Control of organisms causing spoilage of bananas during ripening period

Gasper, Frank Edward, 1925-

January 1953

No description available.

Bananas -- Diseases and pests.

Fruit -- Ripening.

Fruit -- Storage.

The inhibition of Fusarium oxysporum f.sp. cubense race 4 by Burkholderia cepacia.

Pan, Manjing.

23 December 2013

Inhibition of Fusarium oxysporum f. sp. cubense race 4 by Burkholderia cepacia was evident when grown on various media (TSA, PDA, PSA, YM, KMB, PPM, NYGA, LA) with different carbon sources and under various pH and temperature conditions. In addition, B. cepacia was able to inhibit several fungal pathogens in vitro. Antagonism of B. cepacia against F. oxysporum f. sp. cubense occured at high levels of Fe³+, which may suggest that antagonism by B. cepacia did not involve siderophore production. Thin layer chromatogram (TLC) examination showed that B. cepacia produced several substances, one of which had similar R[f] value to that described for pyrrolnitrin. Cell-free supernatant of a 4-day culture of 6. cepacia was applied to an Amberlite XAD-2 column and inhibitory activity co-eluted with the 95% methanol (pH 9.5) fraction. The concentrated activated fractions showed inhibitory activity against F. oxysporum f. sp. cubense. A GC-MS chromatogram indicated numerous components in the antifungal extracts. The only compound identified in the Wiley 138 library, was 1,2- Benzenedicarboxylic acid, bis (2-Ethylhexyl) ester. Observations by light microscopy indicated that B. cepacia inhibited spore germination in F. oxysporum f. sp. cubense race 4 and retarded the mycelial growth. The interaction between the endophytic bacterium, B. cepacia and F. oxysporum f. sp. cubense race 4 was investigated with aid of scanning and transmission electron microscopy. This demonstrated that the bacterium was able to colonize the surface of hypha and macrospore of F. oxysporum f. sp. cubense. Mycelial deformation, terminal and/or intercalary swelling were evident. At later stages, hyphae of F. oxysporum f.sp. cubense, colonized by B. cepacia, were found to have collapsed. Further studies in vivo confirmed that B. cepacia colonized the hypha of F. oxysporum f. sp. cubense which had invaded banana roots. TEM observation showed that in the banana plant B. cepacia was closely associated with the healthy banana roots and a matrix was frequently found to be present between the bacterium and the plant surface. In addition, B. cepacia exists mainly in the intercellular space of the banana roots. UV irradiation treatment of B. cepacia resulted in a mutant that had lost inhibitory activity against F. oxysporum f. sp. cubense on TSA agar. Transposon mutagenesis of B. cepacia was performed by Tn5 insertion. Six mutants which had lost or had reduced inhibitory activity against F. oxysporum f. sp. cubense were generated. These mutants showed no inhibitory zones on TSA medium in the presence of the fungus. It was observed that one mutants. cepacia :: Tn5-188 appeared to lose the ability to colonize the fungal hypha, whilst a different mutant B. cepacia ::Tn5 - 217 was still able to colonize the fungal hyphae. TLC analyses showed that there was a decrease in antibiotic production in mutants B. cepacia :: Tn5 - 217 and B. cepacia - UV - 34, compared with the wild type. GC- MS analyses showed that there was no evidence of the peaks at 14.62 minutes, 20.0 minutes and 20.46 minutes in both chromatograms of mutants B. cepacia :: Tn5 -217 and 8. cepacia -UV - 34, compared with the wild type B. cepacia. No PCR products were detected using primers that were developed from sequences within the biosynthetic loci for Phi of P.fluorescens Q2-87(GenBank accession no. U41818) and PCA of P. fluorescens 2-79 (GeneBank no. L48616). Colony hybridization suggested that genomic DNA from B. cepacia could contain both Phi- and PCA probes. It was found that hybridization of genomic DNA digested with Cla-I of B. cepaca with Phl2a probe only occurred at low stringency. A hybridization signal was detected from a Cla-l fragment of approximately 2800bp. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 1997.

Bananas--Diseases and pests--Control.

Fusarium.

Wilt diseases--Control.

Antifungal agents.

Burkholderia cepacia.

Theses--Genetics.

