75 research outputs found

    Factors influencing the control of the Sirex woodwasp in South Africa

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    The woodwasp Sirex noctilio is one of the most serious invasive pests of Pinus plantations in the southern hemisphere. Extensive control programs have been developed to manage this pest, of which biological control has been a major component. This thesis examined the factors that could influence the control of S. noctilio in South Africa. A critical comparison of S. noctilio infestations and control efforts throughout the southern hemisphere revealed that control has not been uniformly effective, and local adaptation of control strategies is likely required as S. noctilio moves to new areas. The parasitic nematode Deladenus siricidicola is considered the primary biological control agent of S. noctilio. This nematode also feeds on the fungal symbiont of S. noctilio, Amylostereum areolatum. Possible factors influencing the success of this nematode in the summer rainfall areas of South Africa were examined. Data from a field trial revealed that moisture content of the wood influences inoculation success and this is influenced by the time of inoculation and the section of the tree inoculated. Laboratory-based assays revealed that incompatibility between the strain of A. areolatum and D. siricidicola was unlikely to be the cause of low inoculation success with the nematode, but that artificial inoculations could be affected by competition of A. areolatum with sapstain fungi. The parasitic wasp Ibalia leucospoides is another biological agent for S. noctilio. Mitochondrial and nuclear DNA sequence data reflected the extensive introduction of I. leucospoides into the southern hemisphere, followed by genetic bottlenecks that fixed only a few haplotypes in the introduced populations. Promoting awareness of S. noctilio in the forestry community has also been an important component of the control strategy. Data from a survey questionnaire showed that the awareness campaign had been generally successful, but the lack of basic knowledge to identify S. noctilio and its symptoms and the poor reach of the awareness media to some sectors of the forestry community, was of concern. This thesis has contributed towards understanding the factors that influence the control of S. noctilio in South Africa, with relevance to other regions where S. noctilio has been introduced.Thesis (PhD)--University of Pretoria, 2010.Zoology and EntomologyUnrestricte

    Fungus gnats in forestry nurseries and their possible role as vectors of Fusarium circinatum

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    There are many examples of associations between insects and fungi. Where the fungi involved are pathogens, such associations may be of economic importance. Insects of no economic concern alone can also become important pests because of their association with fungal pathogens. Insects may assist in the spread of pathogens by carrying them on or in their bodies. Insects may also predispose plants to infection by creating wounds during feeding, oviposition or other behavioural activities. Knowledge of associations between insects and fungal pathogens often form a crucial component in the management strategy of these pathogens. The pitch canker fungus, Fusarium circinatum, causes severe disease symptoms on mature pines in the USA. Various insects have been implicated as vectors of this disease. In South Africa, F. circinatum is reported only to cause disease on pine seedlings, where it results in severe losses in nurseries. Various insects are present in the nursery that could possibly be associated with the spread of the fungus or the infection of its hosts. Amongst these insects, fungus gnats are the prime suspects due to their history of association with fungal pathogens in other nurseries. The presence of fungus gnats in South African pine nurseries and their possible association with F. circinatum and other pathogens has never been investigated critically. The objective of this study was to expand the base of knowledge of fungus gnats in South African pine nurseries, and to consider their possible association with F. circinatum and their population structure within and between nurseries. The literature review provides a summary of fungus gnats in the nursery environment. This includes their description, biology and association with fungal pathogens. Information from these studies is used to evaluate the possible association between fungus gnats and F. circinatum in South African pine nurseries. In nurseries around the world where fungus gnats are considered pests, various control options have been used, and these are further discussed. The first research aim of this study was to determine whether fungus gnats are present in the major pine nurseries of South Africa. Thus, in Chapter 2, surveys were undertaken in four of the major pine nurseries. All fungus gnats collected were identified to species level. Other diptera collected were identified to family level. Furthermore, all diptera collected were isolated on general and selective growing medium to examine for the presence of F. circinatum. Results from Chapter 2 showed that only one species of fungus gnats was present in the nurseries and it was present in all four of the nurseries surveyed. This raised interesting questions regarding the phylogeographic structure of these populations and the diversity within and between populations. These questions are addressed in Chapter 3 using analysis of mitochondrial COI sequence data from fungus gnats collected in the four nurseries. Of particular importance was the interpretation of these results as it pertains to the movement of fungus gnats between populations, together with their associated fungi. Using general and specific growing medium to isolate fungal pathogens from insects is not necessarily an accurate method. Pathogens may be overgrown by faster growing fungi before they are noticed, especially if they are present only in small amounts. Chapter 4 examined the use of DNA-based methods as a tool to detect fungal pathogens on fungus gnats. Fungus gnats were collected from the same four nurseries as in Chapter 2. Species-specific primers for F. circinatum and Botrytis cinerea were used to detect these fungi. Dilution series were done to examine the sensitivity of the primers. General primers were used to detect other fungi. This dissertation includes some of the first studies ever undertaken on fungus gnats in South African pine nurseries. Their association with the very virulent pitch canker fungus is also considered in some detail. It is my hope that these studies will form a foundation for future research on fungus gnats in South Africa. CopyrightDissertation (MSc)--University of Pretoria, 2006.Zoology and Entomologyunrestricte

