Species of Trichoderma and Aspergillus as biological control agents against plant diseases in Africa.

2009 ◽  
pp. 193-206 ◽  
Author(s):  
R. Bandyopadhyay ◽  
K. F. Cardwell
Keyword(s):  
Biological Control ◽  
Plant Diseases ◽  
Biological Control Agents

Assessing aerated vermicompost tea (ACT) combined with microbial biological control agents for suppression of Fusarium and Rhizoctonia

2020 ◽  
Author(s):  
Andrew C. Wylie ◽  
Zamir K. Punja
Keyword(s):  
Biological Control ◽  
Plant Diseases ◽  
Disease Suppression ◽  
Biocontrol Agents ◽  
Background Suppression ◽  
Biological Control Agents ◽  
Vitro Assay ◽  
Vermicompost Tea ◽  
The Impact ◽  
Better Than

Biological control of plant diseases is important in organic greenhouse vegetable production where fungicide use is limited. Organic producers employ microbially-diverse substrates, including composts, as media for plant growth. Previous research into the impact of vermicompost on the efficacy of applied biocontrol agents is limited. An in vitro assay was developed to test the efficacy of two biological control agents in a competitive microbial background. Suppression of the pathogen Fusarium oxysporum f. sp. radicis-cucumerinum (Forc) by Clonostachys rosea f. catenulata (Gliocladium catenulatum strain J1446 (Prestop®) and Bacillus subtilis strain QST 713 (Rhapsody®), was assessed on agar media amended with aerated vermicompost tea (ACT). Pathogen growth was reduced more by C. rosea than ACT alone and C. rosea was equally effective when combined with ACT. In contrast, B. subtilis reduced pathogen growth less than ACT, and when combined, reduced pathogen growth not more than ACT alone. Both biocontrol agents were similarly tested with ACT against Forc and Rhizoctonia solani on cucumber and radish. Additive, neutral, and antagonistic responses, depending on host, pathogen, and biocontrol agent, were observed. ACT alone provided more consistent disease suppression on cucumber compared with B. subtilis or C. rosea. In combination, disease suppression was most often better than each biocontrol alone but not better than ACT alone. ACT had antagonistic or additive interactions with C. rosea in the radish/R. solani pathosystem, depending on the experiment. The specific and general suppression of plant diseases by biological control agents in microbially-rich environments is variable and requires further study.

scholarly journals KARAKTERISTIK MORFOLOGI DAN FISIOLOGI BAKTERI ENDOFIT DAN RIZOBAKTERI DARI TANAMAN CENGKEH SEHAT

2021 ◽  
Vol 4 (1) ◽  
pp. 1-8
Author(s):  
Fina Dwimartina ◽  
Tri Joko ◽  
Triwidodo Arwiyanto
Keyword(s):  
Biological Control ◽  
Endophytic Bacteria ◽  
Host Plants ◽  
Morphological Characteristics ◽  
Plant Diseases ◽  
Bacterial Isolates ◽  
Biological Control Agents ◽  
Determining Factors ◽  
Symbiotic Mutualism ◽  
Bacillus Spp

One of the determining factors in disease control is the use of superior seeds which have good quality and quantity. The use of biological control agents that form a symbiotic mutualism in their host plants can be used as an effort to obtain quality clove seeds. Endophytic bacteria and rhizobacteria have been reported as potential biological control agents for many plant diseases because of their safety in humans and non-target organisms. The purpose of this study was to identify the physiological and morphological characteristics of endophytic and rhizobacterial isolates obtained from clove plants. A total of 46 endophytic bacterial isolates were isolated from healthy clove roots, stems, leaves and flowers. Also, 66 isolates were isolated from the soil around the rhizosphere area. Based on the results of the identification of physiological and morphological characteristics, it is evident that the endophytic and rhizobacterial bacteria tested have the same character as Bacillus spp.

scholarly journals The Role of Bacillus-Based Biological Control Agents in Integrated Pest Management Systems: Plant Diseases

