The relation of Pythium species to the growth of a sugarcane variety in Hawaii

Adair, Charles Norman

January 1969

Typescript. / Bibliography: leaves [110]-118. / vi, 118 l illus

Sugarcane -- Diseases and pests

Pythium

Sugarcane -- Hawaii

Seed and seedling disease of corn and soybean in Ohio the role of Fusarium graminearum, Pythium species diversity, fungicide sensitivity, Pythium community composition, and soil properties in disease severity /

Broders, Kirk Dale.

January 2008

Thesis (Ph. D.)--Ohio State University, 2008. / Title from first page of PDF file. Includes bibliographical references (p. 176-187).

Isparta İli topraklarında bulunan mikoparazit Pythium türlerinin ve bunların bazı toprak kökenli fungal bitki patojenleri üzerindeki in vitro etkinliklerinin belirlenmesi /

Tepedelen, Güliz. Karaca, Gürsel.

January 2008

Tez (Yüksek Lisans) - Süleyman Demirel Üniversitesi, Fen Bilimleri Enstitüsü, Bitki Koruma Anabilim Dalı, 2008. / Bibliyografya var.

Factors affecting seed-rotting in Melilotus alba and M. officinalis caused by Pythium spp.

Jackobs, J. A.

January 1946

Thesis (Ph. D.)--University of Wisconsin--Madison, 1946. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaf 33).

Sweet clover White sweet clover Pythium.

Chemical control of Aphanomyces root rot of peas and the relationship of Pythium spp. to the disease

Alconero Pivaral, Rodrigo Arturo,

January 1967

Thesis (Ph. D.)--University of Wisconsin, 1967. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

The relative effectiveness of homeopathic preparations of pythium spp. compared to Previcur (Propamocarb), in the control of pythium root rot (damping off) in cabbage and cucumber seedlings

Basson, Jo-Anne

January 2002

Dissertation submitted in part compliance with the requirements for the Master's Degree in Technology: Homeopathy, Technikon Natal, Durban, South Africa, 2002. / The purpose of this study was to expand on the foundations laid by previous homeopathic research, using controlled agricultural experiments as an objective disease system. More specifically, these trials were to investigate and evaluate the efficacy of a fungicide (Previcur') against homeopathic preparations of a plant pathogenic fungus, Pythium, on seedlings infected with this fungus. Pythium is a worldwide problem and continues to cause substantial crop losses. Few chemical methods are available to control this disease and alternatives are being sought which are more cost-effective, safer for the environment and do not lead to pathogenic resistance. Relatively few trials using Homeopathy in plant pathology have been done to date. Furthermore, many of the earlier trials proved to have little scientific credibility, due to poor methods and insufficient data. More recent trials have shown interesting results, which have opened the doors for further investigation. This study compared the effects of Previcur\xAEagainst Homeopathic preparations of Pythium, on infected cabbage and cucumber seedlings. There were 28 trays for each crop and seven treatments per crop: four Homeopathic treatments (9CH, 15CH, 30CH and 200CH), two controls (one inoculated and the other un-inoculated) and Previcur'. The seedlings were treated twice weekly, using a 2.5ml drench per seedling, and were harvested three weeks after planting. The trial was run twice, in succession. Based on the nature of Pythium and the disease it causes, four parameters were measured in this trial. To assess the germination rate, the seedlings were counted three days after planting, to establish how many had broken the surface soil. To assess survival rate, the seedlings were counted at the time of harvesting. To assess growth, the seedlings were initially weighed wet (immediately after harvesting) and then dry (after 24 hours in an oven at 50\xB0C). The data was analysed by two methods: the General Linear Models Procedure (GLMP) produced ANOVA tables, which compared the variation between the four replicates of each of the seven treatments. The data was also analysed with the Student Newman Keuls (SNK) test, to determine the variation between the seven treatments. The results showed that Previcur®consistently produced the best or second best results, in terms of mean wet and dry weights, which was evident in the statistical analysis. However, a noticeable trend emerged with the 30CH treatment: it provided the lowest mean weights in seven of the eight parameters measured while showing evidence of consistent statistical significance from the other treatments throughout both trials. The implications were that this treatment had either enhanced the disease process or had suppressed plant growth. Student Newman Keuls (SNK) test, to determine the variation between the seven treatments. This trial raised issues regarding the effects of homeopathy on disease, as well as the internal mechanisms of disease control within plant structures. Further research into this area is encouraged, to further the platform already laid by statistically valid trials done thus far. / M

Homeopathy

Pythium

Plant diseases

Root rots

Utilisation of rhizosphere microflora in the biocontrol of root rot and growth enhancement of lettuce under hydroponic systems

