Bacillus based biocontrol on Brassica /

Danielsson, Jesper,

January 2008

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniversitet, 2008. / Härtill 4 uppsatser.

Deoxynivalenol : toxicological profile and potential for reducing cereal grain contamination using bacterial additives in fermented animal feed

Vevers, William F.

January 2015

Deoxynivalenol (DON) contamination of grain destined for animal feeds is a major toxicological risk to monogastrics and is suspected of restricting productivity in ruminants. Whereas bacterial additives have been developed that can detoxify DON in the rumen and lower intestine, there are currently no commercial inoculants able to perform this task in crimped grain (CG) silage, a regionally important method of moist grain preservation based on homo- and heterofermentative lactic acid bacteria or chemical additives. Determining whether this ensiling process alongside the action of detoxifying bacteria has the potential to remove DON in CG prior to ingestion, was explored in mini-silo ensiling experiments. CG was heat treated (100 °C, 60 min) or ensiled fresh in triplicate 50 g silos, spiked with 5 mg/kg DON and inoculated with lactic acid bacteria derived from wild birds, natural epiphytic inoculants and commercially sourced silage additives (21 d). DON recovery was only significantly reduced (31.2 ± 14.4% recovery, p < 0.001, n= 30) by heat treatment, as determined by IAC-RP-HPLC-UV. Bacterial assemblage analysis by 16S rRNA PCR-DGGE-SEQ identified Weissella cibaria, Pantoea agglomerans, Bacillus subtilis, B. licheniformis and Hafnia alvei as candidate detoxification agents, of which W. cibaria and H. alvei decreased DON recovery in vitro (11.3 and 6.2% recovery respectively, p < 0.05, n = 18), which translated to inoculated W. cibaria yielding a decrease in DON recovery (67.2± 14.4%, 28 d) in naturally contaminated crimped wheat (13.5 ± 1.0 mg/kg, 35-40% moisture, p < 0.05, n =15). As W. cibaria is a lactic acid bacteria already associated with fermented CG by default it has promise as a novel DON detoxification agent in CG silage. DON is however just one of many hepatotoxic co-contaminants. Retrorsine, a DNA-crosslinking pyrrolizidine alkaloid derived from Ragwort (Senecio sp.) was investigated for interactive toxicity with DON in an in vitro co-exposure experiment. HepG2 cells were exposed to Log10 multifactorial binary exposures for 48 h followed by a suite of assays to elucidate mechanisms of interactive cytotoxicity, genotoxicity and modulation of the proteome. Retrorsine was tentatively confirmed to form DNA/protein crosslinks in the comet, micronucleus and crosslinking assays, whilst DON was found to potently induce cytotoxicity and apoptosis. Co-exposure yielded a complex toxicity response, with low doses yielding antagonistic effects and high doses trending towards additive effects, although DON dose was generally the principle component. The difficulties associated with undertaking an interactive toxicity study where both toxins have multiple metabolic and cellular targets are highlighted.

579

A study of the traits associated with the biocontrol activity of Phlebiopsis gigantea /

Mgbeahuruike, Anthony Christian,

January 2009

Licenciatavhandling Uppsala : Sveriges lantbruksuniversitet, 2009. / Härtill 2 uppsatser.

A study of the traits associated with the biocontrol activity of Phlebiopsis gigantea /

Mgbeahuruike, Anthony Christian,

January 2009

Licenciatavhandling Uppsala : Sveriges lantbruksuniversitet, 2009.

Seed bacterization with Pseudomonas fluorescens and interactions with Pythium ultimum on tomato in soilless systems /

Hultberg, Malin,

January 1900

Diss. (sammanfattning) Alnarp : Sveriges lantbruksuniv. / Härtill 5 uppsatser.

Yield response of Fusarium infected maize seed treated with biological control agent formulations