Incidence and characterization of Fusarium species in crown rot of bananas

Ramsunder, Kumindra Devrajh

January 2002

Submitted in partial fulfillment for the Degree of Master of Technology: Biotechnology, M. L. Sultan Technikon, 2002. / Fusarium species produce toxic mycotoxins that are known to exert adverse health effects in humans and animals. No attempts have been made to establish mycotoxin-producing capabilities of isolates of Fusarium species from bananas exhibiting symptoms of crown rot. Crown rot is one of the most serious post harvest problems in banana and the disease is caused by different fungal species, principally Fusarium species. Banana, which is of great economic significance in growing countries (i.e. Costa Rica, Cameroon, Ecuador) is seriously affected by crown rot and is a major cause of fruit loss / M

Fusarium--Identification

Mycotoxins

Fungal diseases of plants

Bananas--Diseases and pests

Fusarium--Toxicology

Arbuscular mycorrhizal fungi of Ugandan banana plantation soils

Msiska, Zola

15 October 2007

Please read the abstract (Summary) in the section 00front of this document / Dissertation (MSc (Botany))--University of Pretoria, 2007. / Plant Science / MSc / Unrestricted

Soilbourne plant pathogens uganda

Mycorrhizal fungi uganda

Bananas diseases and pests uganda

Fungal diseases of plants uganda

UCTD

Evaluasie van twee nematosiede teen plantparasitiese nematode op piesangs

Van Niekerk, Johannes Lodewicus

16 April 2014

M.Sc. (Nematology) / Please refer to full text to view abstract

Plant nematodes - Eastern Transvaal

The evaluation of different banana bunch protection materials on selected banana cultivars for optimum fruit production and quality in Nampula Province, Mozambique

Kutinyu, Rodrick

14 January 2015

Mozambique has potential to boost its banana exports. To fully realise this, agronomic practices in production should be fully developed to combat physiological disorders associated with banana within the region. Currently, lower temperatures are being experienced in some production sites, consequently affecting yield and quality. The objective of this study was to evaluate use of bunch protection covers on banana cultivars Grand Nain and Williams banana cultivars, for performance under different fruit protection materials to determine best fruit protection bag suitable for Metocheria, Nampula. Plants were not selected near plantation borders, drainage canals, cable way and roads, as this would influence the growth pattern of plants and fruit development. Treatments consisted of control (no bag on bunches), white perforated polyethylene, white non-perforated polyethylene, blue perforated polyethylene, blue non perforated polyethylene, green perforated polyethylene, green polyethylene non perforated and cheese cloth bags arranged in a complete randomised block designed CRBD with 26 plants replicated eight times. During 2012/2013, bagging treatments did not considerably improve weight in hands, banana finger weight, total fruit weight, marketable weight and percentage marketable fruit weight and box stem ratio (BSR) of Grand Nain. However there was reduction of fruit defects in all bagging treatments compared to control (no bags). In Williams during the 2013 season bagging treatments improved weight but no significant differences were observed on weight of hands in 2012. Bagging of banana bunches reduce defects in both seasons. Both green and blue perforated bags improved box stem ratio. Bagging treatments increased Williams‟s cultivar yield (per ton) in both seasons / Agriculture and  Animal Health / M. Sc. (Agriculture)

Banana bunch cover

Early bagging

De-handing

634.722096797

The statistical analyses of a complex survey of banana pests and diseases in Uganda.

Ngoya, Japheth N.

January 1999

No abstract available. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 1999.

Field Crops--Diseases and pests--Uganda.

Bananas--Climatic factors.

Bananas--Diseases and pests--Uganda.

Multivariate analysis.

The evaluation of different banana bunch protection materials on selected banana cultivars for optimum fruit production and quality in Nampula Province, Mozambique

Kutinyu, Rodrick

14 January 2015

Mozambique has potential to boost its banana exports. To fully realise this, agronomic practices in production should be fully developed to combat physiological disorders associated with banana within the region. Currently, lower temperatures are being experienced in some production sites, consequently affecting yield and quality. The objective of this study was to evaluate use of bunch protection covers on banana cultivars Grand Nain and Williams banana cultivars, for performance under different fruit protection materials to determine best fruit protection bag suitable for Metocheria, Nampula. Plants were not selected near plantation borders, drainage canals, cable way and roads, as this would influence the growth pattern of plants and fruit development. Treatments consisted of control (no bag on bunches), white perforated polyethylene, white non-perforated polyethylene, blue perforated polyethylene, blue non perforated polyethylene, green perforated polyethylene, green polyethylene non perforated and cheese cloth bags arranged in a complete randomised block designed CRBD with 26 plants replicated eight times. During 2012/2013, bagging treatments did not considerably improve weight in hands, banana finger weight, total fruit weight, marketable weight and percentage marketable fruit weight and box stem ratio (BSR) of Grand Nain. However there was reduction of fruit defects in all bagging treatments compared to control (no bags). In Williams during the 2013 season bagging treatments improved weight but no significant differences were observed on weight of hands in 2012. Bagging of banana bunches reduce defects in both seasons. Both green and blue perforated bags improved box stem ratio. Bagging treatments increased Williams‟s cultivar yield (per ton) in both seasons / Agriculture and  Animal Health / M. Sc. (Agriculture)

Banana bunch cover

Early bagging

De-handing

634.722096797

Management of fusarium wilt diseases using non-pathogenic Fusarium oxysporum, and silicon and Trichoderma harzianum (ECO-T®)

Kidane, Eyob Gebrezgiabher.