Begashaw, Leulseged

09 May 2005

About 150 rhizobacteria and 49 rhizosphere fungi were isolated from the rhizosphere of grasses and sedges at Nylsvley Nature Reserve, Limpopo Province, South Africa. The rhizobacterial isolated were mostly Gram negative (72%) and rod shaped (73%). The dominant fungal genera were Trichoderma, Aspergillus, Pencillium, Neosartorya and Fusarium. The antagonistic activity of the above isolates were determined in a dual culture assay against a range of plant pathogens namely Colletotrichum gloeosporioides, Pythium irregulare, Penicillium digitatum, Fusarium solani and Geotrichum candidum. All rhizosphere fungal isolates showed positive antagonism against G. candidum (100%) and F. solani (100%). The rhizobacterial isolates showed positive antagonism against G. candidum (71%) and C. gloeosporioides (76%). The growth promotion and biocontrol activity of the rhizosphere isolates that showed broad-spectrum antagonistic activity against the fore mentioned pathogens were further evaluated on Canadian peat substrate under greenhouse condition. Although most of the rhizosphere isolates resulted in improved fresh leaf weight in comparison with the non-inoculated control in final growth promotion experiments, no statistical difference could be found in increasing leaf weight by one of the tested isolates. Some isolates and BactolifeTM prevented root infection by Pythium. However, only isolate 68B showed significant prevention of root infection compared to the Pythium inoculated control. The selected rhizobacteria, fungal and commercial biocontrol products that showed the most effective growth promotion and biocontrol activities were further evaluated in a re-circulating hydroponic system. Overall, isolate BSB (Bacillus subtilis) consistently enhanced the fresh leaf and root weight by 29.82 and 24.31% compared to the untreated control. Treatments with rhizobacteria isolate 91B and 43B significantly increased fresh leaf weight and suppressed Pythium root infection of lettuce. Isolate 91B and 121B significantly decreased the incidence of Pythium after the 1st and 2nd week of inoculation respectively. The combination of rhizobacteria BSB and 43B showed a synergistic effect as reflected in increased fresh leaf weight and total biomass per plant whilst suppressing root rot caused by Pythium group-F. Copyright 2003, University of Pretoria. All rights reserved. The copyright in this work vests in the University of Pretoria. No part of this work may be reproduced or transmitted in any form or by any means, without the prior written permission of the University of Pretoria. Please cite as follows: Begashaw, L 2003, Utilisation of rhizosphere microflora in the biocontrol of root rot and growth enhancement of lettuce under hydroponic systems, MSc dissertation, University of Pretoria, Pretoria, viewed yymmdd < http://upetd.up.ac.za/thesis/available/etd-05092005-103113 / > E642/ag</gm> / Dissertation (MSc (Agric))--University of Pretoria, 2006. / Microbiology and Plant Pathology / unrestricted

Hydroponic systems

Rhizosphere microflora

Pythium

UCTD

Biological control of Pythium wilt and root rot in hydroponically grown lettuce

Boshoff, Jane

27 February 2007

A number of techniques were used to obtain a variety of bacterial and fungal species antagonistic to Pythium - F group in hydroponic systems. Isolations were made from roots of ‘escape’ lettuce plants in a commercial hydroponic gravel system as well as Pythium mycelium exposed to the hydroponic solution. Seventy four bacterial and eighteen fungal isolates were obtained and were screened for in vitro activity against Pythium by means of the dual culture method. Twenty-two bacterial isolates rendered between 10.8 and 48 % inhibition and ten fungal isolates rendered between 24.3 and 54 % inhibition of Pythium mycelial growth. Potential biocontrol agents were screened in a static aquaculture system on butterhead lettuce seedlings in the greenhouse prior to evaluation in a re-circulating gravel bed hydroponic system in the greenhouse and field, for both growth promoting and biocontrol ability. Significant increases of between 689 % and 922 % in total fresh yield were obtained from plants preventatively treated with isolates JH49, JH41, JH83, JM6R and JM16W. The eight best performing isolates were further evaluated for biocontrol activity against Pythium as well as growth promotion on butter head lettuce in a re-circulating gravel bed hydroponic system in the greenhouse. Significant increases of 1.5 % - 63.5 % and 0.9 % - 38.8 % in total fresh yield were obtained from plants evaluated for growth promotion and Pythium control, respectively. Based on their performance five of the eight isolates were selected for evaluation in a re-circulating gravel bed hydroponic field system. Treatment with Pseudomonas fluorescens and Bacillus subtilis significantly increased fresh leaf weight of lettuce plants in comparison with the untreated control indicating effective suppression of Pythium. Of the isolates that were previously evaluated against Pythium wilt and root rot of lettuce in a hydroponic system (Chapters 2 and 3), 6 bacteria and 2 fungi were most effective. The following possible modes of action of these isolates, were investigated, namely competition, production of inhibitory substances and induced resistance. The root colonizating ability of the isolates was also assessed. Competition between the isolates and the pathogen were confirmed by testing for siderophore and hydrolytic enzyme production. Five of the isolates produced siderophores much faster than the rest, demonstrating that these isolates were able to take-up iron from the media at a faster rate, thus indicating a significant competitive ability. Antibiotic production by the isolates was confirmed in vitro by means of the dual culture technique. Of the eight isolates screened, only one isolate showed in vitro inhibition of the pathogen. This result was confirmed by a TLC assay, where fluorescent bands were formed by the same isolate, indicating the presence of phenolic compounds. These compounds were separated by HPLC. Analysis of total soluble and cell wall phenolic levels in Pythium infected and non-infected plants treated and untreated with the biocontrol isolates did not render conclusive results. Three of the eight isolates were able to colonize 100% of the lettuce roots. / Dissertation (MSc (Plant Pathology))--University of Pretoria, 2008. / Microbiology and Plant Pathology / unrestricted