Gerber, Johan,1961-

11 1900

Potential vegetative and reproductive increases in yield, as well as the biological efficacy against Fusarium verticillioides and F. proliferatum causing ear and stem rot in maize crops of commercially-formulated micro-organism formulation T-Gro (Trichoderma harzianum isolate DB103 WP) combined with Spartacus (Beauveria bassiana isolate DB 105 WP), T-Gro combined with Armenius (Bacillus subtilis isolate DB 109 WP), T-Gro combined with Maximus (Bacillus subtilis isolate DB 108 WP), T-Gro combined with Shelter (Bacillus subtilis isolate DB 101), T-Gro combined with Bismarck (Microbacterium maritypicum isolate DB 107 WP), as well as individual treatments of T-Gro, Armenius, Bismarck, Maximus and Shelter, were investigated when applied to maize seed and soil under field conditions. All the micro-organism treatments were compared with Thiram 750WP (750g/kg thiram WP) and an untreated control. The micro-organism treatments showed an increase in vegetative as well as reproductive yields when compared to the reference product Thiram 750 WP and the untreated control. There were no observations of adverse effects on the germination of maize seed in all the treatments that were applied. The three isolates B. subtilis, T. harzianum, and M. maritypicum, showed a significant reduction in vascular tissue discolouration of the main and ear stems, indicating a potential to be used in the reduction and control of diseases caused by Fusarium spp. Results also showed poor to very good increases of stem and foliage biomass as well as cob yield per plant produced by the micro-organism treatments when compared to the untreated control. The highest cob yield per plant that differed significantly from the untreated control was produced by T-Gro and Shelter. No phytotoxicity of any kind was observed with the application of the micro-organism formulations and they could therefore be deemed suitable to be used for the treatment of maize seed. The micro-organism formulations containing fungal and bacterial biological control agents have the potential to be used in commercial maize production to increase vegetative and reproductive yields and reduce the severity of ear and stem rot in maize. / Agriculture Animal Health & Human Ecology / M.Sc. (Agriculture)

Biological control agents

Crop protection

Maize diseases

Fusarium verticillioides

Fumonisins

Growth-promoting agents

Micro-organism

633.1596

Corn -- Yields

Fusarium diseases of plants

Analyse de l’évolution des populations du granulovirus PhopGV en contact avec des hôtes alternatifs Phthorimaea operculella et Tecia solanivora (Lepidoptera gelechiidae) / Analysis of the evolution of granulovirus populations PhopGV in contact with alternative hosts Phthorimaea operculella and Tecia solanivora (Lepidoptera gelechiidae)

Espinel-Correal, Carlos

17 December 2010

Les invasions biologiques sont un fardeau économique important si elles affectent des ressources critiques pour l’alimentation, la sante humaine ou les productions agricoles. Les ravageurs de la pomme de terre sont un challenge économique important tant ce tubercule est un aliment clé dans les pays andins. Il est possible de suivre la dispersion récente de la teigne du Guatemala, T. solanivora en Amérique du Sud depuis son introduction au Vénézuela à sa propagation progressive vers le sud. Par ailleurs, les invasions récentes fournissent un modèle unique pour analyser les processus d’adaptation de tout l’écosystème receveur au nouveau venu. Cette introduction de T. solanivora et sa coexistence avec la teigne endémique Phthorimaea operculella, nous offre la possibilité d’étudier l’adaptation de populations virales inféodées à P. operculella au nouvel hôte T. solanivora. Une étude de terrain a été engagée dans les régions productrices de pomme de terre en Colombie. A partir des larves de T. solanivora collectées sur 5 sites distincts, des infections à granulovirus ont été détectées. Tous les isolats viraux sont apparentés au Phthorimaea operculella granulovirus (PhopGV) précédemment décrit. Des différences de pathogénicité envers les deux hôtes ont été observées. Une variabilité a été détectée pour certains isolats au niveau de deux marqueurs génétiques. Les populations présentant une diversité génétique s’avèrent plus pathogènes sur les deux hôtes que des populations génétiquement homogènes. Elles offrent une opportunité pour le contrôle biologique de ces ravageurs. Des populations artificielles ont été construites pour mimer des populations naturelles mélangées. Elles se comportent de la même manière d’un point de vue biologique, mais l’évolution de la fréquence des marqueurs n’est pas liée à l’efficacité biologique, ce qui suggère que des différences non détectées dans le génome pourraient être responsables de l’adaptation de l’hôte. La productivité des infections dans les deux hôtes a été étudiée car elle est la clé de voute du développement d’un agent de contrôle biologique. Les productivités sur P. operculella (1,36 à 2,69 × 108 OBs/ mg) et T. solanivora (0,48 à 3,64 × 108 OBs/mg) ne sont pas très différentes. Les populations génétiquement mélangées ne se distinguent pas des populations homogènes par leur production totale dans l’un ou l’autre des deux hôtes, cependant, les rendements (production virale/inoculum) montrent des différences claires, les populations mélangées (naturelles ou artificielles) sont plus performantes sur les deux hôtes. Aucune réduction de la pathogénicité sur l’hôte d’origine n’a été observée après plusieurs cycles de réplication de la population virale sur l’hôte alternatif. Les populations virales originellement adaptées à P. operculella ont évolué pour infecter T. solanivora. Dans les régions où les deux hôtes sont présents, les populations virales développent une stratégie pour être efficaces sur les deux hôtes. / Biological invasions constitute an important economical burden when they affect key resources for human alimentation, health or agronomic productions. Potato pests are important as this tuber is a key food source in Andean countries. The recent dispersion of the Guatemalan potato tuber moth, T. solanivora in South America can be traced back to the introduction in Venezuela, with progressive dispersion towards the South. Recent invasions provide, in addition, a unique model to analyse the process of adaptation of the whole receiving ecosystem to the new comers. This introduction of T. solanivora and its coexistence with the endemic potato tuber moth, Phthorimaea operculella offer us the possibility of studying the adaptation to T. solanivora of virus populations infeodated to the later. A survey has been carried out in the potato-producing regions of Colombia. From the T. solanivora larvae collected, granulovirus infections were detected in five different locations. All virus isolates are related to the previously described Phthorimaea operculella granulovirus (PhopGV). Differences in the pathogenicity against the two hosts were observed. Variability was detected in some isolates at two genetic markers. Genetically diverse populations appear to be more pathogenic for both hosts than genetically homogeneous populations. They provide a possible solution for the biological control of these insect pests. Artificial populations were constructed to mimic the mixed natural populations. They behave similarly from a biological point of view, but the evolution of the markers frequencies is not related to the biological efficacy, suggesting that undetected differences in the genomes could be responsible of this host adaptation. The productivity of the infections in both hosts has been studied as it constitutes a key point for the development of a biocontrol agent. The productivity in P. operculella (1.36 to 2.69 × 108 OBs/ mg) and T. solanivora (0.48 to 3.64 × 108 OBs/mg) are not very different. Genotypically mixed populations cannot be differentiated from homogeneous populations by their total production in one or the other host, however, the yields (virus output/doses to infect) show clear differences, mixed populations (natural or artificial) perform better in both hosts. No reduction in the pathogenicity for one host was observed after few cycles of replication of the virus population in the second host. Virus populations originally adapted to P. operculella had evolved to infect T. solanivora. In regions where both host are present, the populations developed a strategy to be efficient on both hosts.