January 2008

In the genus Fusarium are many important plant pathogens. The diversity of hosts the genus attacks, the number of pathogenic taxa and the range of habitats in which they cause disease are the greatest in plant pathology. One important species complex within the genus Fusarium is Fusarium oxysporum Schlecht. This species complex consists more than 80 pathogenic forma specialis and is particularly difficult to control. The fungi can survive in soil for decades as specialized spores, known as chlamydospores. Interestingly, however, this species complex also contains beneficial non-pathogenic forms that can be exploited to manage Fusarium wilt diseases. In this study, the ability of non-pathogenic F. oxysporum strains, Trichoderma harzianum Rifai Eco-T®, soluble silicon, and their combination was evaluated on two important crops, banana (Musa sp. L.) and beans (Phaseolus vulgaris L.), for their potential to suppress pathogenic strains of F. oxysporum. The ability of these crops to take up and accumulate silicon in their organs, and its effect on low temperature stress was also investigated. Several endophytic fungi, mainly Fusarium spp. and bacteria, were isolated from healthy mature banana plants. After preliminary and secondary in vivo screening tests against F. oxysporum f.sp. phaseoli on beans (Phaseolus vulgaris L.) cv. Outeniqua, two non-pathogenic F. oxysporum strains were selected for further testing. These two non-pathogenic F. oxysporum strains were found to colonize banana (Musa sp.) cv. Cavendish Williams and bean plants, and to suppress Fusarium wilt of these crops. In order to improve the efficacy of these biocontrol fungi, soluble silicon was introduced. The relationship between plant mineral nutrition and plant diseases have been reported by several authors. Plants take up silicon equivalent to some macronutrients, although it is not widely recognized as an essential element. In this study, we established that roots, the target plant organ for soilborne plant pathogens, accumulated the greatest quantity of silicon of any plant organs when fertilized with high concentrations of silicon. On the other hand, the corm and stem accumulated the least silicon. Such observations contradict the concept of passive uptake of silicon via the transpiration stream in these plants as the only uptake mechanism. The prophylactic properties of silicon have been documented for many crops against a variety of diseases. In vitro bioassay tests of silicon against these wilt pathogens showed that silicon can be toxic to Fusarium wilt fungi at high concentrations (>7840 mg .-1), resulting in complete inhibition of hyphal growth, spore germination and sporulation. However, low concentrations of silicon (<490 mg .-1) encouraged hyphal growth. Silicon fertilization of banana and beans significantly reduced disease severity of these crops by reducing the impact of the Fusarium wilt pathogens on these crops. However, it could not prevent infection of plants from the wilt pathogens on its own. Synergistic responses were obtained from combined applications of silicon and non-pathogenic F. oxysporum strains against Fusarium wilt of banana. Combinations of silicon with the non-pathogenic F. oxysporum strains significantly suppressed disease severity of Fusarium wilt of banana, caused by F. oxysporum f.sp. cubense (E.F. Smith) Snyder & Hansen, better than applications of either control measure on their own. Banana production in the subtropical regions frequently suffer from chilling injury, and from extreme variations between night and day temperatures. Such stress predisposes banana plants to Fusarium wilt disease. Silicon, on the other hand, is emerging as important mineral in the physiology of many plants, ameliorating a variety of biotic and abiotic stress factors. We established that silicon fertilization of banana plants significantly reduced chilling injury of banana plants. Membrane permeability, lipid peroxidation (MDA level) and proline levels were higher in silicon-untreated plants than the treated ones, all of which demonstrated the stress alleviating effect of silicon. Low temperatures damage the cell membrane of susceptible plants and cause desiccation or dehydration of these cells. Levels of sucrose and raffinose, recognized as cryoprotectants, were significantly higher in silicon-amended banana plants than unamended plants. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.

Fusarium diseases of plants.

Wilt diseases.

Biological pest control agents.

Trichoderma.

Silicon in agriculture.

Plant diseases--Nutritional aspects.

Fusarium oxysporum.

Theses--Plant pathology.

Breeding investigations for black Sigatoka resistance and associated traits in diploids, tetraploids and the triploid progenies of bananas in Uganda.

Barekye, Alex.