Pythium

Wilt

Root rot

Lettuce

Hydroponics

UCTD

Control of Pythium wilt and root rot of hydroponically grown lettuce by means of chemical treatment of the nutrient solution

Bagnall, Roger Cuan

24 April 2008

Hydroponic production was initially explored as an alternative to field production due to the ease of plant growth control and the hopes of preventing the majority of disease causing agents known to be present in general soil environments. Of primary concern in terms of pathogens are the water-borne and water-motile zoosporic fungi (especially Pythium spp.) which are able to spread easily throughout the system and cause root-rot and wilting. Few pesticides are currently registered for use in hydroponic systems due to the high costs of registration, while registered pesticides carry a high cost to the grower. Recent legislative moves by numerous countries are also resulting in a trend towards the re-use of hydroponic nutrient solution. As a result such hydroponic solutions require a greater level of disinfection to prevent disease outbreaks but without resulting in chemical buildup of phytotoxic and environmental concern. Sanitiser formulation has seen significant changes over the last few years resulting in sanitisers being used in many new areas and in a more environmentally friendly nature. Although sanitisers are not designed to have specific action against micro-organisms (as is the case with fungicides and anti-microbial agents such as antibiotics), most sanitisers are able to act on cell membranes due to the inherent surfactant properties. This study attempted to determine the suitability of various sanitisers and chemicals as alternate means of control of Pythium in recirculating gravel hydroponic systems by: 1). Exposing Pythium zoospores in a water suspension to the sanitisers Actsol®, Agral 90®, Fitosan®, Prasin®, Purogene®, TecsaClor®, Sporekill® and copper (as copper (I) sulphate) which all managed to eliminate 80% or more of the viable inoculum within a 10 minute exposure time at relatively low concentrations. 2). Testing the above sanitisers for phytotoxicity effects on cucumber plants in a static hydroculture system under laboratory conditions and lettuce plants in a gravel bed hydroponic system under greenhouse conditions. Purogene® and TecsaClor® exhibited a slight growth promotion effect at low concentrations, yet still caused negative phytotoxic effects when dosed at high concentrations. All other sanitisers exhibited some measure of phytotoxicity, observed as growth retardation and leaf discolouration, with phytotoxic effects increasing with increasing concentrations. Copper sulphate was found to be the most phytotoxic chemical tested. 3). Addition of the sanitisers to a small scale hydroponic system (greenhouse), as well as to a semi-commercial scale (field) gravel bed hydroponic system artificially infested with Pythium and cultivated with lettuce. The sanitisers were also compared to a commercially available fungicide, Phytex®. Only Phytex® and Purogene® managed to effectively reduce disease incidence and promote growth over an untreated, Pythium infested control. The results indicated that Purogene® was the most effective for application into a gravel bed hydroponic system cultivated with lettuce, while no sanitiser treatment was able to equal the improved growth and disease control recorded with treatment of the commercial fungicide Phytex®. Although all the sanitisers were able to reduce levels of Pythium inoculum in the hydroponic nutrient solution, this beneficial effect did not translate into increased yields, due to the growth retardation due to phytotoxic effects. / Dissertation (MSc (Plant Pathology))--University of Pretoria, 2008. / Microbiology and Plant Pathology / unrestricted

Hydroponic production

Pythium wilt

Fungicide phytex®

UCTD

Efficacy of rhizobacteria for growth promotion and biocontrol of Pythium ultimum and Fusarium oxysporum on sorghum in Ethiopia and South Africa