Invasions biologiques

Teignes de la pomme de terre

Agents de contrôle biologiques

Contrôle des ravageurs

Évolution virale

Biological invasions

Potato tuber moths

Biological control agents

Pest control

Virus evolution

Microbial inputs in coffee (Coffea arabica L.) production systems, southwestern Ethiopia : implications for promotion of biofertilizers and biocontrol agents /

Muleta, Diriba,

January 2007

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv., 2007. / Härtill 5 uppsatser.

Yield response of Fusarium infected maize seed treated with biological control agent formulations

Gerber, Johan,1961-

11 1900

Potential vegetative and reproductive increases in yield, as well as the biological efficacy against Fusarium verticillioides and F. proliferatum causing ear and stem rot in maize crops of commercially-formulated micro-organism formulation T-Gro (Trichoderma harzianum isolate DB103 WP) combined with Spartacus (Beauveria bassiana isolate DB 105 WP), T-Gro combined with Armenius (Bacillus subtilis isolate DB 109 WP), T-Gro combined with Maximus (Bacillus subtilis isolate DB 108 WP), T-Gro combined with Shelter (Bacillus subtilis isolate DB 101), T-Gro combined with Bismarck (Microbacterium maritypicum isolate DB 107 WP), as well as individual treatments of T-Gro, Armenius, Bismarck, Maximus and Shelter, were investigated when applied to maize seed and soil under field conditions. All the micro-organism treatments were compared with Thiram 750WP (750g/kg thiram WP) and an untreated control. The micro-organism treatments showed an increase in vegetative as well as reproductive yields when compared to the reference product Thiram 750 WP and the untreated control. There were no observations of adverse effects on the germination of maize seed in all the treatments that were applied. The three isolates B. subtilis, T. harzianum, and M. maritypicum, showed a significant reduction in vascular tissue discolouration of the main and ear stems, indicating a potential to be used in the reduction and control of diseases caused by Fusarium spp. Results also showed poor to very good increases of stem and foliage biomass as well as cob yield per plant produced by the micro-organism treatments when compared to the untreated control. The highest cob yield per plant that differed significantly from the untreated control was produced by T-Gro and Shelter. No phytotoxicity of any kind was observed with the application of the micro-organism formulations and they could therefore be deemed suitable to be used for the treatment of maize seed. The micro-organism formulations containing fungal and bacterial biological control agents have the potential to be used in commercial maize production to increase vegetative and reproductive yields and reduce the severity of ear and stem rot in maize. / Agriculture Animal Health and Human Ecology / M.Sc. (Agriculture)

Biological control agents

Crop protection

Maize diseases

Fusarium verticillioides

Fumonisins

Growth-promoting agents

Micro-organism

633.1596

Corn -- Yields

Fusarium diseases of plants

An investigation into the use of biological control agents as a sustainable alternative to synthetic fungicides in treating powdery mildew in tunnel cucumbers