2004 ◽  
Vol 94 (11) ◽  
pp. 1272-1275 ◽  
Author(s):  
B. J. Jacobsen ◽  
N. K. Zidack ◽  
B. J. Larson
Keyword(s):  
Biological Control ◽  
Disease Management ◽  
Disease Control ◽  
Integrated Pest Management ◽  
Pest Management ◽  
Integrated Management ◽  
Insect Pest ◽  
Plant Diseases ◽  
Biological Control Agents ◽  
Management Tools

Bacillus-based biological control agents (BCAs) have great potential in integrated pest management (IPM) systems; however, relatively little work has been published on integration with other IPM management tools. Unfortunately, most research has focused on BCAs as alternatives to synthetic chemical fungicides or bactericides and not as part of an integrated management system. IPM has had many definitions and this review will use the national coalition for IPM definition: “A sustainable approach to managing pests by combining biological, cultural, physical and chemical tools in a way that minimizes economic, health and environmental risks.” This review will examine the integrated use of Bacillus-based BCAs with disease management tools, including resistant cultivars, fungicides or bactericides, or other BCAs. This integration is important because the consistency and degree of disease control by Bacillus-based BCAs is rarely equal to the control afforded by the best fungicides or bactericides. In theory, integration of several tools brings stability to disease management programs. Integration of BCAs with other disease management tools often provides broader crop adaptation and both more efficacious and consistent levels of disease control. This review will also discuss the use of Bacillus-based BCAs in fungicide resistance management. Work with Bacillus thuringiensis and insect pest management is the exception to the relative paucity of reports but will not be the focus of this review.

scholarly journals Compatibility of biocontrol agent formulas and synthetic fungicides in controlling maydis leaf blight on corn caused by Bipolaris maydis

2021 ◽  
Vol 911 (1) ◽  
pp. 012062
Author(s):  
Nurasiah Djaenuddin ◽  
Amelia Sebayang ◽  
Nurnina Nonci ◽  
Amran Muis
Keyword(s):  
Biological Control ◽  
Block Design ◽  
Leaf Blight ◽  
Plant Diseases ◽  
Limiting Factors ◽  
Control Treatment ◽  
Test Field ◽  
Biological Control Agents ◽  
Active Ingredients ◽  
Bipolaris Maydis

Abstract Maydis leaf blight caused by Bipolaris maydis is one of the limiting factors in increasing maize production. The application of biological control agents (BCAs) as a biopesticide to control pests and plant diseases expected to decrease synthetic fungicide usage and its impacts. Several researches showed that the formula of Bacillus subtilis biopesticide suppress the development of several plant diseases including maydis leaf blight in maize. Nevertheless, biological control agents cannot completely replace the need for chemical fungicides in the agro-ecosystem. Therefore, this study was carried out to evaluate the effect and compatibility of several synthetic fungicides with antagonistic bacterial formulas in controlling B. maydis on maize. Five types of synthetic active ingredients used were difenoconazole, propinep, fluopicolide, metalaxyl, and dimethomorph. From the results of laboratory tests, 3 types of active ingredients with the highest inhibitory effectiveness be selected for the field test. Field treatments were arranged using a Randomized Block Design with 2 factors, factor I was biological control agents with 2 levels (T0 = without biological control agents, T1 = with biological control agents) and factor II was synthetic fungicide with different active ingredients with 4 levels (S0 = no synthetic fungicide, S1=diphenoconazole, S2=propinep, S3 = fluopicolide). Each treatment combination was repeated 4 times. The result showed that all the synthetic fungicides tested were compatible with the biological control agent. Fungicide with active ingredient of diphenoconazole was the most compatible with the BCAs showing the lowest disease severity value of 27%, while control treatment conditions without BCAs was 72%.

scholarly journals Evaluating the efficacy of Trichoderma harzianum and Bacillus thuringiensis on induce the plant growth and resistance of local variety patchouli under covered and uncovered seedlings methods