Hassen, Ahmed Idris

15 July 2008

In-vitro and greenhouse screening of 78 bacterial isolates from sorghum rhizosphere in Ethiopia and 86 isolates from the rhizosphere of grasses at Nylsvlei Nature Reserve in South Africa was conducted in terms of inhibition of Fusarium oxysporum that causes root rot in sorghum. Among the Ethiopian isolates KBE5-7, KBE5-1, KBE2-5 and NAE5-5 resulted in 100% disease suppression while disease suppressions ranging from 85.6% - 95.8% were rendered by South African isolates KBS9-H, KBS9-B, KFP9-A, NAS6-B and KBS5-F. According to identification by means of API and 16S rDNA sequencing, the majority of the effective isolates belong to members of the genus Bacillus. Other Gram negative isolates effective in this study have been identified as Serratia marcescens, Chryseomonas luteola, Stenotrophomonas maltophilia and Enterobacter sakazaki. Screening of rhizobacterial isolates was also conducted in terms ofin-vitro and in-vivo antagonistic activity against Pythium ultimum Trow, a common soilborne pathogen causing yield reductions in a wide variety of crops including sorghum. Statistically significant disease suppression was achieved by a number of isolates both from Ethiopia and South Africa. Most of the effective isolates maintained themselves in the rhizosphere at a level of ≥ 105 cfu/g four weeks after inoculation. While Bacillus cereus was the predominant isolates from both sites, Brevilbacterium laterosporus, Serratia marcescens and Pseudomonas fluorescens were among the most effective isolates with the potential to suppress Pythium ultimum in-vitro and in-vivo. Modes of action studies assessing production of antibiotics, siderophores, chitinolytic activity and induction of systemic resistance in sorghum were conducted for rhizobacterial isolates effective against F. oxysporum and P. ultimum. The antibiotic substances produced in the culture filtrates of many of these effective bacteria resulted in strong antifungal activity against both pathogens. The antibiotics from Bacillus cereus (KBS5-H) and Bacillus subtilis (KBS6-3) resulted in an efficient antagonistic activity against F. oxysporum and Pythium ultimum respectively. Siderophore production was evident in the Gram-negative strains Serratia marcescens (KBS9-R), C. violaceum (KBE9-1) and E. sakazaki (NAS6-B) with prominent yellow/orange halo development on CAS-agar plates demonstrating the potential by these isolates to produce siderophores under iron stressed conditions. Chitinolytic activity on chitin-agar plates was shown by isolates which mostly (83%) belonged to strains of B. cereus The split root system has also demonstrated that B. cereus (KBS5-H), C. violaceum (KBE9-1) and S. marcescens (KBS9-R) were capable of rendering significant induction of systemic resistance against F. oxysporum in sorghum. The successful in-vitro and in-vivo suppression of F. oxysporum and P. ultimum by the effective rhizobacterial isolates and the presence of various modes of action provide useful information on the potential of these isolates as biocontrol agents against soilborne fungal pathogens. The isolation and screening of rhizobacteria for growth promotion of sorghum has also been conducted under greenhouse condition in pathogen free soils. Three isolates from Ethiopia and 10 isolates from South Africa have been identified as the most effective growth promoting isolates in these studies. The isolates also tested positive for the production of siderophores, production of indoleacetic acid and phosphate solubilization, the direct modes of actions through which bacteria promote plant growth in the rhizosphere of several plants. Of the most effective isolates 44 % were identified as Bacillus cereus, 19 % as Chryseomonas luteola, 13 % as Serratia marcescens, 13 % as Sphingomonas paucimobilis, and 6% each as Stenotrophomonas maltophilia and Brevibacterium laterosporus respectively. The best biocontrol agents were selected out of a total of 24 isolates both from Ethiopia and South Africa. The selection procedure was conducted by using criteria such as the in-vitro and in-vivo suppression of Fusarium oxysporum and Pythium ultimum, the root colonization ability of the bacterial isolates and selected modes of action including production of antibiotic substances and siderophores, chitinolytic activity and induction of systemic resistance in sorghum. According to this procedure five isolates from Ethiopia (KBE5-7, KBE5-1, KBE9-1, NAE1-7 and NAE5-7) and six isolates from South Africa (KBS5-F, KBS9-R, KBS6-H, KBS5-H, KFP9-K and KBE6-17) have been selected as the most efficient biocontrol isolates. The selection of the best performing growth promoting isolates was conducted out of 12 efficient isolates using the following criteria: root colonization, siderophores and indoleacetic acid (IAA) production, phosphate solubilization and bacterial growth profiles in liquid cultures. Two isolates from Ethiopia (KBE7-8 and KBE9-1) and five isolates from South Africa (KBS5-H, KBS5-F, KBS6-H, KBS9-B and NAS4-3) have been selected as the best growth promoting isolates. As the screening and selection of this study are based on laboratory and greenhouse studies, further evaluation of the best isolates under field conditions and additional modes of action studies are warranted to ascertain their full potential as biocontrol and growth promoting agents. / Thesis (PhD (Plant Pathology))--University of Pretoria, 2009. / Microbiology and Plant Pathology / unrestricted

Ethiopia

Pythium ultimum

Fusarium oxysporum

Sorghum

UCTD