Haupt, Michael Rory

31 January 2007

The use of biological control agents (BCAs) in the past has shown limited success as its application has often been done incorrectly, and in addition, management practices are rarely altered to incorporate BCAs. Criteria for the correct application of BCAs have been devised as part of the research, and companies selling these products may use the said criteria. Such application will ensure the correct BCAs are used and, more specifically, used under the correct conditions. The powdery mildew (PM) fungus is often seen to develop resistance to synthetic fungicides and, therefore, alternative control measures are required. BCAs as an alternative pose less risk to the environment, workers and the consumer. A pre-trial has been conducted with a range of BCAs to see if they can control powdery mildew (PM) in a greenhouse environment on hydroponically grown cucumber (Cucumis sativus L.) plants using the variety Baccara that has only a moderate tolerance to PM. The BCAs have been compared to the control (synthetic fungicide: Bravo). Comparative work includes Coyier's model, which has been modified and adapted for these trials to determine the percentage of leaf area covered by the PM infection. Furthermore, the number of fruit harvested per treatment, kilogram yield, total mass of yield and average fruit mass is also used to determine the efficacy of the BCAs as these factors have economic significance to commercial growers. The pre-trial showed promise until the fertigation computer failed, resulting in a nutrient shortage and imbalance, confirming that BCAs alone cannot control PM. Synthetic fungicides were applied until control of PM and plant nutrition was regained. BCAs were re-introduced and used until the end of crop production. The confirmation from the pre-trial has led to the inclusion of silicon in conjunction with the BCAs in the two subsequent trials (Trials 1 & 2). Silicon was applied with the BCAs as a foliar spray on a weekly basis. In trials 1 and 2, the cucumber variety, Palladium, with a high genetic tolerance to PM is used, as this variety is suited to form part of the holistic approach used for trials 1 and 2. Trial 1 showed that treatment A, containing Streptomyces griseovirdis and Streptomyces aureofaciens, had the highest yield. Both of these are bacterial BCAs and demonstrated their adaptability to varied climatic conditions, notably when low humidity was experienced. In treatment B, Trichoderma harzianum strains, Rifai and Uppington, show the slowest rate of PM development. In trials 1 and 2, the best actual PM control was obtained by two fungal based BCAs (Trial 1, treatment C was Ampelomyces quisqualis) and (Trial 2, treatment B was Trichoderma harzianum strains, Rifai and Uppington), showing that fungal BCAs have a place for this application, but the growth-enhancing properties of bacterial based BCAs make economic sense and would make them attractive to growers. Treatment A (Streptomyces spp.) had the most number of fruit for the entire growing period and the best overall yield (kg yield) again. Two of the BCA / silicon treatments have marginally better PM control compared to that of the control (E) treatment, although not statistically significant. Treatment E (control) has the highest average fruit mass in this instance but does not have the highest yield (kg yield) when compared to treatments A and B, possibly due to the growth-enhancing properties of most of these BCAs. Therefore, most of these BCA treatments give fairly inconsistent results that vary possibly according to season, humidity and temperature, making it difficult to predict their efficacy. Using combinations or weekly alternations of these BCAs with extremes of climatic adaptation will probably be the most reliable method of obtaining consistent results. Bacterial BCAs are shown to have lower humidity requirements and produce the most consistent results in terms of fruit number, yield and fruit mass and a combination of bacterial and fungal based BCAs would possibly be the best as this would control PM and yet still have the growth enhancing properties from the bacterial based BCAs. From the research, it can be said that some BCAs in trials 1 and 2 produce results similar to that of the control in terms of percentage leaf area covered by PM and some are shown to have improved yields. Results produced from certain BCA treatments are thus equal to the control; yet provide an environmentally friendly alternative to synthetic fungicides. Silicon is listed as a beneficial element rather than an essential element; however, literature claims it to be highly effective in treating PM in cucurbits. Results from trials 1 and 2 show that control of PM is possible in most cases, when a holistic approach is used. This approach includes a cucumber variety with a high PM tolerance, optimum nutrition, cultural practices and silicon in combination with the BCAs. A complete change of management practices is necessary to implement such a BCA program. / Agriculture, Animal Health & Human Ecology / M. Tech. (Nature Conservation)

Biological control agents

Biocontrol

Cucumber

Cucumis sativus

Sphaerotheca fuliginea

Silicon

Powdery mildew

Podosphaera xanthii

Induced resistance

Golovinomyces cichoracearum

Erysiphe cichoracearum

632.96

Cucumbers -- Diseases and pests

Cucumbers -- Disease and pest resistance

Cucumis -- Diseases and pests

Cucumis -- Diseases and pest resistance

Powdery mildew diseases

Pests -- Biological control

Mildew -- Biological control

Podospora

Sphaerotilus

Erysiphe cichoracearum