    Sirex woodwasp : a model for evolving management paradigms of invasive forest pests

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    The Sirex woodwasp, Sirex noctilio, and its fungal mutualist, Amylostereum areolatum, together constitute one of the most damaging invasive pests of pine. Despite a century of research and well-established management programs, control remains unpredictable and spread continues to new areas. Variable success in managing this pest has been influenced by complex invasion patterns, the multilayered nature of biological interactions, the varying local ecologies, and microevolutionary population processes in both the biocontrol organisms and in the wasps. Recent research findings are challenging the historical perspectives on methods to manage the Sirex woodwasp, calling for management programs to incorporate the variable local dynamics affecting this pest complex. In this regard, the Sirex woodwasp provides a superb model to illustrate the need for a different approach to develop efficient and sustainable management tools to deal with the growing and global nature of pest invasions in forests and plantations.http://www.annualreviews.org/loi/entohb2016Forestry and Agricultural Biotechnology Institute (FABI)GeneticsZoology and Entomolog

    Host-foraging strategies of five local entomopathogenic nematode species in South Africa

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    DATA AVAILABILITY : Data will be made available on request.Entomopathogenic nematodes (EPNs) are obligate parasites of soil-dwelling insects and are used as biological control agents for many insect pests. These nematodes have a free-living third growth stage called infective juveniles (IJs), which are responsible for foraging and infecting suitable insect hosts. Infective juveniles exhibit three host-foraging strategies: cruising, ambushing, and intermediate foraging strategies. The foraging strategy of EPNs is important for successful infection but is poorly understood. The current study investigated the host-foraging strategies of five local South African EPN species including Heterorhabditis noenieputensis, H. safricana, Steinernema fabii, S. jeffreyense, and S. yirgalemense by assessing their dispersal behavior. Of the five EPN species, H. noenieputensis, H. safricana, S. jeffreyense, and S. yirgalemense showed a positive response to the presence of the wax moth larvae, whereas S. fabii showed a negative response. The four EPN species that showed a positive response to the presence of the host also caused 100% mortality of wax moth larvae that were buried in sand at a depth of 10 cm, whereas S. fabii caused the lowest mortality of 34%. The average distance traveled by all five EPN species decreased on rough textured substrate compared with smooth textured substrate. The observed behavioral patterns suggested that H. noenieputensis, H. safricana, S. jeffreyense, and S. yirgalemense use a cruiser foraging strategy whereas S. fabii uses an ambusher foraging strategy.National Research Foundation (NRF) Postgraduate Scholarship and Tree Protection Co-operative Program (TPCP).https://www.elsevier.com/locate/croprohj2024Forestry and Agricultural Biotechnology Institute (FABI)Zoology and EntomologySDG-15:Life on lan

    Assessment of beetle diversity, community composition and potential threats to forestry using kairomone-baited traps

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    Traps designed to capture insects during normal movement/dispersal, or via attraction to non-specific (plant) volatile lures, yield by-catch that carries valuable information about patterns of community diversity and composition. In order to identify potential native/introduced pests and detect predictors of colonization of non-native pines, we examined beetle assemblages captured in intercept panel traps baited with kairomone lures used during a national monitoring of the woodwasp, Sirex noctilio, in Southern Africa. We identified 50 families and 436 morphospecies of beetles from nine sites sampled in both 2008 and 2009 and six areas in 2007 (trap catch pooled by region) across a latitudinal and elevational gradient. The most diverse groups were mainly those strongly associated with trees, known to include damaging pests. While native species dominated the samples in terms of richness, the dominant species was the introduced bark beetle Orthotomicus erosus (Curculionidae: Scolytinae) (22 ± 34 individuals/site). Four Scolytinae species without previous records in South Africa, namely Coccotrypes niger, Hypocryphalus robustus (formerly Hypocryphalus mangiferae), Hypothenemus birmanus and Xyleborus perforans, were captured in low abundances. Communities showed temporal stability within sites and strong biogeographic patterns across the landscape. The strongest single predictors of community composition were potential evaporation, latitude and maximum relative humidity, while the strongest multifactor model contained elevation, potential evaporation and maximum relative humidity. Temperature, land use variables and distance to natural areas did not significantly correlate with community composition. Non-phytophagous beetles were also captured and were highly diverse (32 families) perhaps representing important beneficial insects.The DST-NRF Centre of Excellence in Tree Health Biotechnology and the Tree Protection Cooperative Programme.http://journals.cambridge.org/action/displayJournal?jid=BER2017-08-31hb2017Forestry and Agricultural Biotechnology Institute (FABI)Zoology and Entomolog