2022 ◽  
Vol 951 (1) ◽  
pp. 012106
Author(s):  
R Sriwati ◽  
T Chamzurni ◽  
F Razi ◽  
Syaifullah ◽  
Yunita ◽  
...  
Keyword(s):  
Biological Control ◽  
Bacillus Thuringiensis ◽  
Plant Growth ◽  
Biological Control Agent ◽  
Dose Range ◽  
Morphological Characters ◽  
Control Agent ◽  
Plant Diseases ◽  
Biological Control Agents ◽  
Pests And Diseases

Abstract To increase plant resistance from an early age, it is necessary to introduce biological control agents from groups of fungi and bacteria. This study aims to determine the effect of Trichoderma harziaunum and Bacillus thuringiensis Aceh isolates in increasing the superiority of Aceh patchouli plants that are resistant to pests and plant diseases. The study used non-factorial RAL method with cover and uncovered seedling methods. Both series were treated with the same biological control agent, the control without any treatment, the treatment of T. harzianum and B. thuringiensis while the observations were made when the seedling covered was opened. Observations included plant morphological characters, plant growth development and peroxidase enzymes. The results showed that morphologically the original patchouli growing in Lhoong district had similar morphological characters to the Lhokseumawe variety. The application of biological control agents of the T. harzianum and B. thuringiensis groups was more effective in increasing plant growth in the closed seedling treatment compared to the uncovered seedling. T. harzianum gave the best effect at a dose range of 1-1.5 while B. thuringensis showed a better effect at a concentration of 10-15 ml. Both treatments increased the growth of patchouli seedlings as indicated by the better plant height and number of shoots. Furthermore, higher peroxidation enzymes were found in the closed seedling treatment with 1.5 g T harzianum and 15 ml B. thuringiensis. The high peroxidase enzyme as an indicator of the more resistant plants have been induced to pests and diseases. From the screen house experiment, T. harzianum and B. thuringiensis were more efficient in inducing plant growth and disease resistance of local varieties of patchouli using the closed seedling method.

scholarly journals Biocontrol of Phytopathogens under Aquaponics Systems

Water ◽  
2020 ◽  
Vol 12 (7) ◽  
pp. 2061 ◽  
Author(s):  
Tomás Rivas-García ◽  
Ramsés Ramón González-Estrada ◽  
Roberto Gregorio Chiquito-Contreras ◽  
Juan José Reyes-Pérez ◽  
Uriel González-Salas ◽  
...  
Keyword(s):  
Biological Control ◽  
Food Production ◽  
Plant Pathogens ◽  
Control Plant ◽  
Plant Diseases ◽  
Biological Control Agents ◽  
Economic Resource ◽  
Systems Research ◽  
Chemical Inputs ◽  
Potential Use

Aquaponics is an alternative method of food production that confers advantages of biological and economic resource preservations. Nonetheless, one of the main difficulties related to aquaponics systems could be the outbreak and dissemination of pathogens. Conventional treatments need to be administrated carefully because they could be harmful to human, fish, plants and beneficial microorganisms. Aquaponics practitioners are relatively helpless against plant diseases when they occur, especially in the case of root pathogens. Biological control agents (BCAs) may be an effective alternative to chemical inputs for dealing with pathogens of plants under aquaponics systems. Research of BCAs on aquaponics systems is limited, but there are numerous publications on the use of BCAs to control plant pathogens under soilless systems which confirm its potential use on aquaponics systems. The present review summarized the principal plant pathogens, the conventional and alternative BCA treatments on aquaponics systems, while considering related research on aquaculture and soilless systems (i.e., hydroponic) for its applicability to aquaponics and future perspectives related to biological control. Finally, we emphasized the case that aquaponics systems provide relatively untapped potential for research on plant biological control agents. Biological control has the potential to reduce the perturbation effects of conventional treatments on microbial communities, fish and plant physiology, and the whole function of the aquaponics system.

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