January 2009

Reduced banana yield owing to black Sigatoka Mycosphaerella fijiensis Morelet is a threat to the livelihoods of Ugandan subsistence farmers who depend entirely on the banana crop for food security. The objectives of this investigation were to: (i) assess farmers’ knowledge of black Sigatoka disease in central Uganda; (ii) document the qualities farmers would desire in the banana genotypes to be developed for black Sigatoka resistance; (iii) appraise the methods for assessing black Sigatoka resistance in diploid banana populations; (iv) determine the phenotypic variation for black Sigatoka resistance and agronomic traits in diploid and tetraploid bananas; (v) determine the influence of tetraploid and diploid parents on the black Sigatoka resistance and agronomic traits in the triploid progenies; and (vi) evaluate 2x by 2x banana progenies for yield and black Sigatoka resistance. A survey that focused on low and medium banana production zones in Uganda established that there was limited awareness of black Sigatoka disease as a constraint on banana production in the areas surveyed. It was also established that farmers liked local bananas because of their superior taste, early maturity, and marketability. There were farmers who had been exposed to new black Sigatoka resistant materials but never liked these new banana materials because of poor taste and lack of market. Farmers desired new banana materials with good taste on cooking, heavy bunches, resistance to pests and diseases, drought tolerance, and early maturing capacity in that order. The results indicated that the banana farmers in Uganda attached more importance to food quality attributes than to production attributes especially when considering new banana materials. This suggested that farmers mainly grow bananas for consumption. Three black Sigatoka assessment methods, youngest leaf spotted, disease development time and area under disease progress curve (AUDPC) were appraised using a diploid population. All the three methods were able to classify the diploid accessions into resistant and susceptible clones. The cultivar rankings of AUDPC correlated strongly with the rankings of disease development time. The cultivar rankings of AUDPC correlated positively with the rankings of youngest leaf spotted method. The youngest leaf spotted at flowering and AUDPC predicted significantly total number of leaves at flowering (R2 = 0.53). Overall AUDPC had the highest coefficient of determination (R2=0.84) in assessment of banana diploids for black Sigatoka resistance indicating that it accounted for the highest variation in disease response observed among the diploid clones. From this investigation it was recommended that AUDPC should be used to assess resistance on black Sigatoka in Musa species. A phenotypic analysis on the diploid and synthetic tetraploids, and a molecular analysis using RAPD markers on the tetraploid population were conducted. Results indicated that the diploid population had significant (P<0.001) variation for plant height, plant girth, days from flowering to harvest, bunch weight, number of suckers, youngest leaf spotted, total leaves at flowering, area under disease progress curve, and number of functional leaves at harvest. Principal component analysis showed that plant height and girth explained most of the variation observed in the diploid population. In the tetraploid population, significant differences were observed for plant height, plant girth, and number of suckers (P<0.05). In the tetraploids principal component analysis, indicated that youngest leaf spotted and total leaves at flowering had higher loadings on principal component one. Genetic distances computed from RAPD markers indicated limited genetic variability in the tetraploid population. Another investigation was also carried out to determine the influence of tetraploid and diploid parents on black Sigatoka resistance and agronomic traits in the triploid progenies generated from tetraploid-diploid crosses. The results indicated that diploids transferred black Sigatoka resistance to triploid progenies as measured by disease development over time, the number of functional leaves at flowering and at harvest. On the other hand, the female synthetic tetraploids influenced plant height and bunch weight in the triploid progenies generated from tetraploid-diploid crosses as observed from triploid progeny correlations and parent-offspring regressions. Therefore, it is important to select tetraploids with heavy bunch weights to generate high yielding triploids in tetraploid-diploid crosses. Lastly, this thesis investigated the relationship between bunch weight and black Sigatoka resistance traits in 2x by 2x progenies generated using a random polycross design. Phenotypic correlations revealed strong positive relationships between bunch weight with total leaves at flowering, youngest leaf spotted, plant girth, and days from planting to flowering among the 2x by 2x progenies. Linear regression analysis indicated that girth, total fingers and finger length significantly predicted bunch weight (R2=0.67). However, days from planting to flowering, and total leaves at flowering had strong indirect effects on bunch weight via plant girth. The results imply that selection for parents with good combining ability for girth, finger length and total fingers can improve bunch weight in a diploid population. / Thesis (Ph.D.) - University of KwaZulu-Natal, Pietermaritzburg, 2009.

Bananas--Diseases and pests--Uganda.

Bananas--Breeding--Uganda.

Bananas--Uganda--Genetics.

Mycosphaerella--Uganda.

Bananas--Varieties--Uganda.

Fungal diseases of plants--Africa.

Selection (Plant breeding)--Africa.

Plant breeding--Research--Africa.

Theses--Plant breeding.