant pathologists. Topics include the SASPP has contributed substantially to the health of plants that sustain agriculture and forestry and food security, and the microbiology has removed from the name of the plant pathology society known as the South African Society for Plant Pathology (SASPP).

Published

2020

48. A PCR-based method to detect species of Gondwanamyces and Ophiostoma on surfaces of insects colonizing Protea flowers.

Author

Roets, Francois, Wingfield, Michael J., Dreyer, Léanne L., Crous, Pedro W., and Bellstedt, Dirk U.

Subjects

*FYNBOS, *SHRUBLANDS, *PROTEACEAE, *PROTEALES, *FUNGI, *PROTEA, *OPHIOSTOMATACEAE, *OPHIOSTOMA, *MUSHROOMS

Abstract

Flower heads of economically important members of the genus Protea L. mature into conspicuous, often long-lived infructescences, which in South Africa are commonly colonized by species of the ophiostomatoid fungi Gondwanamyces G.J. Marais & M.J. Wingfield and Ophiostoma Syd. & P. Syd. It is suspected that these fungi are transported between infructescences by insects. To develop techniques that would enable detection of ophiostomatoid fungi on insects, primers GPR1 and OSP1 were designed based on unique 28S ribosomal DNA sequences of Gondwanamyces and Ophiostoma from Protea. Multiplex polymerase chain reaction of these primers, combined with universal primer LR6, yielded fragment lengths of 885 and 637 bp. Positive amplification was achieved from as little as 30 and 45 pg of fungal genomic DNA for Gondwanamyces and Ophiostoma, respectively, and fragments of identical lengths were amplified from insects artificially inoculated with these fungi. No other tested fungal species showed amplification with GPR1 or OSP1 and LR6. Using these primers two insect species (Genuchus hottentottus Fabricius and Oxycarenus maculates Stal.) collected from Protea repens L. infructescences were confirmed as carriers of Gondwanamyces proteae (M.J. Wingfield et al.) G.J. Marais & M.J. Wingfield and Ophiostoma splendens G.J. Marais & M.J. Wingfield, respectively. The method developed in this study represents a rapid detection system that can be used to understand the relationship between insects and ophiostomatoid fungi found associated with flowers of South African species of Protea. [ABSTRACT FROM AUTHOR]

Published

2006

49. Two new Ophiostoma species with Sporothrix anamorphs from Austria and Azerbaijan.

Author

Aghayeva, Dilzara N., Wingfield, Michael J., De Beer, Z. Wilhelm, and Kirisits, Thomas

Subjects

*OPHIOSTOMA, *FUNGI, *CONIDIA, *RECOMBINANT DNA, *TUBULINS

Abstract

The genus Ophiostoma includes numerous species of primarily insect-vectored, wood-staining fungi. Several anamorph genera that differ in their micronematous or macronematous conidiogenous cells have been associated with Ophiostoma species. Among the former group, Sporothrix is associated with many species and is characterized by conidiogenous cells that arise laterally or terminally from any place on the hyphae and produce nonseptate conidia on sympodially developing denticles. The purpose of this study was to characterize ophiostomatoid isolates with Sporothrix anamorphs recently collected in Austria and Azerbaijan. The isolates were characterized based on comparisons of rDNA and β-tubulin sequence data. Morphology, growth in culture, and sexual reproductive mode were also considered. Phylogenetic analyses of the combined sequence data showed that the isolates formed two distinct groups, one including isolates from Austria and the other isolates from Austria and Azerbaijan. Growth at 25 C and morphology revealed some differences between the two groups, and supported the view that they represent two new species, which we describe here as Ophiostoma fusiforme sp. nov. and Ophiostoma lunatum sp. nov. Both these groups phylogenetically were related to, but distinct from, Ophiostoma stenoceras. [ABSTRACT FROM AUTHOR]

Published

2004

50. Worldwide Movement of Exotic Forest Fungi, Especially in the Tropics and the Southern Hemisphere.

Author

Wingfield, Michael J., Slippers, Bernard, Roux, Jolanda, and Wingfield, Brenda D.

Subjects

*FOREST fungi, *INVASIVE plants, *TREE farms

Abstract

Discusses the worldwide movement of exotic forest fungi, especially those in the Tropics and the Southern Hemisphere, which were introduced via plantation forestry. The environmental and economic effects of these fungi; Origin of exotic pathogens; Analysis of pathogens on roots, aboveground tree parts, and timber products; Exclusion of pathogens through quarantine.

Published

2001