    Assessing trap and lure effectiveness for the monitoring of Sirex noctilio

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    1. Lure-baited traps are an important tool for monitoring the spread and establishment of the Sirex woodwasp Sirex noctilio. The utility of these traps, however, is limited in areas with low wasp populations due to the reliance on a plant volatile (kairomone) lure in the absence of an identified pheromone. Knowledge of the optimal trap type and deployment strategy is also lacking. 2. We tested the effectiveness of a putative pheromone in baited traps, by means of a series of field trials in South Africa over a three-year period. We also examined the influence of lure type, trap type and trap height on capture success. 3. The pheromone was found to be ineffective as an attractant under South African field conditions for both male and female wasps. Lure type, trap type and trap height were found to have little to no effect on female wasp catch. Given moderately strong responses to the blend in wind tunnel and laboratory conditions, we suggest possible aspects of the biology and life history of S. noctilio that may influence lure effectiveness. 4. The traditional black intercept panel traps with kairomone lure remains the best trap for S. noctilio, at least where populations are high.USDA APHIS PPQ CPHSThttp://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1461-95632015-09-30hb201

    Challenges to planted forest health in developing economies

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    A number of strategies have been proposed to manage the increasing threat of insect pests to non-native plantation forests, but the implementation of these strategies can be especially challenging in developing economies, such as in countries of sub-Saharan Africa. As in other parts of the world, invasions of non-native insect pests in this region are increasing due to increased trade as well as inadequate quarantine regulations and implementation. Some of these invasions result in substantial socio-economic and environmental losses. In addition, new host associations of native insects on the non-native tree hosts continue to occur. Identification of these insect pests is becoming increasingly difficult due to declining taxonomic expertise, and a lack of resources and research capacity hinders the widespread and effective deployment of resistant trees and biological control agents. The necessity to engage with an extremely diverse stakeholder community also complicates implementing management strategies. We propose that a regional strategy is needed for developing regions such as sub-Saharan Africa, where limited resources can be optimized and shared risks managed collectively. This strategy should look beyond the standard recommendations and include the development of an inter-regional phytosanitary agency, exploiting new technologies to identify insect pests, and the use of “citizen science” projects. Local capacity is also needed to develop and test trees for pest tolerance and to deploy biological control agents. Ideally, research and capacity development should, at least initially, be concentrated in centres of excellence to reduce costs and optimize efforts.Members of the Tree Protection Cooperative Programme (TPCP), the National Research Foundation (NRF) and the Department of Trade and Industry (DTI) of South Africa.https://link.springer.com/journal/105302018-11-30hj2017Forestry and Agricultural Biotechnology Institute (FABI)GeneticsMicrobiology and Plant PathologyZoology and Entomolog

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

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    1 Extensive variation to damage by the invasive gall-forming wasp Leptocybe invasa Fisher & LaSalle (Hymenoptera: Eulophidae) is known to exist amongst Eucalyptus genotypes. 2 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. 3 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. 4 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. 5 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.The University of Pretoria, members of the Tree Protection Cooperative Programme (TPCP) and The Technology and Human Resources for Industry Programme (THRIP) of the Department of Science and Technology (DST).http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1461-9563

    Tree health in South Africa : retrospect and prospect

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    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.http://www.sajs.co.zaam2021BiochemistryForestry and Agricultural Biotechnology Institute (FABI)GeneticsMicrobiology and Plant PathologyZoology and Entomolog

    Interactions between hymenopteran species associated with gall‐forming wasps : the Leptocybe invasa community as a case study

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    1. Leptocybe invasa is native to Australia and induces galls on various species of Eucalyptus. Two genetically distinct lineages of this wasp have been detected outside its native range, namely, Leptocybe Lineage A and Leptocybe Lineage B. 2. The parasitoid Selitrichodes neseri was released in South Africa as a biological control agent against L. invasa. Another parasitoid of L. invasa, Quadrastichus mendeli, as well as Megastigmus zebrinus (parasitoid) and Megastigmus pretorianensis (role unknown), have also been recorded emerging from L. invasa galls. The objective of this study was to investigate the interactions between the different hymenopterans associated with L. invasa galls in South Africa. 3. L. invasa galls were dissected and species‐specific primers and restriction enzymes were used to identify the larvae where interactions were noted. 4. S. neseri, Q. mendeli and M. zebrinus were confirmed to parasitize Leptocybe Lineage A, and S. neseri was confirmed to parasitize Leptocybe Lineage B. Furthermore, there were direct interactions between these parasitoids, where parasitoids were found parasitising each other. The gall forming experiment confirmed that M. pretorianensis is not a gall former, but other potential roles remain uncertain.Supporting Information: Table S1. Species specific primers and their annealing temperatures for the hymenopteran species associated with Leptocybe invasa galls and the expected fragment sizes amplified by each species‐specific primer for the region Cyt b. Table S2. The fragment sizes of digested Cyt b amplicons using the AseI restriction enzyme for Leptocybe invasa (A and B), Selitrichodes neseri, Megastigmus zebrinus, Megastigmus pretorianensis and Quadrastichus mendeli.https://onlinelibrary.wiley.com/journal/146195632021-10-13hj2021BiochemistryForestry and Agricultural Biotechnology Institute (FABI)GeneticsMicrobiology and Plant PathologyZoology and Entomolog
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